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rf~ Q K o zo < < OVIKS C FlBERGLAS ' oz t- S => /> Z a. PLAINTIFF'S EXHIBIT January, 1962 PLAINTIFF'S EXHIBIT -Jl$l4JL0O Pipe Insulations a complete line of pipe and tubing insulations for temperatures from minus 120 F to 1800 F l i A l l M i l f f i i A-I A. FILE NO. 3/ U PIPE INSULATIONS ilf U jli jr .v3li r 38Brr ' Fiberglas FIBERGLAS PIPE INSULATIONS < N\ ....var r^rr' >-<r * ;T*\Y ^r..--r _ =. i .. _____ . B>i|lii Hf* InwriwiM Miin f*t MO, MIH(II. Applied either indoors or outdoors, Fiberglas Pipe Insulations assure superior performance and durability in all temperature ranges. Each of the eight product types offered in the Selector Guide opposite is the result of special engineering research and design to meet each particular use requirement Manufactured to exacting standards, these fine Fiberglas prod ucts have proven their merit through years of industrial experience. r-- r -3 /;.^P5X* ^5*- hi ISfSI 57 001 2237 Sr- 'id*- V-* 2 pipe insulations selection guide - requirement* fof Indoor end outdoor hat lines for heated dual-temperature, __ chiliad and lee ... water, brine refrigerant - _ and special process lines or where a Areretardant jacket ___ is required ___ for cold water, hot water and low pressvro Steam cold water Vues for hot, cold and dual temper ature lines service* temperature product available thickness up to 430 F canvas and motal jackttod pipo inflation oitnel 1". 2", 2in no- gi layer; any tKickneu pa. sibie with Multiple layer standard sizes page iron pipe uses--'km *o 33" cepper lubmg O d in 3' sections -120 F to 430 f vapor barrior flro retardant jackal (FRJ) or Dual Tamp. nominal 1", 2", Vh" in ungls lover; any thickness pas* sibie with Multiple layers iron pipe iize*--> '4- to 33- copper tubing sites--to 4%-o d. in 3' sections up to 230 F down to 30 t lew pressure pip# insulation uinal % -- 30 Flo 400 f multi-purpose one-piece pipe insulation nominal 14* 1", 1V. 2" in single iayarj any thickness passible with multiple layers iron pipo situs-- <4* to 12" coopor tubing >*--'A" to 4Vi"o.4. ini' sections 8 iron pipe site*-- %*ioM* copper tubing sites--I ' to *V e.d. in 3' action*--6 sscfloat over 4* IPS 14 for dual temperature Chilled, refrigerant and ice water linos 0 F to 220 r O-C flexible and rigid tubing insulation **. V4". 14* r boa pipo and copper tubing H" I.D. to 4' IPS la S' lengths 16 for high temperature indoor and outdoor linos end super temperature steam linos up to 1200 F (standard Carlo) 1200 F to HOOF [Kero 20) Kayle, Kayle-30 and Kayle Klad pipe insulation nominal 1*. 1 Vi*. 2". 2V4'. 3* ia single leyori any thickness possible with multiple pipe sites-- ***30" tubing sitos... %" to 3H* ed. in 3' 18 22 high pressure steam traced and nostod lines up la 1000 F blanket type pip# Insulation * Service temperature* art fur th# [ockti and tntwUriion far require* saatt tbaera. 1*. m*. 2'. 2%*. V. 4* Iron pipe si tos s' la 34" Honkots ora 24' 24 J7 001 22$S OWENS-CORNING FltERGlAS CORR. q pwpi^ ! 'i ,! I |I|I P IP * ' o i < v c ommc Fiberglas heavy density sectional pipe insulation for hot and cold tines from minus 120 F to 450 F CANVAS Fiberglas Sectional Pipe Insulation is available with a sta--a*-; weight or 6 or 8 or. canvas jacKet to serve as a base f-- fit d painting. Aluminum bands are furmahed at additional cost OOriNO mr--f.r ewtSeer lines Where Fiberglas Sectional Pipe Insulation requires protection c ' "* H^rn^ban^^^r^^ble^t^silght*ex:ra DESCRIPTION Fiberglas Sectional Pipe Insulation is a precision molded pipe covering composed of Fibergias wool resin bonded and formed in two half cylinders at a density of 7!* lbs., cu. ft. It is available in three foot long sections to fit all types of pipe and tub ing from ^4' IPS to 33" operating at tempera tures from minus 120 F up to 450 F. A variety of jackets for appearance, vapor barrier, fire proof ing or waterproofing permit selection of this many-purpoae insulation for a specific end use either indoors or out, cold or hot line applications. Thicknesses follow Simplified Dimensional Stand ards to permit nesting for double layer applica tion. ADVANTAGES This inorganic pipe insulation offers superior thermal efficiency. It is priced competitively with other insulation yet delivers greater thermal performance for long range heat savings or where precise temperature control is required. Fiberglas Sectional Pipe Insulation is easy to cut and fit. It is firm and resists compression. Only a sharp knife is required to fabricate. It will not crack or shrink, withstands thermal shock, will not corrode pipe or rot and is not permanently affected by moisture. Factory applied jackets speed application. Close manufacturing tolerances assure uniform wail thicknesses and close fitting to the pipe. The glass fibers mesh at the joints to give, in effect, a continuous unbroken covering of efficient insu lation. JACKETS l USES Fibergias Sectional Pipe Insulation is available with a variety of jackets for appearance, painting base, vapor barrier, fire retardant ana weather protection. The selection of a particular end use determines the jacket to use. PgJ (Fire *eterdent Jacket)--Owens-Coming has attempted to reduce the number of jackets re quirea and offers a new vapor barrier jacket that is fire retardant, and presents a neat finished ap pearance. It is composed of one layer of kraft paper and a layer of aluminum foil laminated to gether with a self-extinguishing adhesive and re inforced with Fiberglas yarn. The exterior sur face is coated white eliminating the need for painting. This versatile factory-applied jacketing material makes Fiberglas FRJ Sectional Pipe In sulation the ideal materia! for commercial and industrial low and dual-temperature piping oper ating up to 450 F. eosts SIZES * '' ^ 7 Iren pipe (IPS) -- U * to 33' capper tubing (CT) -- li " O.D. to 6*4 ' O.D. Insulation thicknesses--1". I1*", 2"*, 2,4'* in lingle laver de pending on pipe tire. See table on page 6. Made to simplified dimensional standards for nesting in multiple layer applications. sectlen length--3' If** piH |i|* M(y. LIMITATIONS temperature limit--Should not be used on pipes operating above 450 F. lew temperature usage--Must have vapor barrier jacket to pre vent condensation when used on low temperature lines. tleran<ei--All values given are subject to normal manufactur ing and testing tolerances. prelection--Should be protected from mechanical damage in loca tions where severe abuse is likely. Canvas and vapor barrier jackets require weatherproofing when located outdoors. I I i I I pipe insulations 4 5o"f Multi -Purpose U* with Appropriate Jacket Hmatod iinos to 4SO F CoId A DuahTomporotoro or Flro Safoty for Unot from Minot 1 20 F to 450 F US* jacket description application details This universally accepted effi cient pipe insulation it recantmended for healed lines oper ating at temperatures up to 430 F where a idcket is reputed for surface finish or os o base far pointing. Ctnvts Avo>loPie an pipe ntes up to 12" in itonaord. 6 or I ci weight, factory applied, conpiete with longitudinal and end lOmt laps. Aluminum bands fur nished of slight additional cost. Additional weatherproofing is reavtred for piping located out doors. insulation n oop"a *o p>C'-9 end canvas parse imoom v ever tops, lands may at used (er ooditionoi mecnonicai `as tenmg or for opoeorence. swlohon fpr p.p.ng over 12" i wired in pioct and lubieOutnt. ly covered w<tn fiia opened canvoi. Fittings ore insulated with fibrous gloss molded fitting covers, or OC-110 insuioting Ce ment Application oetoiis ona fitting weatherproofing or# out lined on pages 10 end H. This oil purpose fire retardant vapor barrier ioeke< factory-ap plied to Fibergtos cavers a broad range df pipe insulation requirements from sub-zero process brine, refrigerant, chilled and ice water to dualtemperature lines and also pro vides fire safety for all linos operating in temperature range from minus 120 F, to 430 F. Hasting sixes permit multiple layer application and broken joint construction. Asphalt lominoted fpil-Kraft.foil dual temperature jacket is still available for lines not exceed ing 250 F. Fire Nttrdifit Vapor ParHer Jacket Fire retardant vapor barrisr jacket it composed of one laytr of kraft paper and a layer of aluminum foil laminated to gether with o fire self extin guishing adhesive and rainforced with tough Fiberglos yarn. The exterior surface is coated white to present a neat appearance requiring no further sur face finish for cold or hooted lines. Vapor barrier perm rat ing I* a law 0.01 perms -- grains per hour par square fmt par inch of mercury, longitu dinal joint sealing Pop pro vided. End joint tooling topus ore supplied, lands ere avail* able at slight additional cast. Cold and dual-imefOturc pip ping and fittings require care ful application of *opr barrier jacketed pipe nsutotion ond sealing of fittings. For opp"cofion details ond specifications see pages 10 and 11. Thick ness recemmeneotions to pre vent condensation ond law temperature central for eoid piping are shewn on pages 6 and 7. Additional weather proofing is required for piping located outdoors -- derails on pages 10 and 11. Outdoor Unot to 450 F Fiberglos Pipe Insulation with foctory-appliod woother-resist ant roofing jacket is recentmended far outdoor lines oper ating at temperatures up fa 450 F. Weatherproofing ond insulation ere applied in ana stop. Hut Fait Jwktl Available with factary-applied 35. 45, or 55 lb. roofing felt jackets, longitudinal joint flap previaed. End joint tooling tapes supplied. Insulation with integral weatherresistant jacket is wired <n piece. Side laps are turned down to shad water. End joints ore sealed with end joint tape provided end securely wired in pioce- Further application Oetails and waaiherproofing of fittings are described on pages 10 and U. Fiberglos Metal Jacket Pipe In sulation with factory applied embossed aluminum or smooth stainless steel jacketing is rec ommended far outdoor lines op erating of temperatures up to 450 F. Weatherproofing and in sulation ore applied in one step. Moral Jmcfcat Fiberglos Metal Jacket pipe in sulation with .015 embossed aluminum or .010 stainless steel factory-applied jackets have longitudinal seam joints and end joint bonds with integral mastic. Fiberglos Metal Jacket is also available with .010 embossed aluminum facing, factory aftplied. without seam joints but with o three-inch overtop at longitudinal seem ond 3" over lap on one end joint. Metal Jacket with seam joint is applied by inserting fiat edge into sealing joint in a four o'clock position en pipe to shed water. Ind joint strips with in tegral mastic are then attached at end joints ond banded Metal Jacket with .010 em bossed aluminum is installed with 3* Overtop ot seams one joints, bands or wires ore ottoe had securely in place ot 18" intervals, two per 36" section. See pages 10 end 11. yi 001 2240 OWINS-CORNING FISIROLAS CORP heated piping to 450 F -,,, ------ a 9+- rwt temp. temp. dMV. >JlM RS A* ET___ V [v Hi. n%* r_. * r -w ~ * r fc--L * fv ^ SI* tt* r - * *# ir pr -- 30* r m* K. ? _ t___ ' T* V V H' V tt* v V V V 1* 1* 1* I* 1* 1* 1* l'V IA' i A* 'A' t'*# >**' >V ffer Cemmprcip) 4 Industrial Application* 1 to 9 w^wi temp. te 35 re 100 te ns 9g. M 147 f 33C 9 te 400 F 1C7 9 3SC t M 9 Ml K IT *T* Ml r ST IT* Ml 1 IT 24 CO 5 103 1 2C C>.5 105 t 32 2.2 '04 1 3C C3 6 107 1 30 i C4 7 '04 > V 37 j C4 c 1 1 1 I'V SC i C6 C 137 > V 4 C ; 6 9 ll? IV 33 cco J 100 3C CC 7 t 102 42 C9 5 1 105 46 91 0 i 132 42 4 0 10C I ** * 109 1 37 IS 1 109 1 47 C5 5 1 10 1 49 1 CC 3 i 57 ! CCC 1 47 9 0 : CO i 19 2 ( 107 112 11 11 1V V 'V iv 33 91.0 I 105 31 91.5 | 107 76 77 91 0 93.0 \ 1U0J7 73 7 2 1 1 1* 0 *l >04 ia* 6 I 19 6 i 1 12 C7 i 72 3 1 104 IV 2* 96 105 115 i 109 *7 9 I 105 < 19 104 101 i 92.6 1 105 2' 106 94 5 \ 103 105 C9 1 >05 >'*' 110 92.C j <04 2' 1 17 94 5 ! 103 1 10 C9.5 105 I '* 122 ' 2 9 1 105 2* 122 9.5 105 I A- 136 i 93.0 105 2* 140 9.2 104 i A' 143 i 93.2 I '04 2' 1 40 90.0 104 1 '* 150 i 73,3 I '35 7* 133 94 4 > 105 l 3C 94 6 1 103 160 94 6 1 103 170 94 C j 106 150 90.0 131 917 144 72.2 140 92 3 ICO 92.4 210 92 5 26C 1 92.5 2(3 92J 104 'A' 165 93 4 i '34 2' 17C 94 C i 105 100 2' 141 | 93 9 99 2V 160 95 C 1 99 9C 2 170 ! 94 1 1 '00 2 V ICC 95 6 101 9C 2' 190 ! 94 3 '01 2 V 205 95.5 i 102 9C :* 9C 2' 99 2' 99 2' 207 | 94 4 i 100 2 V 227 95 C 1 102 240 94 5 ; 101 2 V 266 95 C i 102 310 94 5 1 101 2V 325 94.0 ! 102 327 94.5 ( tot. 2V 344 6.4 1 102 i pipe insulation Mr 25 m 247 9 tC7 F Ml ( 33 ,73-6 V . 35 7y: V** 40 i 77 C '* 47 ;7C.5 '** 57 |79 0 V 63 !C0 3 V 74 ICO.5 V 92 I C0-6 'A' 109 lCl.4 131 I Cl.4 V 154 '1.7 V 175 1117 ** 195 lci.1 A* 20C III.I V V 240 244 l! ll'.l V 1 r 1 2C2 r Cl C 1C2 III 9 200 C9 5 232 C9 2 }f 1* 'A* tv 254 .192 310 C9 2 26C 92.5 215 72 3 IT ' *6 7 ' '9 i 20 '7' ' 77 ' 23 124 125 125 125 123 125 125 126 126 127 106 106 '07 107 191 77 99 pmfcient |Q 9 4 Utility Uses *30 9 mH( temp * >00 te CCC F -tt lie 9 tT* Ml 1 IT T* % 36 ' 6 42 ; & 4 C 13 5 57 4 6 i.* ^ 1 63 15 0 ' ' 9 V 74 C5 5 1 23 13 C4 i % ** 6 5 ' 22 tt* V r t* 122 C6 1 >4C C7 0 137 C9 9 >55 < C99 1 23 ' 24 '6 1 * 144 90 6 i ' 5 1* 1C2 90 5 ' ' 5 l# 201 < 90.4 1 '6 t# 20C 90 9 115 1 # 229 9 2 1 ' 3 274 9 C j 276 90 4 342 90 2 `1 ' '9 1 * 374 90 2 ! ; I . 444 90.2 390 93 0 * 37 .j IK* 440 93.0 1 37 l* m a cold and dual--Temperature piping--minus 120 F. to 200 F. 0% rptotWa Hvmidtty p*p# Mirfwe tempervtvre 40 9 AS 9 09 --00 9 -44i 9 -tN 9 31 1 cwMIHm ppe sites H'. - K--' -e * it* IH '* 11 *4 dtflietf Vt#f T* MO 1'* 3.C I'/S 4 3 ' '* 47 !'* 3 2 IV* 6 0 ' * SB 7: 7S 9\ '0 6 1 2.4 13 1 15 1 16 22* 17 14 2'* i 17 25* M9 21* .21 2'* l 34 225** 26 30 2'*2 V* 37 40 i* 3.5 3.2 '!* 3.5 IV* 3.9 i'*tV* 4.5 4.9 1 V* | 5.4 V* j 4.0 1 63 1 4.4 71 79 92 127 Ice ecttt T* MO irt : 5 1 vs | 5 21'* j! 6 4 27 2 '7 22* 22'/** >2 U 221'** 1 ; IS *4 2211** 17 19 21*2 '* 21 23 2'* 2V* 2251 2V* 31 3 32 I 32 45 t```** 3.1 3.5 115** 3.C 42 15* 50 1'* 5 4 2'5* 4.1 S.t 4B 7.4 2 C.5 2'* 6 2* 9 4 2 V* I 1.3 tv MO 2'A 1 6 2A ' 6 22 AA |I 7 7 3 3 1i '.00 3 i 2 3'* l 13 33'** 31* iI ]1?7 f| 20 21 23 25 29 31 4`* 33 4'* 40 *1*. <7 sppcipl ferine IT MO 37 37 3C 39 3A C 3A ' : 31* 1*33 <64'* 4`* 17 *`A 4`A 20 45* 22 4`* 23 24 2C 231C 5 5'* II 3373 5* 43 5'* 51 nfeif. ei puts IT HO 3A 7 3A 3A 9 3 A 11 3 A 10 4 1l 12 4'* 13 4'* 4'* 1175 1C 19 551* ! \\ 35* 24 3V* 25 5'* 24 4 27 2392 35 41 6'* 4C 6'* 54 IfMiP prppss IT MO 4 10 A 10 4'* 11 A 12 3 12 3 13 S'* 3 V% 11 19 4'** 21 32 45* 24 7 23 2271 775* 30 31 32 34 3C 44 53 40 Uf wpter IT 6W 1' \i T* ' i1 1 ! l9 'A I V* >V* i '* i<63 l**!* 11 20 l'* 21 IV* 24 l1*1* 24 29 2251 I 32 I 35 3C 54 41 miw e r IJ% raloffvp Humidity 09 ferfen IT MO mIA |I 7 IA j IA ! f 2 2 10 u 13 22 * 15 14 2'* ll 2'* 20 2'* 25* 2212 2 V* ! 25 2'* 21 221`** 30 33 2* 37 21* 41 2'* 45 25* 54 25* ! 44 25* 72 -00 9 ________ spptMri ferine IT MO 2C 2 I9 2 | 10 2 1" 2 A 11 Vh 12 2`* i 2'* 15 21* 17 :v* 20 222t i; 2174 231f 34 II 4t 44 3 V* 4J 3* S3 3355** 73 --40 9 M*rlf prpms IT MO 2A ' 2'* 10 3 A -3 2 A ; 3 '2 34 33* 3`A 3'* 3V* 31* 35* 35* 3* I* <4 !9 20 27 30 32 34 34 37 40 45 49 21 41 79 ^ ^ ^ 17 001 2241 pipe insulations -- 2D f to 450 F eu* W it 400 9 330 9 Ml I ST 41 ' 2 6 55 3.6 44 140 79 4.5 i ?: 1 t2 124 12' III 71 M7 ! 9.7 103 ! 909 1 i ISO 11* 1 21 12* . *0.3 . 134 : *0 3 132 ! *0.3 204 *0.5 122 124 127 124 *1.1 123 0.0 ' 125 1.0 12* 774 *1.* 1 24 2?0 9\7 2*2 3.2 214 f 3 3 3W < 3.5 174 11* 1 14 UJ 330 *3 3 404 *3.3 320 3 5 570 : *3.3 1 13 11* 1 '6 H7 t* ZS nil. * 3*7 * Fr t*w*r Induirrl** 1*0 9 ixr^in t*m*. 1----------- i t* 100 e*'e- i m in r 117 9 1 m9 tT* a.' V V Ml 1 ST ' tT* 30 '3 6 6 ; Vi* 35 77 3 ' ' 7 1 Vi1 40 77 i ii 1 Vi' 47 7 5 20 Vi* Ml I 4 71 0 50 79 l 57 79 9 61 ICQ ST ;7 1 21 11 132 '/a* Vi' w V 57 63 74 *2 79 0 0 3 0 5 0.6 12! ! 122 123 1 24 1 VS* 79 < 11.1 133 VVi' ' ` 97 10 7 i 1 9 1 . 12.2 : 133 13* Vi' 129 12.5 137 w 0* 1.6 - 125 1 Vi' ' 159 2 9 131 w 131 1.7 125 i Vi* 196 3.0 139 iw l 54 1.7 125 1 Vi' 233 3.1 ' l 40 A* 175 > 125 V 231 . 13 1 141 V 1*3 It VS' 201 < VSr 240 HI !V 246 I I 25 125 ! 26 i 26 ' !V VS* W Vi 215 312 360 370 13 2 13 3 3 3 13 4 141 142 1 43 ' 44 w 213 1 127 410 3 4 1 45 1 * 112 9 0 106 ' 274 9 1 l 7 1 * 700 9 5 '06 1 1 * 296 90 4 HI r 332 9.2 107 1 * 342 90 7 1 19 54 9 2 '07 1 # 374 90 2 : ' i * 310 9 2 101 1 ' 464 *0.2 122 ' V 261 92.5 99 "h* 390 93 0 '07 1 V 215 92.5 *9 ' Vi' 440 93.0 107 * MlSlMVM tfciftflMs HODlt O*0v* 12 195 it 1*. 0*4*9 24* IPS it P/| t 335 t< m 400 f 330 9 tT* Ml ( 'V 55 0 0 63 SI 2 V 75 4 Vi' 2 9 Vi' tl 3 7 Vi' ill 13 5 Vi' 131 3 9 65 4 3 204 4 5 Vi' 250 4 5 Vi' 2*1 *45 '/S' 330 4 5 Vi' 3*1 VS' 40* Vi' 452 Vi' 4*1 `/S' 530 1 * 3*4 T* ' III 1 * 441 4 5 Ml 4 1 4.9 4 9 *0 4 *1.0 90S 1 * 490 90 ' * 540 90.| 'Vi' 520 93.3 ' Vi' 370 93.5 ST 51 140 143 145 145 145 149 151 152 1 54 155 IS* 157 151 159 1 59 1 60 129 129 130 131 132 n* 1 17 -- 130 r 40 r ; cfcm*4 MO tT 3 11 * 3 12 - \k 3 13 ! v* 3 15 3Vi 14 3VS 1* Vi Vi 3 Vi 17 V. 3 VS 20 ' 4 21 4 24 : 27 4 30 *> ; 30 33 *vi 3* 1 31 1 40 ' 41 3 45 5 ! 50 ' 1 55 5 i *3 1 1 j'* 70 1 _ i'/j 1 1 t m... i - -- Vi V. 1 Vi y. V* yy.. V* Vi 1 1 1 1 MO 54 6.2 7; 94 11 3 ' 2.6 2 14 1 21 24 25 27 32 32 34 41 44 52 57 70 12 *1 4.0 4.4 4 5.2 6.3 7.2 0 91 1.5 13.3 12.1 1 1.7 13.9 16.1 0*/. relative humility as f 0 * --30 * k* Nftr tT MO IT MO * *1 % 7 'Vi Vi ' Vi 9 'A 9 * ' Vi , 10 10 i Vi 12 1134 'i ' Vi 'Vi 15 - 1* 16 ' Vi l 20 'Vi 23 24 2 21 2 21 23 29 2 'Vi 24 2 24 27 '/1 2* 2 IV* 29 1 2 30 31 'VS 32 , 2 . 14 'Vi i3 ' 41 "/V 39 | 2 1 45 'Vi 43 ( 2 1 50 'Vi 4| 2 t w 55 i 2 'Vi >VS 70 i 2 77 j 2 55 *4 79 i * 4.3 I V. 4.* 1 yy.. 3.3 j 31 1 1 i V, 49 7.1 y4 II 1 i.o : t 1 n.i i , 1 10.6 < i 1 14.0 1 10.9 1 13.2 1 17.6 f ele< brtiM IT MO IV* * ' Vi 10 'Vi 1 'Vi 12 2 12 2 13 2 1* 2 17 2 20 2 24 2 27 2 30 2 33 2 33 2 3* 2 41 2VS 3* 2 Vi 44 2Vi 4* 2Vi 54 2 Vi *0 2* 70 2 Vi 3 2 Vi 97 --*0 * re*r*W 1--lB VT MO IV* 1 2 10 21 2 14 2 13 2 1* 2 Vi 17 2Vi U 2 Vi 2) 2 Vi 25 2 Vi 21 2 Vi 31 2 VS 34 2Vi 17 2 Vi 41 3 II 3 41 3 4* 3 50 3 5* 3 *2 3 72 3 3 * -190 * prwtu KT MO 2 13 2 Vi 1 3 2 Vi 1 4 2 Vi 1* 2 Vi 1 2 Vi 19 3 20 3 21 3 25 3 29 3 33 3 3* 3 VS 3* 2 Vi 40 2 Vi 43 2 Vi 43 2 Vi 4ft 2 Vi 53 2 Vi 5 3 Vi ** 4 *5 4 77 4 9J 4 104 table kay tT--'tcommanflid thickn*t Ml--*eor on |tu hr fineel <ot I--^^cicy % o< bare o ot ''tot on itoooed ST---hw^oc* 'tmot'otw^t . . irtiuiot^o iwf^oct f Importance of calculating economic thickness Selection of insulation thicknesses for any =r cific application should take into cor.sioera:. at least the following criteria. 1. Cost of insulation applied 2. Coat of heat energy 3. Cost of capital 4. Cost of depreciation--plant and insula tion 5. Capital investment in heat production, equipment 6. Temperature differential 7. Size of the pipe or surface 8. Conductivity of insulation True economic thickneaa car. now be calculate quickly and easily bv following the instructin' in the Fiberglas DIVIDEND ENGINEERIN' "Economic Thickness Manual" available frc your local Fiberglas branch office. thicknesses for specific end use The thicknesses shown here are generaiizi recommendations broken down by end use. C all but the smallest projects, it will pay to u: the Dividend Engineering "Economic Thicness Manual" to calculate actual econorr. thickness. In general, surface temperatures for the 3 sc of recommendations for heated piping we kept below values of 110 F for commercia 130 F for power A utility and 160 F for pro. ess. Surface temperature, however, should r.be the only criterion for selection of thicknei at outlined above. For cold piping, proper thickness is require for efficient operation and to prevent conder sation on the insulation surface. Specifically 1. Designed thickness should be specified t result in a surface temperature above th Dew-Point temperature of the surroundin, air. Generally thia ia equal to or greate than the "economical thickness" despite th relatively higher coat of cold Btu's. 2. Insulation thieknesa should be based c ambient air conditions and correspondin. permisaible temperature differences. Permissible temp, dre (between ambient a: Ambient Air Condition and insulation surface 90 F at 907c R.H. 90 F at 857e R.H. 90 F at 80fc R.H. 3F 5F 7F 3. Piping operating down to freezing terr peratures or at fluctuating hot and cold tem peratures should be insulated for maximur performance during the coolest part of th cold cycle. See page 12 for service water A low pre? sure steam lines--LOW PRESSURE PIPI INSULATION. 'MiAimwm th>tk#* iMH 12* IPS i 1*. aM** 24* IPS la P/j* 7 001 2242 OWENS-CORNING FIBERGLAS CORF thickness standards for Fiberglas Heavy Density Sectional pipe insulations Iran pip* slier capper robing single layer . multiple layer I !&* i w r ** i u-' g* fw t <t*0 l*73 ** laae ms 1 n WJ z* P 4* w * *4*oo '4-500 SdOOO [JJ43 *4499 rr -a* IP>* 7423 4431 *425 0750 1750 12750 r:**e*-' A M*00 Mr . 14*00 *T-000 If'1 asuooo 'if 9*00 kr am tai* pMO as' Ixooo as- ixooo fA W9b*b -as- sr sr xooo 17400 lf 'if 'Ob' 1' Sr (*r K&000 1**00 aiwfi M*O0 0*00 13.000 1 :'V 4Mb*l VI' S' H* : **' isv W|a* ' * a^ r I 4*' ,314' ____ 0.0. --tiff 0.0. MtMl 2.3* 2.53 I 1 j 1 2.15 73 73 77 2.92 2.93 MS 2.11 3.30 i.ta 1.13 1.02 .91 1.09 121 3.49 197 447 497 .11 .00 0 .*0 74 3.50 4 00 4 Id 5 00 5.5* .92 1 05 i.i* 1.06 1.03 153 . *.00 73 7.94 1 113 75 6*2 4.42 7.42 7.43 1.62 1.31 1.06 1.31 1.03 1.00 9 60 1.00 8 1075 I 06 J 1175 1.06 i 1275 1.00 * 14.00 1.12 15 00 M2 16.00 1.00 1700 1.00 10.00 1.00 1 19.00 1.00 20.00 1.00 21.00 1.00 *0 22.00 1.00 e 23.00 1.00 i 24.00 1.00 25.00 1.00 _ 26.00 1.00 IVh' O.O. tewf 3.50 1.50 hHb 2* 0.0. 4.00 4 00 4.50 5.00 5.00 5.5* 5.56 6 62 6.62 7.62 7 62 9.62 9 62 1075 1175 1275 1100 15.00 16.00 17.00 11.00 iroo 20.00 21.00 22.00 23.00 34.00 25.00 26.00 27.00 23.00 29.00 30.00 31.00 32.00 33.00 34.00 35.00 36.00 1.51 1 4* 59 1 *7 1.53 1.59 1.34 36 '.31 1.5* 1.31 1.33 i.SO 1.56 1.56 1 56 1.62 1.62 ' 62 1.30 1.50 1.50 ' 30 1.50 1.30 1.50 1.50 1.50 1.50 1.50 1.50 1.50 1.50 1.30 1.30 1.50 1.50 1-50 1.50 5.00 5.00 5.56 5.56 3.3* 6.42 6.62 762 7.62 a.42 1.63 962 1075 t 1.75 I 27S 14 00 15.00 16.00 70S 11.00 19.00 20.00 21.00 22.00 33.00 24.00 25.00 26.00 27.00 2B.00 29.00 30.00 31 00 32.00 33.00 34.00 35.00 36.00 37 00 2.01 1.91 2 12 l.*3 1.13 2.12 1 II 2.04 Ml 2.06 Ml 2.03 2.06 2.06 2.36 2.19 J.I3 2.12 2.12 2.00 2.00 2.00 200 2.00 2.00 2.00 2.00 2.00 2.00 2.00 2.00 3 00 200 2.00 2.00 2.00 2.00 2.00 2.00 I'V O.O. MMI 1275 MOO 13.00 1*00 17.00 u.oo 19.00 20.00 21.00 22.00 23.00 24.00 25.00 26.00 27 00 20.00 29 00 30.00 31.00 32.00 33.00 3*. 00 33.00 34.00 37.00 30.00 2.56 269 269 2.62 2.62 262 2.50 2.50 2.30 3.30 2-50 2.30 2.50 2.30 2.50 2.30 2.50 2.30 2.30 2.50 2.50 2.50 2.30 2.30 2*0 2.30 2.09 2.19 2.31 2.53 2.11 3.25 3 44 3.97 4 47 7S 72 72 70 72 .01 .** 67 67 2.13 2.aa 2.SS 2.SS 2.IS 3.50 3.50 4.JA 4.50 5 36 3.36 4 *1 7.45 4*3 1.19 1.13 1.0* 1.00 .91 3.50 4.00 4.00 4.00 4.00 1.50 1.49 1.43 1.34 1.40 1.0* .94 1.19 .94 1.21 4.50 4.50 5.56 5.56 6*3 1.5* 1 60 172 1 47 173 97 | *41 1.50 1.15 I 7.45 ' 1.73 1.25 | 1.53 173 1-23 ' *.41 175 N***t islShfMiMtzMvieilefritiii'*c/*rei*lra*Vm(i<1n.'i*ifan(der*OHia.t*DMtTl.liO)a|vMrCt.agoiMfaryt.ttl*ff Setenr 45 16. iecketi eveilebie n Hrrin* . i 2* IK 2 Vi* CT. design data This table presents the actual thicknesses in which Fiberglas Low Temperature Pipe Insulation is available and should be used in the selection of thicknesses to fit pipe sizes to be insulated and the choice of nesting thicknesses for multiple layers. For design conditions other than indoor work consult the "Fiberglas Performance Data Book" (4-IN-2002) for the necessary applicable engineering data. KIT TO TASLI tiempl* 14* nan. pip* iii*l * b2 f 0.0. f * f uo r * ? r - P \ 1H* 1 050 1.315 1 4*0 1 *00 ti | S' i 2.375 S"-- nominal Flbarglai thictittti svvl 2175 I.T.--total Fibergiet thickness S' 1 1500 T.O.D.--total eutiida diameter Italia--nominal thickntss of each 4 000 layer h . *' 4 500 r t \ 5.000 r 5-1*2 i r *.*25 > i - V Z 423 i r { L*25 | t- 9^25 10750 rI > 11750 r TM" 14' 12750 14.000 1 15.000 haw t* arbor t 14* ir 16.000 17-000 Multiple-layer combinations apecined in table are sup plied nested in the same car ton when ordered as multiple layer thickness, i.e. 10x4 M.L. Should other combinations be desired, insulation must be ordered by individual layers capper robing Multiple layer insulation on copper tubing is available but must be ordered and priced separately. Choose suitable layers by lo cating iron pipe actual diam eter which is equal to outside diameter of copper tubing insulation. Order combina tion by listing pipe size and thickness. For Example: 1H "x3" composed of l*i* O.D. x l's" (CT) and 4' x V.im (IPS). IS* : ir *** *1* - as' ;,r r aa* : a#' IT' M tr fj-O' 10.000 19.000 i 20.000 21.000 - 22.000 r 23.000 24.000 23.000 26.000 27000 21.000 29 000 30*00 f ^ ^ " 8 37 001 224i it s the low Mint cot'i1. pipe insulations from minus 1 20 to 450 F . . combinations of singlo layors Nominal flberflai Htkfcnau jft W 3W' I' IV T.O.O. 9.T. T O O. i 9.T. T.O.O. M. T.O.O. , 9.T. T.O.O. 0.00 I.OO >4*1 3 >4*1 1.07 I 3.00 i >4*1:214,1 3.30 >V>. 3.3A 3.33 3.30 %i. >4^4 3.39 3*70 ' 0.03 1 0.03 | 3.30 7.03 >-fr*3. 4*4*1 >$ 3.30 7.03 *6*3 4V4 3.10 3.03 w v3 3.70 3.03 3.13 1.30 >*1/3*1 3.03 0.03 It), 3*>>/fr 3.13 7.03 1 1*114.4*114 I 3.11*32 3*1 34.03 0.13 0.03 lil. 5.3 1.03 3.30 ' 3.30 0.03 j >4> 3 4*> 3.03 0.03 I 3.03 7.0i3 >4i 3i4 I 11/4*114 3.30 0.03 3.80 7.00 I ?4*i. 34*14 14*14. *4';4` 3.08 i 8.03 <4*3. 5*>>4 3.80 0.03 >4*3, 5*14 3.08 0.03 >4.3 5.3 3.30 0.03 >4*3 )3 3.13 3*1 4*10.03 | 3.03 7.03 3>. 4*>4 3.13 3.08 3*14, J* 14 3.02*32. 6*104.03 0.10 10.73 2*3, 6*3 3.37 7.03 | 3.37 7.03 , 3.87 3.03 i 3.00 10.73 0.11 1 10.73 3 4t, 44*1 j 3 4* 44*14 34*14 A*>4 j 3 4*7. 4*> 4 3 4*7, 6*2 13* 7.03 , 3.30 8.03 3.00 0.03 3.03 10.73 3.37 11.78 3*1 5*1 3*1. 5*>4 3>4, d*> 4 i 3*3.7*14 , 3*3,7*3 3.31 3 4* 1 3.03 6*> 3.004 ! 3.03 < 6*1 3.31 0.03 34*1,6*14 3.30 0.03 4*1 6*1 4 3.31 0.03 34^4 o*j 4 3.13 10.73 6*> 4 7*14 3.37 11.73! 34*2,7*14 I 3.03 11.73, 4*2 8*14 . i 0.13 11.73 34*3. 7.3 3.37 13^3 4*2 1*3 3.30 0.00 '4 r 7> 3.01 0.40 5*1 7.1 I too 6*1. 11*10.73 1I 3.37 10.73 3.37 10.78 44*?, 7*>4 44*14 7*1 4 3.30 10.73 3.00 11.73; 5*>, 7*14 J*i4-4 I 3.30 11.73 3.00 13.73 I 6*1.1*14 1 6*14, 9,1 4 j 3.37 11.78 44*14 7*3 3.30 13.73 A*> 4 <3 3.30 10.00 6>4, 6*3 | 0.33 13.71 44*> 1*3 4.10 14.8 5.3 9*3 4.10 13.00 6*3. 10*3 3.08 11.78 , 3.38 11.78 3.10 14.00 3.00 18.00 0.10 7*1, 9*1 7*1, 9*1 4 7*14,10*14 ; 7*14, 10*3 j 7*3. 11.3 ] 3.00 13.73 3.03 14.00 3.10 13.00 3.10 10.00 o.to t7M 1*1 10*1 3*1 10* >4 1*11>fr 1*1 4 1*14,11*3 1 1.2 12*2 3.18 10.0 9*1. 11*1 3.00 18.0 o*i, 11*14 3.10 10.00 3.00 1730 1 4.13 1830 9*14,13*14 9*14, 13*3 | 9*7. 14*2 3.13 18.0 ror '2*1 3.03 10.00 3.13 17.00 '0*1 '3*14 ; 10*14, 16*1 4 3.00 13.00 , 1Q*>4, 16*3 1 4.13 >0*2. 1030 >5*2 3.13 10.0 *1. 16*1 3.03 17.00 3.13 18.00 3.03 19.00 4.13 ni 7 6j* 1 4 11*14,15* >4 1U14, 15*3 I 11*2. 16*3 3.13 17.0 >2*1 >5*1 3.03 13.00 3.13 19.00 3.03 30.00 6.13 SIM >2*1 13*14 1 13*14,16.14 ' 12*14.16*3 | >2*2. 17.2 1! 3.0>06*r 1 3.00 )6t> ' 3.>360*1. 10.00 16*> 4 3.00 30.00 3.30 31.00 OM 33M 16*14, 17*14 ' 16*14,17*3 I 14,7. 13*2 3.00 10.00 '5*> > 7, > 3.00 10.00 3.30 30.00 ?5*. -?yL'.'4. 3.30 31.00 3.00 31M 13*14.11*14 3M 33.00 3.30 33M 4M 33.00 15*14,16*3 ; >5*2. >9*2 3.03 13.00 OM SOM 0`V T.0.8. 4.30 0.03 3>y^ w; 0.33 : 10.73 1/4*114 J4? 0.73 10.73 >i in^ 6? 0.30 10.73 ?4? 3*>4 4*3 0.03 10.73 >4*>, 3^>4 6*3 0.00 11.73 2*1, 4*?4. 7*3 0.00 ( MJI 3 4*1 44*14.7*3 U3 13.73 3*3. 3*3 4 0.37 13.73 34*3, 7*34 0.73 1 4*3 1*34 0.30 1041 44*3, 0*3 4 0.73 1130 5*3 0*34 4.00 6*2. 10*3 4 0.09 > 1730 7*2 71*3 4 0.00 1130 0*2. 12*2 4 OM 1930 9*7 16*2 4 0.03 >0*2, 15*2 4 0.03 SIM 11*2. 16*24 SIM 12*2 17*2 4 4.30 33M 14*2. 13*34 4.30 30M >5*2. 16*24 4*30 SIM 1.00 21.00 17.1 '9,1 | 1.00 21.00' 'l.i 20.1 i l.M 11.00 17.1. 14.114 2.10 11.00 '1.1 20.114 1.00 21.00 '*.1.11,1 1 i.oo i4.oo; 10.1,12,1 \ l.M 14.00 li). 2JT(4 i i.to use, 10.1.11.44 1 3.00 33.00 j 3.30 30.00 21*123*1 21*1.23*14 1.00 14.00 l.M 17.00 11.1 l,.l 12.1 22.1 >4 l.M 11.00 22.125.44 1 3.30 SOM ' 26*1.26*11.4 i t ------------ 1-----------1 --J-- ------------!------------ 1.00 11.00 17.IJ4, 20.1(4 | 1.00 14.00 11,1(4,21.1(4 | 1.00 11.00 '4,1(4,22,1(4 ! i.oo >** 10.1 !4.1J.H4 1 1.00 17.00 : 21.44,12.44 1 1.00 11.00' 22.44.25.14 li 1.00 14.00 11.1(4, 24.44 !l 1.00 M.00 14,1(4.17.44 1.00 11.00 25.44. 21*44 1 i.oo ii.oo 24.44,2*44i 1.00 11.00 27.44,10.1 '4 i 1.00 M.00 74,44. JI,"4 ' 1.00 11.00 74,44.12,44 1 1.00 11.00! 10,1 (i 21,1 (4 | 1.10 14.00 17.114, 70.1 1 1.M 11.00; I4.M4. J'.J | 1.10 11.00! '*' (4,27,2 1 i.m *o 10.44,21.1 l.M ' 11.00 2>,44.22 l.M 14.00; 22,1(4 25.2 | 1-M 10.00 21.44. 2**2 S.M ,1.00 12.44,27.2 1.M 11.00 25,1(4. 21.2 1 i.m ii.oo 24,1(4.74.2 ' 1.M 14.00 17.44.20,2 l.M 11.00 21,44.11,7 1.M 14.00 74,44. 22,2 l.M 1 17.00 10,1(4.11,2 1M KM 17,1.21,2 4*0 14.00 tl.2 22.1 1.00 17.00 14,7. 11.1 OM 33M 30*3.36*3 OM 30M 31*3.35*3 4.00 M.00 22.2.24.2 OM 31M 73*2.77,2 4.M 11*0 2*,2.2I,2 4*0 11*0 25,2.74.2 4.oo i4.oe 24.2, 20.7 OM 33M 33*3.31*3 ISM 14.00 21.2 12.2 OM 87M 39*3.33*3 > i ; 1 I j i i | ; > ; * i ; 4.M 11.00 17.2,21.214 4.10 17.00 11.2.22.114 4.M tiM 14.271,7(4 O.JO 30M 30*3.36*314 4.30 3AM 31*3.35*34 4.M 11*0 22.2,24.2(4 4.30 33M 35*3.27*2 H l.M 11*4 2,.2 21.2'4 4.M MOO 75.7.7*,2'4 4.m ii^o 74,2 10,2(4 6.30 30M 37*3. 31*31* l.M 11*4 71,217.7(4 0.30 i 33M 39*3.33*3^ T.O.O. 4.0t 10.73 4 *3 4.33 10.73 *4'4 3S'4 *? 3i.,3i3'4 A?4 171.773 ;1 8.00 11.73 | >4*>4 34*74 7,3 I 0.03 11.73 14*14 44*14 7,; 3.10 13.73 2*14, 5*14 4*7 0.00 . 13.73 214*114 5*14 t*2 3.33 1030 3*> 4 d>4. 93 3.00 14.00 34*14, 6*1 4 9*3 8.33 1130 4>4 7*14 10*3 30 II 44*14, 7*14, 10*3 3.33 10.00 5*14, 0*14, 11*3 0.19 1733 6*14, *14 17*3 3.10 1 7*3 4,13*3 4 3.10 1030 1*34 16*7 4 8.19 9*74,13*24 8.13 SIM 10*3 4.16*3 4 3.13 1 SIM 11*24,17*24 3.13 33.00 13*3 4,13*3 4 3M SOM >6*34 19*2 4 3.00 33M 15*3 4 30*3 4 30M OM STM 17*2^,22*2^ MO 11*1 11.7(4.21.7(4 i*e ; n*o 14,2 (4. 74,2(4 4.00 MM 20,2(4.21,7(4 1*0 i 11*0 71,2(4 24,2(4 1*0 . 11.00 77,7(4. 27,2(4 1*0 I 11*0 21,2(4.21*2(4 1*0 J 14*0 24,2(4. 74,2(4 1*0 I 11*0 25,7(4 10,7(4 1*0 ] moo 24,7(4.11,1(4 1*0 1 17*0 27,7(4.12,2(4 8M i 33M 20*2'4 33*3 H 1 i 1 ! ; 1 ( : IT) 1 3.7 5 3.03 0.30 14.00 >*2 2*2 0.17 *4*3 0.03 1 4*3 i3 0.31 2*7 4*2 0.00 ?4*? 6*2 4.33 3*2 U7 0.00 34*2 72 4.33 17.00 4*3. 1*2 2.2 17.00 44*3 0*3 2*2 4.13 18.00 5*3 7*3 4*2 0.10 10.00 6*3. >0*2 5*2 0.10 10.00 7*2. It, J 6*2 0.10 11.00 9*7 13*3 7,2 0.19 11.00 9*2. 14*3 '6*2 0.13 13.00 10*2.15*3. '9.2 0.13 36.00 11*2. 16*2 2C.2 0.13 13.00 12*2.17,2 2'*2 36,00 U3.11*2 22*2 17.00 >5*2. >9.2 23*2 OM 39.00 17,2 2U2 25*; AM 30.00 >6*3 33*3 26*2 AM 31.00 19*3, 33*3 2'*; AM 33.00 30*3 34*3 28*2 AM 33.00 21*2. 35*3 29,2 AM 34.00 22*2 36*3 001 2244 OWENS-CORN1NO FIBIROLAS CORP Fiberglas specifications sectional pipe insulation haatad lines to 4 SO F applicable specifications HH-I-552 intulolien Pip1* 2Coloring, Thonwol. end Iniwioter ftlanfcet, Thfmol, Pipe Covoring Type I, Clou A ond I HH-I-562 insulation. Thermal. Mintrol Wool, Hock or Soord and Pipe Iniuloiion (Molded Typo) Typo II, Goss 2 and 3 ASTM Specification 2S1-51T 1. Insulating materials--All heated pipes shall be insulated to the thickness noted on drawings or as shown on pages 6 and 7 with Fibergias Pipe Insulation as manufactured by Owens-Cormng Fiberglas Corporation. 2. Application--All Pipe Insulation shall be applied over dean, dry surfaces, butting adjoining sections firmly together and adhered canvas, when furnished, smoothly over joints. Longitudinal and circumferential joints need not be pointed with finishing cement. for hot and cold lines 450 F to minus 120 F Insulation on pines over 12" diameter shall be wre i banded in place on no greater than 12'' centers, '.'.'here : -ble layer insulation is applied, the first layer shall be in place without jacket; the second layer shall be art with all joints staggered. All flanges, valves and fittings shall be insulated th. Fiberglas molded fitting insulation or fabricated mitered la ments of pipe insulation equal in thickness to the msu.at n on the adjoining pipe. Fittings on pipe sizes 3" and smaller may be insulated with O-C 110 Insulating Cement of euual thickness. 3. Surface finish--Indoor piping not subject to abrasion or mechanical abuse, requires no additional finish other than re factory furnished canvas. Band may be used if specified. Piping located outdoors shall be finished with appro.ed weather resistant corrugated aluminum jacketing with ail Icr.- chiliad watar and dual-tamp piping 35 f to 200 F applicable specification HH-I-562 Iniulotien, Thermal. Mineral Waal, Slack or Soord and Pipe Intulation (Molded typo) Type II, Clou 2 end 3 1. Insulating materials--All cold pipes shall be insulated to the thickness noted on drawings or as listed in the table on pages 6 and 7 with Fiberglas White FRJ Jacketed Pipe Insulation as manufactured by Owens-Corning Fiberglas Cor poration. 2. Application--Fiberglaa White FRJ Pipe Insulation shall be applied over clean dry surfaces with the pipe at approxi mately room temperature. Adjoining sections shall be butted firmly together and the longitudinal seam of the vapor bar rier jacket shall be sealed with a white fire-resistant vapor barrier lap adhesive (Foster 81-99 or equal). End joints shall be sealed with the lap adhesive. If multiple layer con struction is used joints need not be staggered. Ends of pipe insulation shall be sealed off with fire-resist ant maatic (such as Foster 60-30 N or equal) at all flanges, valves and fittings and at intervals of not more than 21 feet on continuous runs of pipe. All flanges, valves and fittings shall be insulated with molded or fabricated insulation of a thickness equal to that of the insulation of the adjoining pipe, securely fastened m place. When in direct contact with the pipe, damp hangers shall be iniulated separately in the same manner as fittings. The insulation shall be applied upward along the vertical har.g-r rod to a point not less than 6" or 4 times the pipe insulation thickness and sealed off. Ice water and special process 34 F. to minus 130 F. applicable specification HH-I-562 Intulation, Tharmol, Mineral Wool, Slock of Soord ond Pipe Intulation (Moldod typo) Typo tl, Clott tend 3 1. Insulating materials--All cold pipes shall be insulated to the thickness noted on drawings or in accordance with the manufacturer's thickness recommendations with Fiberglas FRJ Pipe Insulation as manufactured by Owens-Corning Fiberglas Corporation. 2. Application--Fiberglas FRJ Pipe Insulation shall be ap plied over clean dry surfaces with the pipe at approximately room temperature. For complete application, rust proofing is necessary. Adjoining sections shall be butted firmly together and the longitudinal seam of the vapor barrier jacket shall be sealed with Foster 60-30 N adhesive, or equal. Staples are not recommended for holding the laps shut. End joints shall be sealed with 4-inch factory-furnished vapor barrier strips applied with Foster 60-30 N, or equal. In multiple layer construction all joints shall be staggered. Ends of pipe insulation shall be sealed off with Foster 6030 K, or equal and at intervals of not more than 21 feet on continuous runs of pipe. All flanges, valves and fittings shall be insulated with ' molded or fabricated insulation of a thickness equal to that of insulation on the adjoining pipe, securely fastened in place. When in direct contact with the pipe, clamp hangers shall be insulated aeparately in the same manner as fittings. The insulation shall be applied upward along the vertical har.ee: g rod to a point not leas than 4 times the pipe insulation thick- J ness from the adjacent pipe finish snd sealed off. Insulation on hangers shall be a minimum of '1: pipe insulation thickness. 3. Surface Finish--Piping located indoors needs no further painting. If painting is specified, s fire-resistive heavy- . bodied PVA coating (color as selected) shall be used. ^ Piping located outdoors shall be finished with embossed nl" aluminum jacket or a layer of 45-lb. roofing felt lapped three inches at all joints with the lap joint in a 4 o'clock position to 37 001 2245 10 it S *h low thet count- The following specihcations are necessarily gen eral in nature. Application proccaurc ana! >uatenal approval is at the discretion and responst- bility ol the design engineer to meet specific ;oo requirements. pipe insulations 450 F to minus 1 20 F gitudinal joint* lapped not lea* than 3' and banded on 12" centers. All circumferential joints may be lapped not less than 3" or be cov ered with not less than 4" wide strips of the aame material securely fastened with bands. Fabricated insulations on flanges, located indoors, other than molded fitting insulation, hall be covered with `i' coat of 0-C Insulat ing Cement. Insulation located indoors shall be further finished with canvas neatly adhered and sized with Foster Lagfas or Arabol 6089-05. All insulation on flanges, valves and fittingi located outdoors shall be covered with Foster HI Mastic or equal, reinforced with an open mesh glass fabric. Mastic shall be applied in two coats of sufficient thickness to give a V4' dry film and shall be troweled neatly over the fitting and lapped over the jacket on the ad jacent pipe. 3. Insulation on flanges, valves and fittings indoors shall be vapor sealed with a positive vapor barrier such as or equal to 0.002" alu minum foil lapped onto the adjoining insula tion. Further finish the fitting with a brush coat of Foster 30-36 followed by an application of 8-oz. canvas and a second coat of seailer. Piping located outdoors shall be finished with embossed .016" aluminum jacket or a layer of 45-lb. roofing felt lapped three inches at all joints with the lap joint in a 4 o'clock position to shed water. The cover ahail be held in place by soft aluminum bands on 12" centers or loops of 16 gauge galvanize^ soft annealed wire spaced on not more than 8-inch centers. Nothing shall be allowed to pierce jacket at any point. Outdoor fittings shall receive a final coat of Foster's Sealfas 30-36 or equal, weatherproof aluminum paint or a trowel coat of asphalt mastic reinforced with glass fabric. abed water. The cover shall be held in place by soft aluminum bands on 12' center* or loops of 16-gauge galvanized soft annealed wire spaced no more than 8-inch centers. Nothing shall be allowed to pierce jacket at any point. Insulation on flanges, valves and fittings shall be vapor sealed with 0.002" aluminum foil wrapped or crinkled in place lapping ad joining jacket at least one inch. Foil shall be finished with an Vi inch layer of a vapor seal adhesive troweled neatly over the fitting with the jacket on the adjacent pipe insulation lapped at least 2' over the mastic. Outdoor finish of these elements shall include a second H inch thick coat of a suitable weather-reaiatant mastic, such as Foster 60-30 N, reinforced with a tight exterior wrapping of open mesh glass fabric troweled well into mastic. fifcGrgl0 $Gcti*nal IfHvIttiatf) with fir* ttt*rkent fcamar Jacket it ia*iok in pi#ct witfc a wfcitt vapar terror fop #dha tiva. Tk aphativa it krwthap ar trawaiaP *a Hit lapt Hit (actat aAp a* Hi* fac- faryWwrrtttJiad af*4 faint taaiar strip*. lanp* ara wppiiaP far piacinf avar af Hi* anp jaint taaiar ttnpt ar Hit cantar af aach taction for hoiking until tha aPhativa tart. NMiifi art Iniuleted with mitered te|menn af Inculetien end vapar sealed with teil and a hrweh ceet at vapar barrier taaiar. rail* tarred with S-ez. canvas and Dniihed with a tecand ceat et tealac. Sre-melded Siting toituietien may abe be mad. Multiple layer applicatieni and itafg jaint cenitnrctien are recemmended te b we thicknewae en lew temperature line*. Meet ( and 9 ter ne.tinf iiiet.1 hnat layer voter lacker Sept mmt he < tally reeled with vaper barrier adhetive ewtdear appikatoent additienal weatherpr big ie reqebad. A fell barrier Suingt euvret a centinuao* At the wddla er trapei. Hansen e wnbrpiipn vapar barrier. The .003' aluminam ebleW b roqelrad la tuppert the mmi fail b crinkled Inte place and cubpaavandy piping. Shield b ta be 13 t. and ' cavered with vapar barrier manic and fiatc thaac the diameter e< the pipe, m ler fabric reinfarcemant. Intulafian at all flffbifs wMh e mbtiawai af 13*. and Kenyen raauire coating eS la the pipe and itrai|ht rum evury 21 feet. 17 001 2246 OWtNS*CORNING F1BIRGIAS CORP. mmm pipe insulation sectional heavy density low pressure for coId water, hot water and low pressure steam lines in the temperature range of SO F to 2SO F sisi QaTL-_'. I Fiberglas Low Pressure Pipe Insulation ia molded, 4 inch thick and designed for use on cold water, hot water or low pressure steam lines. Fibers knit to gether at joints when insulation is applied to give a continuous covering of efficient insulation. High efficency permits the use of " thick covering in stead of 44 * to 1* thick products of less efficient mate rials. The "k" of Low Pressure Pipe Insulation averages 0.24 Btu/(hr) (sq ft) (F/in.) at 75 F mean tem perature. A new, white universal jacket makes it the first all-purpose low pressure pipe insulation in the industry. It is creped to produce a pleasing ap pearance for all low pressure applications without additional finishing. sixsi tree Upw-*' to 12* in diameter cesser nibinf-- to 4 * * outside diameter Insulation ttiickneu--'s "nominal sectlen length--3 ft. |ack*ts eniversei--Heavy, white kraft paper is laminated to an interior vapor barrier facing of aluminum foil. This white universal jacket enables Fiberglas LowPressure Pipe Insulation to insulate tubing and pip ing from 50 F to 250 F and must not be used outside of this temperature range nor on thicknesses of in sulation greater than W The aluminum foil pro vides necessary protection against condensation on cold piping if the joints are vapor sealed. If desired, it may be finished with any water-base paint. A variety of easy application methods eliminates the use of metal bands. centres--The standard weight canvas jacket suits Low Pressure Pipe Insulation for use on hot water or low steam pressure lines only. A heavier canvas jacket, 6 or 8 ox., is availabe on request at a slight additional eoet. End overlaps aid convenient appli cation. nu (name eterOent Jacket)--VThere flame retardance indoors is desired, FRJ which is reinforced with glass yarn for high puncture resistance and with aluminum foil for excellent vapor resistance is avail able at a slight extra charge. For hot indoor lines, jacket may be stapled or banded. limitations Fiberglas Low Pressure Pipe Insulation is designed for use at temperatures from 50 F to 250 F. The thickness of this product does not permit its use for lower temperatures such as on mechanically chilled lines or when operating temperatures exceed 250 F. It's the low lysIcaT 4>rofrtWs .. I HS i#r o*k See* - ftJ* iy setaae'M.Ar eia< *d I M* cam* m octdaretc WuSww vOverui ladui Isa Wan P.2 jSjT W-- fee) pm lock oi ^ tL pm design data The table on page 13 has been developed to indicate the thermal performance characteristics of the avail able sixes of Fiberglas Low Pressure Pipe Insula tion. It is designed to give heat loss, efficiency and surface temperature values for hot line applications of Fiberglas Low Pressure Pipe Insulation. For cold lines, heat gain and surface temperature fig ures are shown. that counts d7 001 thermal performance W* liMM ISO f pipe temp. IMP prartia hi* i* 3T* MO f Ml K IT W*4 UfbM (90 t MbEfani J 1MI Mr Ml I tt MO* St K- tlb W* Lib E-itt a-a K4 Et 10 70.4 ** 11 .S 74.0 ' J 5 MO * 't 74.1 ti t* 75 5 93 10.S 77.t 94 3 5 77 3 ** 33 75 4 n 31 74.3 ft 35 74.0 31 tl-4 ** 44 T7 *j so.o rr 71 74.2 rr ta Tf.a 97 ' 20.3 * It u 37 54 to 43 49 S3 " us 370 74.3 74.2 77 1 77 7 74.1 79.4 79.0 71.3 74.4 40.7 2 4 ia.a hi 40.3 0.2 104 104 <0* 104 103 l>4 107 117 U3 107 103 107 104 no in it 74.4 304 77.3 ** 74.4 79.1 40.S 74.3 40.S 711 dr 40.5 S3 79.7 91 0-3 94 t.7 to 43.5 133 13.5 t*3 ; 43.3 317 41.3 JSA 1.3 U4 114 114 U4 114 171 114 119 135 ur 113 IH 130 133 134 5.3 4.0 7.3 3.3 10.0 10.7 13.0 14.3 ii.7 19.1 30.1 33 0 39.0 44.0 50.0 13 43 u 13 43 43 SI 41 0 41 41 40 40 to % 7.0 74 a 33.5 12.4 1.3 101.4 It.4 3.4 no.t 4.0 3 tk 1.3 74-2 43.1 14.7 0.0 103.3 21.3 1 0 in.* 4.3 13 4.3 7*7 92 4 14.7 0.2 101.7 34.3 1.7 tu.s 4.3 33 tk 50.2 74.7 94.7 11.1 71.5 103.9 77.3 74.7 ni.a 5.3 3 i 11.4 77.3 94.4 21.4 74.3 104.0 33.1 0.5 114.7 4.2 2 l.tIVk 13.4 74.1 94 9 23.1 0.4 104.4 37.2 ns.! 7.1 2 lit ' 5 1 7f.l 95.1 33.3 1.1 105.3 42.1 1.1 nt.s 3.0 3 3 19 4 74 1 94.4 34 3 74. 107.3 531.5 31.1 ne.j 10.3 11 Itt 22.4 74.0 95.7 41.1 *0 1 104.4 41.0 33.0 117.7 11.3 1 t 24.7 74.7 94 3 41.1 0.9 107 3 71,7 12.3 11*.! 13.9 1 rt, 30.3 7? 3 -97.2 34.3 74.2 104.4 2.3 1.7 jilt .7 15.4 11 4_.mM.I ,74. 94.4 43.7 77.4 113.0 43 4 2.1 1lt!4.1 17.7 1 Mli Meet lec ttu/kr./lln. ft. I #f hep fete ctomoad hr l--mtwitm CTt Surface Taaratwre ef Miana*t *P. HC> Maift Oa^-4te/fcr./tia. ft. application details pipe insulations from 50 to 250 F specifications applicable specification MH-I-552 Inivletion, Pip* Covering Tkennel, an inmieiion Thertaal, rip* Covering Type I, Clou A 1. Insulating materials All cold water, hot wster And low pressure steam hr.es hall be insulated "nth Fibergias Low Pressure P:pe I.-sulation as manufactured by Ow*n.Corning Fibergias Cor?. 2. Application On cold line applications the universal jacket shall be ad hered at longitudinal laps and joint seal strips with a white vapor barrier adhesive, such as Foster 81-91, that ;i: match the universal jacket in color. Where FRJ is used adhere with Foster 81-99 or equal. On hot line applications, the univeraal jacket and 4" seal ing strips shall be banded, cemented or stapled. (Staples to be similar to Flare-door type Bostitch staples and shall be applied 3 to 4 inches on centers.) 3. Fittings Fittings shall be insulated with O-C 110 Insulating Cement or molded fibrous giass fitting eovers. Cold water fittings shall be additionally vapor-sealed with Foster 30-36 and canvas. Finish on hot water fittingi shall consist of adhering and ailing standard-weight canvas with Lagfas. If a more fin ished appearance is desired, use Lagtone. Tka fortgoing is necessarily general in nature. Application procedure and material appro ral is at the discretion and re sponsibility of tk* design engineer to meet specific ;oi requiremente. far hat tines--unlvertol (aclcet ICeet the l'A* t*p ef the white j universal Jacket with S white vapor harrier lap adhesive pent place the insuletien ereund Ih* Staple, band er cement the white enlversel |ecket. If stapled. the iteple* shell he applied 1 tp 4 inch** tn center. Imwlat* Ittinfi with e hydraulic-sotting cement thet will he eff-whhe when dry. Staples should be used en het lines eniy, unless well reper sealed. conres (orket Joint. Seel Joints between tec Mem with e factory-supplied 4* wide sealing strip. Insulate Strings with O-C 110 Inteletinf Cement Jhet wiH be *ff-whit* when dry. Vnpee tenl with e whit* veper hairier <0 cement end canvas. Secure with adhesive etta belt |*mts tightly together fer heat-tifht eOciency. Aluminum ken4s cveilehle with the Insuletien. Insulet* Strings end Snish with ttenderd wcifht canvae adhered in piece. 37 001 2248 OWCNS-CORNINO FltERGlAS CORF. 1 Fiberglas one-piece pipe insulations multi-purpose Insulation for piping A copper tubing from -30 F #o 400 F w. vj pnyslcal propcrtiti nsky: 4 fc*. por co. ft (aperosj bturo btorptfow 0J% by *rtvo 44 ha. rt IS P i #mNc bean 0l2O Sto/k. f ''Shrfctfcogei Nom ' - ulbellaWin pb 0 ------------ SItelli Hi i JM4 aq. R. par hr. rt 73 F aaaa tawparstvrs. Il My , aa daaSaaada aa tmhawraaarti candaucotiirrtirty diridad by the tpacif.~'A k hart and dansity. Whararar a condiliaa of vmtaady E".l, kart Sov iihti, tha proparty oaf ftiorart diffwsivity is h ` laportaat la tha chaica of a plippaa iasvlatian. With In- Svtatioas of aqual thktnau, boating tiaia it iaranaly . proporKoart te tt>a dlthrtlrttyi wrth aatariali af tha nai UHfvtivlty, hasting tiao U diroctty proportional la th# sqvara af tha tbicfmoi Fiberglas One-Piece Pipe Insulation it available in 180 different thickness-size-length-jacket combinations -- for almost all large and small piping and copper tubing sizes. description Fiberglas* One-Piece Pipe Insulation is a resilient, light weight pipe insulation molded from fine glass fibers. It is made in one-piece cylinders--in sizes up to 33' IPS--with a single longitudinal seam that is opened to apply to the pipe and closes after it is in place This unique feature of fers faster application and better handling character!stica This multipurpose one-inventory pipe covering is designed for use on pipe and copper tubing lines from--30 to 400 F. It possesses exceptionally high thermal efficiency -- in a range of wall thicknesses from 's' to 2" -- making possible the use of lesser thicknesses than other pipe coverings to affect greater heat-saving economies. Fiberglas One-Piece Pipe Insulation is not affected by moisture, will not corrode metals, will not shrink, and will accommodate line expansion and contraction without cracking. jackets Fiberglas One-piece Pipe Insulation is available with a variety of factory applied jackets for appearance and/or functional purposes. rtama Retardant Jacket (F*J)--A laminate of aluminum foil and a special embossed kraft paper with a flame retardant snuffer type adhesive, reinforced with glass fibers for high puncture resistance. This jacket ia available in both white and black exterior finishes. A special embossed kraft ex terior surface gives a satisfactory finished appearance and to maintain the flame retardant characteristics, it ia recommended that no further finish be applied. Universal--A heavy, white kraft paper is laminated to an interior vapor barrier facing of aluminum foil. This white universal jacket enables Fiberglas Low Pressure Pipe In sulation to insulate tubing and piping from 50 F to 250 F, and must not be used outside of this temperature range nor on thicknesses of insulation greater than \'. Canvas--The standard weight canvas jacket suits heated lines up to 400 F. A heavier jacket. 6 or 8 oz. canvas is available on request at a slight additional cost. Daol Tempsreiwrs--A 3-ply laminate consisting of alu minum foil sandwiched between two layers of special kraft paper. The slightly crinkled exterior presents an attractive appearance and doesn't require additional paint ing under normal conditions. *T. M. Owtni-Coming Fiborglai Carp. It tin lot* Tfbarglaa IsnrinSiaa'a aaaauaSy lav tharaal coadortmty .00 mhiaa (ahown aa tha chart baiov) aaka this tha idaoi - baa placa pipe laaatafloa for ad iwplicrtiaai ia ita taa- .1 _ iiiMi*nr ni r --- - * - -- ' _i_irn i, advantages on* pic means quick, easy, economical application -- even ia large sizes -- with savings up to 50%. Unjacketed 6' long sections available for larger sizes, light weight -- down to 1/10 that of other insulations -- means less material to handle and apply, easy fabrlcatieil -- only a knife needed for the most intricate shapes; reduces clean-up time, ne shrinkage -- fibers at Joints mesh tightly, eliminating post-application pointing. ,;~\ resilient dimensional stability resists mechanical dam age before, during and after application. Does not break, choice of |eckets for function and/or appearance, multipurpose, single-inventory produet cuts stock to a minimum. economy due to superior thermal efficiency, with equal or better performance than other insulations, permanent. Inorganic, (Ire-safe glass fiber construe, tion will never rut or assist corrosion. Dries out quickly when wet; lasts indefinitaly. flirt (Ouni 47 001 2249 pipe insulations frcr -30 to 400 F o specifications applicable specifications a. Ho Water, Cold Water and Lew Pressure Slaam lines: 50 to 250 F HH-I-552 Insulation Pipe Covering, Thermal, and Insulation Uonket, Thermal, Pipe Covering Type I, Cass A end I b. Heated lines: up to 400 P HH-I-562 Insulation, Thermal. Mineral Wool, Mack or loord end Pipe Insuiotion (Molded Type) Type II, Classes 2 and 3 A5TM Specification 2I1-51T c. Coid and Dual Temperoture Pipings 35 ta 200 P HH-I-562 d. low Temperature lines: 34 to --30 P 1. Insulating Matpriais All piping shall be insulated with One-Piece Fiberglas Pipe Insulation aa manufactured by Oweni-Coming F:berflas Corporation to the thickness aa noted on drawings. 2. Appl ication . Hot Water, Cold Water and Low Pressure Steam Lines: 50 to 250 F (See /iage 10.) k. Heated Lines: up to 400 F (See page 10.) c. Cold and Dual Temperature Piping: 35 to 200 F. (See page 10.) 4. Low Temperature Lines: 34 to --30 F (See ;.age 10.) recommended thicknesses lr* sip* **' tvbinf IT--fcoind*d rtiickiMU HL--KmI Ipii Itu./lifi. ft./hr, HO--heot Sam Stu./lin. ft./hr. True economic thickness can now be calculated auickly and easily by following the system provided in the new F;berglaa Dividend Engineering "Economic Thickness Manual." This it available from your local Fiberglaa branch office. cold wotar, hot wotar and low prassura staam Unas racommandad for greater heat savings *** tm*. faa*a> diO. jdpa Msa Vi L* '1 IVfc 1V% 1- 1 v.X*^ ^ *v% W4 E va | ka Kr a I9 Ml P 11 g tu ORdliRf air at SO P 1*0 P MOP ur TOP 120 8 170 P IT hi (T Mi IT Mi 'A S A Vi 10 Vi 14 VA 11 'A 21 27 'A 13 Vi Vi w Vi 24 Vi 25 Vi 34 31 Vi 1* Vi 'A IP Vi 32 'A 34 'A 41 53 'A 33 'A Vi 2t Vi 41 'A 52 'A 42 TP 'A 33 A Vi 35 'A 5P 'A 43 'A P PS 'A 21 'A 'A 43 'A 53 'A 77 'A 71 117 'A 53 Vi 97 Vi 143 V. 41 'A 10P 'A 144 'A 47 Vi 120 'A 111 'A n 'A 132 VA 1P7 'A IS Vi 151 'A JJ7 'A 14 'A 157 VA 27S Vi IS 'A 144 'A 251 JTat'pOP *OP- 200 9 40 9 1201 rr MO tr Mi 'A 4 Vi 14 Vi 5 'A 17 Vi 4 ' A 23 Vi 7 ' 'A 25 'A V4 34 'A 10 V, 21 Vi 12 V. 33 Vi 15 , V. 40 Vi t? ; tt 42 Vi ii ' V, 2P 'A 15 , V. 52 'A 21 V, 51 'A 32 y 40 'A 35 i i 44 Vi 31 i 'A 44 i 4P 74 44 1 i VA 4| ; i 1i IS 17 P4 owOI-- air a* SO P 2SO P 300 P 3*0 9 170 P 220 9 270 P T Mi tr Mi tr ' Mi 1 11 i 1 22 i 25 l'A 30 l'A 27 31 1 23 i 31 l'A 34 1 j* IVA 2P l'A 37 I 30 1VA 32 IVA 43 1 IS IVA 31 IVA 4P 1 40 l'A 47 2 50 1 47 l'A 50 2 54 1 45 l'A 41 2 44 1 37 l'A 40 2 44 1 54 l'A 74 3 74 1 70 l'A 77 2 74 I'A 41 IVA 15 2 IVA 47 l'A P2 2 *4 P7 IVi 75 IVA 103 2 IVA 12 IVA 112 2 1 VA P IVA 131 2 1 'A P4 l'A 131 2 "A 105 "A 143 104 111 134 134 400 9 320 9 IT ML 2 2P 3 34 3 37 2 43 2 41 2 51 J'A 42 J'A 5P J'A *0 JVl *7 2vi *P J'A 7P J'A SI 2 V, TCI JV, 1 07 JVl 117 i* L l'A CT*2 1% - IVA , * IT t.. ** VA 'A Vi Vi 'A 14 VA 'A 14 'A 'A 14 'A Vi IP 'A 'A 21 'A Vi 34 'A VA 21 Vi 'A 31 VA 'A 37 VA M Vi 1* Vi 25 'A 34 'A 2f 'A 34 VA 3P VA 44 VA 4P 'A 54 VA * VA vs n V, 37 VA 31 'A 43 'A 50 'A ss 'A 44 'A PP 'A *4 'A PP VA M IS 13 14 *4 14 14 *4 14 54 *4 e*4 lin tCantoct rwr naorntt Fitarpias Iranch Offico for hoot ( ** ohovo <M iU. cold and dual-temperature lines (90 F at 80% R.H.) ,,_____ UwpiaMM so f or adavo aa 9 a SIP sap MOP OP to -SO P IT MO IT MO tr MO IT MO .M &r. * VA 4 v4 5 i VA 5 v 4 i S IV, l'/i 1 10 VA 4 * 7 IVA 1 IVi 11 VA 7 * S IVA P IVi 2 fejfc VA S Ve P IVA 10 1W 13 VA 10 % 11 IVA 12 1'* 15 K failMi VA 12 H* 13 IVA 15 2 % 11 V4 15 IVA 14 2 % 12 1 12 l'A 11 2 H. 13 1 14 IVA IS 2 15 17 ip 20 V, 14 1 15 "A 22 3 23 V, 15 1 IP l'A 23 2 23 ESm": ' K 17 1 1 11 1 20 1 23 IVA 25 3 25 IVA 21 2 27 l'A 31 3 24 74 32 -tEm -W.. E9Eg> j--|g|p'v' 1 1 I 1 23 1 25 1 25 1 24 1 2P IVA 34 2 32 IVA 34 2 34 ''A 3P 2 35 l'A 43 2 35 31 4) 44 001 2250 OWINS-CORNINO FIMROLAS CORP. IS gwt n% CitliC Fl BERG LAS O-C flexible tubing insulation for dual temperature, chilled Ice water or refrigerant lines from O F to 220 F < r-.-.- -It 0-C Flexible Tubing Insulation is a foamed plastic insula tion for iron pipe and copper tubing cooling and heating lines, chilled water, and refrigerant lines. It is black, odorless, self-extinguishing, and exceptionally clean to handle. Its flexibility speeds application. The material has a closed cellular structure and is a vapor barrier in itself, so no vapor barrier coating is required. It is avail able in complete tubes for slipping over tubing or slit. Because of high insulating efficiency and vapor resistance, O-C Flexible Tubing Insulation's engineered wall thickness will prevent condensation under customary design condi tions. On the heating cycle, O-C Flexible Tubing Insulation will withstand temperatures as high as 220 F. Outdoor lines require weather protection applied over the insula tion. O-C Rigid Tubing is a companion product which, except for its rigid form, has all the same characteristics as O-C Flexible Tubing. O-C Rigid Tubing is designed for load bearing use at pipe hangers, as underground insulaton and for use wherever the pipe line is subject to physical abuse such as ladder loads. It is available in matched half sections. This product is also made in sheet form, O-C Flexible Sheet Insulation, for insulation of equipment, flat surfaces, and pipes operating at temperatures up to 200 F, that are too large for molded covering. alias Iran pip, tils (IWJ-- U* to 4" capper tubing (CT) -- *i" OD--4*4* OD Insulation thickness--**", per tubing through 2" IPS, "anddAi*n aMddition 4' VanAd'SK wall thicknesses for pipes and tubing from 2" through 4" IPS. Sheet form (for larger piping and flat surfaces) from 14" to \ " in Vs" increments. section length--6` tubing; 30" x 36" sheet, limitations temperature limit--Recommended for piping from 0 F to 220 F. Sheet form, 200 F. outdoor llnei--A protective finish is required as outlined in specifications on page 17. v t h i> I \v advantages flaxibla O-C Flexible Tubing Insulation is designed foT excep tional ease of handling. It is so flexible it can be tied in knots--so resilient it springs back to its original shape when untied. Fast application to both pipe and fittings means that total installed cost of this superior quality in sulation usually runs no higher than for conventional type materials--frequently less. conforms readily O-C Flexible Tubing Insulation conforms to gradual bends because it is flexible. It easily slips over pipe or tubing before connections are made or can be slit with a knife and snapped in place over lines already connected. Fittings are also easy to cover. O-C Flexible Tubing Insulation can be slipped right over wrought copper fittings. Cast bronze fittings or fittings on iron pipe can be "sleeved" with a larger diameter of insulation nested over the covering on the pipe. This makes a faster, easier and neater job on fittings than wrap-on type insulations or insulating ce ments. voporproof application O-C Flexible Tubing Insulation, being vaporproof, also saves the extra step of applying a vapor barrier finish on cold lines. Cut seams, mitered joints and end joints are joined with vapor resistant O-C 500 Adhesive. No other sundry material is needed for indoor lines. O-C Flexible Sheet Insulation is adhered with complete coverage of the surface to be insulated with O-C 500 Adhe sive. Apply a thin coat of adhesive to the surface to e insulated and also the sheet insulation. Allow the adhesive to dry before the insulation is applied. `'Cl CO;"' 17 001 22 pipe insulations from 0 to 220 F recommended thicknesses (f*r cendefuetlen ereremlei* anly) IPwE' --v p.r p DUION CONOtriONSt wm sin (P'#vOfiO* of co**#"tot'#* * maoar #>#<Afi w*G#r a nmv *#uo'*v o 1C t oa $C% I.H Tto<oi of inti# c#ft4iti#fli #mi if-t#**#.ii#Aa ipacoi on# #rG dim#'**). [Pf#*oniion #1 <#nGootioA on ;aGooi *i#>ng wnGor a noii*v* ww'ity of 15 F **# 70% 1 N lytoorch on# filG luggotf <A###r c#A#,ti#M( isrvbtn <a tho U.5. ioigo* #*coaG (hit Gagroo #t o*#rity.j %* 10 thro 2* IRS Ow i* IPS ism A* IPS Ovm 4* in thro 4* IRS Ooar 4* IRS thro PLAT Sorfac* %* 10 tfcrv 2* tn 0*or 3* m thro 4* IRS 0*r 4* IPS thro 4* m 0w ** IPS Him FLAT (Pr#vA'i#R #f condaAiaiioa inGoof #<#ing v*G#r # *Ol*v* I0*oritv of f 0#G 10% 1 H. Tya.cai of th#o <onGii<OAi lAGaor aroai Mn #c#i<vc *ottvro it 'AtraGucoG. or OOGOy #i'OloG cgOPa#* a toot hO*t iKo tomoorgruro may oa soo'oiso* bo'G* omb'OAt.) %* 10 thro 4* in Ovar 4* in thru 4* IPS Ovor 4* IPS thro PLAT SwrfGco O-C ftosIhU Taking an# Sh#t tto* Thicknati for Lm# T#moo*atwro! so r No*. %* Mo*. Vi* H* Shoot %* Shoal No*. %* No*. V* %* Shoot H* Shoot SI S No*. Nam. V,* %* Shoot 4* Shoot No*. 'A* No*. Vi* Vl Sk,,t Vd* Shoot I i i ! 1 OF No*. Vj* No* 7>* 'A* Shooi 'A* Shoot No* I/*n#*. '4* 1* * Shoor* h., y4Vs" Shoot 1* Shoot No*. V4* 1 * Shoot* 1VS* sw AvOliObiO OA I*OWO*I Shoot thick Atiot *or V4* ev be #tte<"G w<fh oultJo/o-lever opi'rot<#A. tCent'dereiien fer ceeenset<e* *n<y. Hoot #* * eooiont nor cenoberee beeewae O-C P(#ihlo Tubing Imefet'ee is < pri*ori<y e shell design data The table above ha* been developed to indicate the rec ommended thicknesses of O-C Flexible Tubing Insulation for several different design conditions. Thicknesses shown are for prevention of condensation only and heat gain or loss has not been considered since O-C Flexible Tubing Insulation is used primarily on short run-outs. Table of OC Rigid Tubing Pipe Supports Sit# CWF lit# RlglG Turing locorwNGftGoG Rip# Hangar Ml* to#port Loogth Spacing locho# (fMr.)*t foot (mas-)* % 00 V|" 00 A" 00 % 00 %" 00 1 % * 00 oo t 00 --IMI 2A_"_ 00 _ -- Vo* m H* m ''I* IFS Vo* m m iVo* m iv m 2* m 2Vi* m 3- IPS 10 vr io V* io Vo* 10 V*" io 10 1>A" 10 1 '0 1 V, 1 PS 2%* 10 2* IPS 2A" 10 2'A* IPS 3'A* 10 3* IPS 3 4 4 4 4 4 10 12 12 11 it it 7 7 7 7 7 1 * t 10 IQ 11 13 tj 14 14 oo Oo r* 'Whn ce*B'AO'<efl cooper tube and iron s ee swapet <o*gth on# pipe hanger spacing are besee open non pipe. (M *eere cenditipn. fAn 18 gewgo rei thieid. '*# seme longm css the I'd'd Tubing, is le be eoad et ell pipe haeger location!. specifications 1. Insulating malarial All cold or dual temperature pipe and tubing lines as noted on drawings shall be insulated with O-C Flexible (Rigid) Tubing Insulation, a foamed plastic insulation. The thickneas snail be determined from manufacturer's thickness tables for the design conditions specified. 2. Application O-C Flexible Tubing Insulation and/or O-C Rigid Tubing Insulation shall be applied over clean dry surfaces with pipe at approximately room temperature. Pipe or tubing may be insulated w-ith O-C Flexible Tubing before connection by slipping the molded insulation over the lines. Lines already connected shall be insulated by slitting the flexible tubular insulation lections and apply ing them around piping or tubing. O-C Rigid Tubing shall be applied at hanger locations as the bottom supporting half section matched with a top half section of flexible or rigid tubing. In all cases longi tudinal joints are to be in a horizontal plane. (Required lengths of O-C Rigid Tubing by pipe size are shown in table at left.) An 18 gauge metal shield the tame length aa the O-C Rigid Tubing u to be used at ail pipe hanger locations. AU butt ends and longitudinal joints shall be sealed with O-C 500 adhesive. Piping over 4" IPS, curved and flat surfaces shall be in sulated with flat sneeta securely adhered with O-C 500 adhesive. All fittings shall be fabricated from O-C Flexible or Rigid Tubing Insulation in neating sizes. Join alit and mitered joints with O-C 500 adheaive. For use underground, apply O-C Rigid Tubing in pre matched half sections. No separately supported load bear ing material is required. 3. Surface finish Piping located indoors In concealed spaces requires no sur face finish treatment. Exposed piping shall be painted with one coat of No. 1 asphalt paint or two coats of asphait based aluminum paint. Outdoor piping ahall be protected from the weather by (choose one) (a) applying 45 lb. asphalt-saturated and coated rooflng felt wired flrmly in place with copper clad wire on 6" centers; (b) apply two coats of weatherproof plastic reinforced with glass mesh membrane, where O-C Rigid Tubing is installed underground, no finish is required. Tht foregoing is neeessarilp genera! in nature. Applica tion procedure and material approval it at the discretion and responsibility o] the design engineer to meet specific job requirements. OWINS-CORNING FlfilRGLAS CORP. I 17 001 225_2 & Fibergias KAYLO pipe Insulation 'of: -,& high temperature fnsulation for indoor | or outdoor piping up 1200 f operating temperature Kaylo pip* limitation opoliot oaoily and pukkty with HonSard application motliods. Ordinary topic of the node aro urfRciont for all cyttinp, tawing or tcoring. It It non-irritating la tho tkin and non-toxic it A tiie low (for tomporaturos ranging from 1200 F to 1S00 F, too Kaylo-20, pago 22) Kaylo* pipe insulation, a near white, rig-id hydrous cal cium silicate heat insulation, manufactured by Ower.sCorning Fiberglas Corporation, effectively insulates in door and outdoor piping to 1200 F. A chemically re acted material, Kaylo pipe insulation contains no added binder. For mechanical effects, a small amount of as bestos fiber is included at the time of manufacture. This thoroughly tested and field-proven material con tains the physical properties most desired for efficient, durable insulation work. It retains an appreciable per centage of its strength even after complete saturation in water, original efficiency returning after drying. The effectiveness, high strength and moisture resistance are onattained by most other insulating materials. sizes tfikknau--Kaylo Pipe Insulation is available in thick nesses from I* to 3' depending upon pipe size. Kaylo Tube Insulation is available in thicknesses of 1" and 114". pipe tfxas--Kaylo Pipe Insulation is available to fit pipe from Vs' to 39" in diameter. Kaylo Tube Insulation will fit copper tubing from Vs' to 3Vi' in diameter, fermi--Kaylo Pipe Insulation is available in sectional or multisegmental form depending upon pipe size. All in sulation is furnished in 3 ft. sections. (ockots canvas--Kaylo Sectional Pipe Insulation includes stand ard canvas jackets, at no additional charge, on thick nesses up to and including 2V4*. Standard canvas is available for segmental forms at a alight additional cost. Bands are available for use with this product at slight additional charge and will b furnished on request. 6 oz. and 8 os. canvas jackets are available for all types, sizes and thicknesses of Kaylo Pipe and Tube Insulation at an additional charge. These jackets are factory ap plied on Sectional Pipe and Tube Insulation. On Multi segmental forms, they are furnished but not adhered. Kayta KM--Kaylo is also available with a soft rippled embossed aluminum jacket .016' thick or .010 stainless steel jacket. These jackets provide greater resistance to mechanical damage and present a neat finished ap pearance to pipe lines. The longitudinal seam has a self-locking joint. Joint bands with integral mastic are furnished for sealing end joints. limitations Kaylo Pipe Insulation is designed for temperatures up to 1200 F and is not recommended when operating temperatures of piping exceed this limit. T. M. Owoitt-Coritinf Flborglos Carp. ( ' < 1 | that lounli 37 001 22 pipe insulations to ' 200 F specifications for Insulation of piping with Kaylo applicablo specifications HH-I-523a Intulotien Heck, kip* Govaring ond Ctmt"'. Thermal. Calcium Silicate (For Tempereturei up to I 20C F dost II (pipe covering). MIL-I-27I1C insuiolien Pipe Covering, Thermo!. Grode I Class I, Grade li Class 0. Grode ill Class . 1. Insulating materials AH hedited pipes shall be insulated with Kayio Pipe Insulation as manufactured by Owens-Cormr. g F: ber ries Corporation, to the thickness noted on drawings or as shown in the table. 2. Application All Pipe Insulation shall be applied over dean, dry surfaces, butting adjoining sections firmly together and adhered canvas, when furnished, smoothly over joints. Longitudinal and circumferential joints need not be pointed with flnithing cement to conserve heat. Insulation on pipes over 12* diameter and all out door piping shall dc wired in place with 16 gauge oft annealed wire on no greater than 9' centers. Where double layer insulation is applied, the first layer shall be wired in place without jacket: the sec ond layer shall be applied with all joints staggered. AH flanges, valves and fittings shall be insulated with Fibergiaa molded fitting insulation or fabri cated mitered segments of pipe insulation equal in thickness to the insulation on the adjoining pipe. Fittings on pipe sites 3' and smaller may be insu lated with O-C 110 Insulating Cement of equal thickness. 3. Surface finish Indoor piping under 12* diameter not subject to abrasion or mechanical abuse requires no finish in addition to the factory-furnished canvas. Piping over 12* diameter shall oe finished with 6-ounce can vas pasted in place. Piping located outdoors shall be finished with 4 5lb. roofing felt jacket with all joints lapped not less than 2*. Jackets shall be wired with 16 ga. copper wire on not greater than 9* centers or banded on 12" centers with 4" galvanized bands. Other suitable weatherproof jackets such as metal, asphalt or plas tic coating may be applied according to the jacket manufacturers' specifications. Insulation on flanges, valves and fittings shall be covered with a 4" coat of O-C 110 Insulation Ce ment. Insulation located indoors shall be further finished with 6 oz. canvas neatly pasted in place. All insulation on flanges, valves and fittings lo cated outdoors shall be covered with asphalt weather proof mastic reinforced with an open mesh giass fabric. Mastic shall be applied in sufficient thickness to give a 4' dry coat and shall be troweled neatly over the fitting with the jacket on the adiacent piye insulation lapped at least 2' over the mastic. The foregoing is necessarily general in nature. .4 plication procedure and material ap/iroval is a: the discretion and responsibility of the design engineer to meet specific job requirements. 1OWKNS-COfiNINO FtftlRGLAS COUP. . I 001 2254 design data for Kaylo Insulations ThU table presents reference data for information on the actual thicknesses according to the simplified Dimensional Standard system. The following data are presented to aid in the design of Kaylo Pipe Insulation modified to meet specific needs. Rec ommendations are generalized and should be modified to meet local conditions and job requirements. Importance of calculating economic thickness Selection of insulation thicknesses for any specific applica tion should take into consideration at least the following criteria. 1. Cost of insulation applied 2. Cost of heat energy 3. Cost of capital applications--Kaylo and Kaylo-Klad t 4. Depreciation period--plant and insulation 5. Capital investment in heat production equ.-rrert 6. Temperature differential 7. Size of the pipe or surface 8. Conductivity of insulation To assist the engineer, Owens-Coming Fiberglas has taker, the figures provided by the National Insulation Manufac turers Association in their manual, "How to Determ.-e Economic Thickness of Insulation" and, by pre-calcuiat.-? many of the equations on s computer, has created a qu.c-:, simple system for resolving economic thickness. To obtain your copy of this Dividend Engineering "Economic Thick ness Manual," contact your local Fiberglas branch office. Your local Fiberglas representative will be glad to explain this quick, practical method for computing economical thickness under all normal operating conditions. Off-sit* ye'd it**** Insulated Mi Kayla Pipe Insu lation tar efficiency and centrellad temperatures at distant paint*. Now Kayla Tract Una pipe intuiatton and Kayla KM Trace Una Pip* Insulation (jacketed with .014 aaebested aluminum or .010 ttainiatt steel I provide great economy in Ilia insulation at data line*. The** pre-inaldtd trace line Intuiatton* ate designed tar Insulating piping 2* IPS x 1* thick tip le 0* IPS s 2* thick together with el* hoc* lino. Advantage* at Ihi* Kayla maided insulation kidudo higher strength, mere rigid construction and. In the case *t Kayl* Klad. tingle application at bath Imuta tion and weather preehny. Application and mebite none* casts are both reduced. Where a trace Una I* greater than one inch, an extended leg intyiofiea eon be fabricated t* ipecial order; contact your local OCP branch Office. Kayla-Klad aluminum |ockat "tacks oat" Hi* weo'H*. Tha longitudinal seam tain* and and taint band. wuh Integral mentis, provide positive eraather protection. 17 001 225520 it's the low that counts recommended thicknesses Kaylot (*mklM trill ilr H f) *Wa tm. | time. dM. | JWaMa' IT IM 1 M MO 400 r Mb * i T IT m i 1 Mb MO fT IT Mi 1 i IT tr__ fCc-t- Hi iW 1 ! Sul -- 1H t-v * ------- *H i l 1 1 74.0 too iK $2.5 4.7 107 2 77.0 0.4 no H.J 7f.5 104 IK 40.0 7 4 110 IK 74.4 127 103 US 2.4 101 t 45.X 0 104 IK 5.4 3.1 104 411 2.0 to* tK n.2( 0.1 ) no IK IM 3.71 104 (*.1 4.0 104 2 45 1 2.2 103 1 to 5.0 102 1U |4f 101 2 0.1 2.1 107 3 tot . 5.1 lot 41.5 5.5 104 2 17 3.3 i 105 i 115 4.1. 107 rj-T 17 104 2K 0* 3.4 104 IK 124 4.1. 107 - 4 1 ^" P% 14 p. i* ? M.4 lt.l 104 2K 107 1 4 4 103 IK 144 f 94.4 104 1 104 4.5 no IK |J* ; 4.4 107 11b 144 47| 110 m 94J 0.0 103 IK !41 4.4 104 4 170 7.1 107 m 102 0.3 103 IK 1*1 1 4.t 104 4 140 977 101 IK 114 ik 125 I Vi 123 in 152 0.4 104 IK I 74 ; 5.0 . no 4 210 r?j 104 0.4 104 IK ' : 3.2 no 4 221 47.4 no 40.4 104 * ! fSt 104 41b 224 7.4 T04 1.0 104 1 210 5.4 107 4Vb 250 77 104 P i L fer" 44 i* i* * IK 171 'K 201 'K 223 i'K 244 IK 2f 1 0.4 104 3 215 5.1 101 4 lb 275 77 104 0.4 107 j 255 It 104 5 244 7.4 104 0.5 10* 3 25 4.0 110 5 320 7.4 104 0.5 10* IK 272 . f4J i 1 04 i 5 353 7.4 no t0_5 10* 11b Ill 1 4>4 1071 SVi 344 i U 104 pipe insulations ro 1 200 F 'Trua atanainie thickn can new a calculated quickly and uanly by fallawlnq th lyttcm qra^iota in tha new fibarglei Diuidand In. ginaaring "Ecanaaic Thicnatt Manual". This it available iraa your local Fibargla, branch effca. KIT IT-- tecommended Thickness, Hi Heot lets fttv/Lm. ft./hr. -- Itiviaiisii Efficiency, ST-- Swrfoce Teaperotvre.* Commercial end Induttriol fewer end Utility Preceu industries aWa toow ; SM to M i * 9 Off 9 ! 1300 9 naip. dw. : SM 400 *00 i MO 9 tooo i 1130 r IT 1 11b 1 Ml 1 ST IT M. 1 T T m 1 ST tr m 1 ft CT Mi I ST IT Mi 1 ST 244 34.2 35.4 43.4 74.0 74.3 2.4 2.0 100 104 <01 104 1 1 1 ilb 41.0 4.0 120 IK 4.0 4.5 114 2 71,2 4.4 124 IK 33 40.3 12* 2 7f;2 47 123 IK 107 41.4 125 2 732 0.1 110 IK 120 2.3 127 IK 112 42.4 124 2K 124 34 114 3 145 5.3 <20 125 43.2 lit IK 144 1.1 122 ! 1*2 5 1 <27 13* 44.0 127 3 151 4* 120 i 144 A 2 '33 143 45 121 3 17S 433 125 IK 200 7 } i 24 Z." L- . 11b 1 t* 1 1 1 1 44.3 53.5 41J 727 4.0 4.9 5.5 3.7 104 105 104 10S 41 4.4 4.5 104 1 104 IU 1 10 41 137 5.1 114 r 'lb 102 0.3 102 0 'lb 114 0.4 103 * lib T25 40.4 104 Iff 1 VS 133 40. 103 IS i'K 133 41.0 104 14 >lb 17t 40.4 104 to lib 201 40.4 107 10 lib 221 40J 10 ffff 1 Vb 244 404 104 #4 11b 241 404 10 lib ISM 0.2 114 2 ilb 14 1.0 t "< 2 IK 4.1 2J 111 ,2 IK 124 1.5 120 2 104 132 137 144 IK 154 ' 41.4 123 2 202 IK 177 2.4 123 IK 204 IK 207 2.4 124 2K 234 'K 224 it 125 2K 270 IK 249 'K 273 IK 242 IK 334 2.4 1.0 3.2 37 127 121 127 121 IK 217 2K 313 IK 344 2K 345 2 ,123 4.1 : ' 1 345 2 175 4.0 124 1 421 i 410 1044 111 1 440 2 1440 34 124 1 535 2 515 4.3 124 5 410 If 44. til 44.4 113 l JVk 121 117 1 IIKK 124 3 5.0 5.4 5.4 4 124 3 122 i 125 ; ik 127 1 IK 93.2 b.1 4.2 34 127 i ** 124 1 IK 124 ; 130 4 43S it 34 434 47 125 4 12* 4 127 . 4 124 . 4 134 1 <K 14* 170 141 147 5J *u 433 43* 114 12* 124 124 222 2** 2* 247 47 124 7.1 12t 97J 122 47* 121 in i ): 410 977 977 977 1 tit 127 1 ! Ill 447 41} 5*0 544 *! 1 31 431 431 434 111 121 12t 110 Ilb i ii i IK 177 204 20* 214 V3S 434 477 477 112 110 !! t 12* IK 4 4 4 ! 215 231 2*7 97 6 97 3 97 | 7 9 127 1 2* 125 1 30 IK 274 7.1 130 4'K 24* 4.2 127 4 2t2 431 125 *K 32* 4.3 130 4 332 435 124 3 344 4 5 124 4K in 935 124 5 377 4* 129 4K 3*4 435 125 5'K 349 7 12* 4K 400 1.5 124 SK 43* 19 124 4K 440 435 130 A 452 tit 1 27 5 4*0 u 127 * 510 0 129 s. 5i SK SK SK 500 SI] 541 *05 Its 907 907 M 434 434 134. * 130 . * 127 * 124 * 134 * 1S4 *21 *74 722 441 0 4.0 0 4.1 1 13! 132 134 13* 137 * 11 IK 1 244 7t.O 14.2 797 1U 24 414 24 I IK 1 44J 4.0 s1 5JJ 4.4 IK 1 4IJ ii.i t 727 157 4 4 is.- . r fc, *r -ff -M OS 'Jtm- *44 10 It -"M u*4 1 4.4 44 1 104 44 137 5.1 tVb 102 0.1 IK 114 'Vb 125 l Vb 133 lib 153 40.4 40.4 404 41.0 'lb 17 1 Vb 201 1 Vb 223 i!b 244 lib 241 40.4 40.4 404 04 404 too 104 101 10 104 105 104 10 to* no 114 101 103 104 103 104 104 107 104 104 104 1 43.0 4.0 120 1 754 4.4 ' 121 1 79J 47 1 121 1 101 4.3 134 ' H02 t7.l ! 124 i 114 34 131 i 105 '.1 134 1 140 4.3 117 ' 141 1 .240 IK 207 IK 214 !. 4.4 t.4 1.1 1 131 i 144 1124 ! 121 IK 244 IK 273 IK 792 IK lit 2.4 127 30 i in 1.1 137 37 : 124 IK 341 ,93.0 132 IK 441 1 >.o 133 IK 492 3.0 134 IK 541 'i.i 1 t 34 IK 442 3.1 135 1 104 4.1 147 IK 1.2 404 124 ` IK IK 107 414 121 1 2 IK 120 42.3 117 1 2 IK 135 IK 154 IK in IK 202 IK 14f IK 217 2 .270 2 102 42.4 1.0 44.0 437 27 94J3 434 435 111 2 134 2 127 2 140 1 2 147 | 2 144 133 i i I'KK 134 . IK 2 [111 2 1344 2 ni 2 1451 2 ;5!5 2 574 2 <44Q 2K 54 2K 440 454 45.4 it 5.4 135 ' IK 134 1 >37 1 IK 134 1 IK 57 54 5,4 35 7.0 143 , 3 144 3 147 3 135 i 13* 3 124 145 114 1*0 41.* 13* XI , 141 430 127 434 US 2. 2 2K1 2K 14* 1** 174 itt 931 447 934 931 134 141 | ud! 135 2 IK IK 3 15* itt 200 250 1.2 433 434 937 Ilb 111 112 1411 2K 2K 2K 2K 207 221 217 293 4J 937 47.1 7.0 143 l us 134 147 3 3 3 3 293 , 431 144 2 299 7.1 137 IK 394 4.1 117 1 147 n* 140 IK 337 if lit 2 403 147 IK 175 97JO 141 IK 344 33 135 IK 344 77 140 2K 422 33 137 4 411 977 143 2K 411 933 130 4 442 97.2 14* IK 504 933 140 4 5*3 77 149 IK 571 33 143 4 541 77 140 3V* *42 u 147 4K *0* 77 141 4 *42 35 140 4i* *71 977 142 4 707 3* 142' 5 713 977 144 4 777 3* 142 5 470 977 147 4 03 3* 144 5 174 4.2 175 95 5 194 959 211 * 5 212 230 2** 31* 6 9 97 1 7.4 7 5 335 34* 430 471 97 9 9*0 912 91.2 474 513 5*3 *42 9* 4 94 5 94 5 91 5 *47 714 724 440 22 91.7 9* 7 9 * 9| 9 91.9 149 134 <41 137 134 140 139 l 47 < 40 145 1 47 144 142 143 1 44 14* 1 44 <45 1 40 143 143 a Surface temoeretwrei Kerle-Kled will be higher 4v* re the e*rsJ*ifT ef the elwml* nun teefcet. Thu will very with emeient temperetwre rhicfcnees et imi lei tee use*. Hewever, the thifl edkieecy ef the eeeJicetiee will he ire*#4 OWCNS-CORNING FltCRGLAS COUP J7 001 2256 KAYLO-20 pipe Insulation high temperature Insulation tnd fireproofing for Indoor tnd outdoor piping tp to ISOO F ^J-^ operating temperature < Kaylo*-20 Insulation, colored pink for identification, a high-temperature calcium silicate heat insulation manufactured by Owens-Coming Fibergias ertends the range of Kaylo Heat Insulation to include tem peratures up to 1800 F with ail the properties of moisture resistance and high strength of standard Kaylo material. It also may be used with outer layers of Fiberglas Pipe Insulation to provide ulti mate balance of cost and efficiency. Kaylo-20 Insulation is highly dimensionally stable at the temperatures for which it is designed. Resist ance of this insulation to high temperatures makes it extremely useful for protecting fluids in the pipe in case of fire. sizes fhlcfcneat--Kaylo-20 Pipe Insulation is available in thicknesses from 1' to 3' depending upon pipe size. Kaylo-20 Tube Insulation is available in thicknesses of 1" and 1H*. pipe tiiat--Kaylo-20 Pipe Insulation is available to fit pipe from 4' to 39' in diameter. Kaylo-20 Tube Insulation in copper tubing sizes will fit tubing from 4' to 3*'. farm*--Kaylo-20 Pipe Insulation is available in sec tional or multi-segmental form depending upon pipe size. All insulation is furnished in 3' sections. jackets canvas--Standard canvas jackets are provided at no additional charge with Kaylo-20 Sectional Pipe and Tube Insulation on thicknesses up to and including 24'. Standard canvas is available for segmental forms at a slight additional eost. Bands are avail able for use with this product at a small additional charge and will be shipped only on request. 6 or. and 8 ox. canvas jackets are available on all types, sizes and thicknesses of Kaylo-20 Pipe Insula tion at additional charge. These jackets are factory applied on sectional pipe and tube insulation. On multi-segmental insulation, they are furnished but not adhered. Kaylo Klad locks out the weather, protects the insu lation and provides a maintenance free line and at tractive finished appearance. Factory applied jack ets of .016 embossed aluminum and .010 stainless steel have longitudinal interlocking seams and joint bands with integral mastic permitting application of insulation and weather proofing at the same time and reducing application costs. limitations Kaylo-20 material is designed for temperatures up to 1800 F. It should not be used when operating tem peratures of piping exceed this limit. T. M. OvoA*C*nifA Plfeortlai Cere. it till* low . TT#' J . --- hyslcal properties -- ' >i*r ' eperexleatWy it W pv ft ----------- ml rtumSs (ASTM C-2CS) . . 0 da. per t*. la. thre Wrsffc' (ASTM C-tt5) (SO do. pm n. ia. at 3% . ^ fflataaslaaal sMMkyi Swear ihrinkoge after booties ter 24 bavn 1 at 1in20o0 rt_.._._._._._._._._._._07% - iflltue to ^rufaai (eamanflonal rvabflag teat Ten la Weight after 10 Bin.) before baaMef................ ,,....................................... ]% after booting far 24 boon at 1200 F .............................. ............................2% at 1100 F .................................. .......................20% adafWtyt pb V) 'werk(s teiwsei afrai op to 1H0 F - - -- - -- Fhnkol pnpartlti teecHk baati 0.22 **/1 fc*. F. ---------- tberaal 4l(fvvftyt OjOlt W. fL per br. at 200 F Bean < ( i . 41001) recommended thicknessest These are average figures and may be adjusted to meet special conditions encountered on specific jobs. Kavlo heat loss data is available for use where plant operating economies and other condi tions demand greater insulation thicknesses. De sign surface temperatures are approx. 150 F. < H 194 Km iiH E at* kr~ A m iw K! 1100 1300 22 V** : 3 VS 2 vs 2 VS 3 2'A 3 3 3 ,! 3 3 3 i > VS 2VS 3 VS 2 VS 3 VS 34 VS 4 3VS ,| 4 4 4 , * VS 4 V* 4'A 4* 5 tVS 3 33 3 3 VS 3 34 1400 3 3 3 3 31S 3VS 3VS 3 VS 4 4 tvs tvs tvs 3 5 3VS 3VS 4 * 1400 3 3 3 svs 3VS 3 VS 4 4 4 4 tlA tvs 3 3 svs 4 4 tvs tvs isao svs 3 VS 3 VS SVS SIS 4 4 4 tvs tvs s 3 svs svs 4 tvs tvs 7 T ltoo 1700 svs 4 svs 4 s4vs 4 tvs 4 tvs 4 tvs tvs 3 tvs 3 3 svs 3 svs svs 4 svs 4 4 svs 4 tvs tvs 7 7 TVS 7 TVS TVS TVS 1400 4 4 tvs s s svs svs 4 4 t4v'/si 7 7 T1VS svs tvs t Nr trwo ocomoini< HtickftOM. nNMit O-C "CcoooioU TkScfcnott Monwoi ' 1 1 thet coui'l. 17 001 2257 insulation thickness standards-- Kaylo and Kaylo*20 pipe insulations to 1800 F torr '.y 0~xi. dhwfCf m L iff* 1C* . p--t MNOI IN' 1 | | | MBA* Jrt5* _ 1.19 i.ll 1.99 .99 1.17 I.U 1.17 .91 .It .91 O.D. 1 and aa. CM 1 CM 2.M 2.9S CM ! S.M 1 4.M l 4.SS j| CM 1 1.49 1-42 t St I.U 1.42 I4S I.U 1.41 i iI..Un CM CM IN IN 4.M CM CM CM CM CM Fadaral Specification Compliant* HH-I-523s Insuistion Block Pipe Covering snd Ce ment, Thermal, Calcium Silicate (For Temperature* up to 1200 F) elaaa 11 (pipe covering). MIL-I-2781C Initiation Pipe Covering, Thermal, Grade I Clau B, Grade II Claaa D, Grade III Clast E. For Applicable Specifications refer to Page 19. not*: IfUvlatiofM for tvdin titet otteor f*en tltndord litet lkn ere Odie eetr as cu'-eown* from n* larger ,,go irde or e>ee end HifOtlT OH.OtfCOl *..i key !- Iren pip# ixai copper tubing II i 'Inner Layer Oi "Outer Layer ilwfld tapper eaty adhlflo lay or <ocommoed>d <*NdionM ** %* 1- IVfc* f W f *** 4** 11* If IP. Si- 17* If Sf 08* 13 r *M 1.M ^CJi W -224: ectued 0.0. ^ectual 0.0. ctyp 0.0. i ortial OJ, 03. Oi Oi 04 Oi CM I.M CM t.m IP I.U CM l.M I.U AM I.U 4.M I.S7 CM 1,17 l.M l.M I.U l.M CM 4JI L CM l.M Lit 40 l.M LN CM l.M 2.12 CM CM CM 7.M CM CM LM 2.71 J.M CM ta CM 2.12 7.M CS7 7.M CM CM CM 7.M *tl r*i Ml l**tf* r`i'*it`i CM CIS T.M CM Ml '*xl 1 XI S XI hSl M>11l1l^'/* *I *M*11l!'''*t* 4 If* CM CM 7.M CM 7.M CM IVtll IVfcBt S'*xIIl 3l'**ifl * I 3' ill 3' ill1 iVblf* 44l*1*i*IlC'"* 7.U C12 CM 1ST CM CM CM CM l.M CM IC7I 2 it 2 II ' 42'M*till. 4 If* 2,/iil I 4'*If* 3 if SI MiXlII':'> 5I1**II1If1 * xf* 2 if* I2**i*fi*'t $i xtni*f/'**t 7 !** '*f* S**x2 >xf* **12 I if* 4 12 l*Xf* 4i*',li2r 4'*l2 li ra1-, t3Mxi2ef** 1i! 7U i! 4**Xl IIll'M*m>s22223 4 1 2 **22 2V*2 7 i2 3 *2 7Il'*iii2*l /,U 4`ytr. M2 4Vfl2- , SIf*imtt22ff',, II'rtJ: ; 2i2',tU*2: i ?3 1122', 7S,i*22' , I *2' i ' *2' , I >2* t M2' * i2'< II'ox*l?222'` ,iI, *' *2' i 7-'*U- 2 13 , 27 ',i122`**, <3 122' ,, | *2'i 3I ,ii22'`,, ,3 7 7 `it3i iJ l i3 7 i) I'eii 7 i3 I' U3 2 13 I 13 2' ,13 f J 3 3 3 >3 3' i3 IS .3 CM 7.M CM CM CM CllCM IC7S 4 I It XI 4 4 II | l'V 4 7 if* if* 4 If* 7 i3 4 i2 III 4 i2 a *: 4I 1*22`-,i 4 (3 IQ .3 l.M 7.M l.M i n 7.M 142 M CM l.M I.U I.U CM CM S.M IC7S 11.71 CM CM US CM CSS S.M CM IC7I II.7S ICSI CM i IC7S CM ! IC7I CU ^7 CSS ICSI CM I4.M CM CM LIS CIS 11.71 11.71 test I4.M ICM 4*l 7I *xlf* 7 if* 4II **XIiXIfl*'f*/**f '4'^ir M2 ip 8I 1i1f* S if* t if* 7 xiv* a11*'/, IS xlV x2 S Xti'I/'*, ! us iP 4'*x2 4I' .1122222 , , *s2j 'i xX122T*, 4|l2', IS 42}'',I IS 12', 4 x2', 141 ',ii33 t i.iS33 11 l2*, 7 i2` * 12 x2'* m2 t <2 i3 7 ij 1I4 iill U 13'^ 15 .3 I.U ICSI CIS ICM ; CM ICM ICM I.M ICM ICM ! LSI ICM CM I7.M l.M ICSS CM ICM "C"U I7.M ICM l.M ICM CM | ICM: css ICM CM ICM 1.42 17.81 i l.M ' ICM 2.42 ICM CM 2CM 1.42 ICM I.U ICM C4I M.M CU 2i.as 1.41 ICM 1.91 ICM ( C4I 2I.M LSI 2CM 1.41 > 2S.SS i.ai 21.M | 2.41 ZCM LSI 1.41 21.M in 2CM ! 2.41 2CSS 2,*l 24.M 1.41 I.SI ICM ! C4I M.M Cll 2CS0 I if* 12 if* a* IS if* 14 xlVi ip 11 US 15 if* a* 12 if* IS il't avi 14 il'a 17 if* IS il'* I II j,,. IS Il'/a IS iPIS if/* i IS ts it*/* l ts a'1I? 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SO looolefioo for tfco ooainol >oo liiot /onto of 23"-3V ia fwmiidod threo K-Sof- *on*el n/rwtwro nw. Aaeroa otefeiT an ft oi*M ere /oewirod to oKloao d'de* in tdia ,io reofO- 7ho teat aotwonf eoel*dd ewtt do cot te St eccoieteiT. loner do*tem oioidod KSofontel *ixe fer preger noottne. K-SepMMNtel NowmIomi Letter la. Oi^ 7S.00* 11.0034.00* 0. 04a. 31.00' 34.0041.00* Appros. Outer Art 14' IS IS* 001 22-S8 OWINl-CORNING FIXEXGLAS CORP. Fibkrglas blanket type pipe Insulation for large high pressure steam llnest up to 1000 F operating temp. ( ( Fibergies Blanket Type Insulation consist* of Fiber?!** Wool faced on one ode with wire mesh. This strong wire mesh, secured to the insulation by asbestos or metal yarn ties, is fabricated to the right length to At the specified pipe size. Selvages provided along the edges of the blanket for long Tasting, easy application are fabricated from heavy-gauge sheet metal. Folded twice and crimped about the cut ends of the wire, the selvages form a \ inch wide metal edge for tying blanket together about pipe. Low "k" of this insulating material averages 0.39 Btu/(hr.) (sq. ft.) (F/in.) at 300 F mean temperature. Fibergla* Blanket Type Pipe Insulation offers the perfect solution to the insulation problems of many nigh pressure steam lines operating at temperatures up to 1000 F. Its flexible inner surface combined with its high thermal effieiencv makes it ideal for insulating pipes of irregular shape and dimension. Incombustible blanket type pipe insulation reduces fire danger under normal operating conditions. ( sift irn pip*--3' to 36* in diameter in blanket lengths 12* through 138U * in H" increments depending upon pipe size wietfct--24' nominal blanket width applies thickness--1', 1 Vs *, 2', 2H *, 3' and 4' finishes sheet metal (octet:--Both indoor and outdoor piping applications of Fibergias Blanket Type Insulation are recommended finished with sheet metal. Jacket seams are lapped 2 inches for weather protection and secured in place with sheet metal screws on 6inch centers. An alternate method for securing the seams is the use of 4 inch galvanized or stain less steel metal bands. A sheet metal screw attached at each lap of jacket sections will prevent slippage on vertical runs of pipe. limitations Fibergias Blanket Type Pipe Insulation should not be used on piping where operating temperatures exceed 1000 F. It should be adequately protected in locations where it is subject to mechanical abuse or weather ing. All values given are subject to normal manufac turing and testing tolerances. 001 2251124 If i the low fhnt count rn pip insulations to 1000 F recommended thicknesses* The table below ia designed to serve as a guide to recom mended thicknesses of Fiberglas Blanket Type Pipe Insula tion. Thicknesses are recommended for temperatures up to 1000 F and for various pipe size ranges from 3 inches to 12 inches and up. Recommended thicknesses determined by allowable surface temperature differences. "selgeV agmsaa sat eaa aat seaaa MUMS pipe User (tadws) *-v. ! A-to Head Up ii t 1 vs tv* IV* IV* 2 2 Ml *M sat se raa 2 3 J'A IV* 9 IV* rai seaaa JVt 4 5 aat seaaa 4 S * sat se >aaa 1 4 TV* I * Th# tkicfcnosMH *rt nKowundfiom. Tr oca* *<*< thickness con no* too cicvi0'4 aunkty oiM Msily pf toilowmf th* rs'ooi orovitlod <n ** now Fifcorfioi 0<<non< Enflmoorinf "((**>< Thick- oj Moftvoi.'* This li ovoilotio irvnt rwr local ^iboffios branch otKco. application dotails specification applicable specification HH-I-552 Iniwlotien Tipe Covering, Theraol. and Inivlet.en llonttl, Thnrmal, tie* Covering Type II 1. Insulating materials All piping 3 inches in diameter and over, where noted on the drawings or listed in the schedules, shaii be insu lated to the thickness shown in the table with Fibergias Blanket Typ Pip* Insulation, aa manufactured by 0 ensCorning Fiberglas Corporation. (Add 4* to ail thick nesses for all lines located outdoors.) 2. Application Fiberglas Blanket Type Pipe Insulation shall be applied over clean dry surfaces with all edge* tightly fitted to gether. The longitudinal selvage edges shall be banded, laced or tied together with 16 ga. galvanized soft snneaied wire. Flsnges, valves and fittings shall be insulated with blanket-type pipe insulation of thiekneas equal to that on adjacent piping. It shall be formed to fit and cut where required. All cut edges shall be laced together with 16 ga. galvanized soft annealed wire. 3. Surface finish The finish for outdoor piping shall be s 28 gauge gal vanized sheet metal jacket. Seams shall be lapped 2 inches against the weather and secured in place with sheet metal screws on 6-inch centers or lA inch galvanized metal bands, on not over 12-inch centers. Vertical runs of pipe shall have a sheet metal screw attached st all laps be tween sections of jacket to prevent slippage. All insulation on flanges, valves and fillings located out doors shall be covered with Foster HI Mastic or equal, reinforced with an open meeh glass fabric. Mastic shall be applied in two coats of sufficient thickness to give a V dry film and shall be troweled neatly over the fitting and lapped over the jacket on the adjacent pipe. Tht foregoing is necessarily general in nature. Application procedure and material approval is at the discretion and responsibility of the design engineer to meet specific job requirements. r *. Slant* Type Pipe Insulation k Installed ever clean dry piping. Slant* k merely wrepaed round pipe. All edges ere lightly Sited legether fur fastening. f. The longitudinal selvage edge* are lied tegether with Me. IS gauge soft-iron galvanises wire. An ekemate method is the me ef a banging real. s7 001 2260 A Oa tends, the selvages ere Med legether en the eetside radius af the bend. The wire mesh en the Inside radius ef the bend k shwlonsd te cenlerm le the cense* ef the pipe. 2OWKNS*COItNINO nstsous coir. UmcK ridtRGLAS -w- -<gBgafrequirements -;- -"i" r - for external application on :.-- `J^JT exposed or concealed ' 'warm air ducts ,,_-7. . adgpcw r^.~^ service * temperature up to 250 F product - tot external application a all oxpotod rouad - and concoalod -- rectangular bet air ducts . " TT up to 250 F flexible duct insulation FOR AIR CONDITIONING AND DUAL SYSTEM * <. - . - ZZ; r*x external application - an exposed or .... --'"concealed dual or cold air ducts . . SF-up to 150 F FF-up to 250 F rigid vapor>seal duct insulation for external application on all concealed and exposed round <old air ducts . !T- f- up to 250 F flexible vapor>seal duct insulation I FOR DUCT LINING, ACOUSTICAL F Tor Internal application on cold and bet air ducts up to 250 F rigid coated duct liner 'for internal application on all rectangular and round cold and hot air conditioning ducts up to 250 F 'Senrita taaparatvrn art for Mm facing and iniulation for Mia raguira- coated flexible duct liner available thickness 4standard sizes I24" x 48" width-- < 24", 36", 48" i length-- 200', 100', 50' i % ", 1" 1 2" I 24"x 48" 48"x 48" 48"' x 72" 4 1" 1 ", 2" width---- ! 24", 36", 48 length-- 100', 50' 1 4 24"x 48" t 1" 1 2" width-- 36", 48" length-- 100', 200', 50' 57 001 2261 INSULATIONS IOR EQUIPMENT roqulr Knwih T~~ service* temperature product available thickness 1 standard 1 sizes Iik hiottd r cooled equipment up to n50 F rigid equipment insulation PF 614-- \ "-4 " PF 615-- 'A "-3" PF 617-- Vj "-2 >/,, " width--24" longth--48' for condsnsors, vaporator kilns and other medium tsmpsraturs equip ment . I for tanks, avont ' and other high temperature equipment up to 4 50 F up to 1 300 F V', 1", 1 1 % ", 2" widths--6", 1 longth--36' 1 "-6" in 'h " increments widths-- 12" to 24" longth-- 24" to 96" "for vary high temperature . equipment up to 11100 F Kaylo A Kayla 20 block insulation 1", 1 'h", 2", 2'h", 3", 3 '/t", 4" widths--3", 6 12"& 18" length-- 18"& 36" *tartca loaiiMiuturas m* 0*r Pm jackal and iniuletian (or roqviro- 001 2262 OWENS-CORNIING FIBIRGLAS CORP. f A.I.A. FILE NO. 37-0 PIPE INSULATIONS Where to buy Fiberglas Pipe Insulations Available from authorized distributors located in principal citi*. Consult the yellow paqet of your classified diroclory for their location or call your nearest Fiberglas ranch Office lifted below. Albany, New York Albuquerque, New Mexico Anchorage, Alaska Atlanta, Georgia Baltimore, Maryland Birmingham, Alabama Boise, Idaho Boston, Massachusetts Buffalo, New York Charleston, West Virginio Charlotte, North Carolina Chicogo, Illinois Cincinnati, Ohio Cleveland, Ohio Columbus, Ohio Dallas, Texas Dayton, Ohio Denver, Colorado Dos Moines, Iowa Detroit, Michigan Evansville, Indiana Fort Wayne, Indiana Fresno, California Grand Rapids, Michigan Greenville, South Carolina Hartford, Connecticut Honolulu, Howaii Houston, Texas Indionopolis, Indiana Jacksonville, Florida Kansas City, Missouri Los Angeles, California Louisville, Kentucky Memphis. Tennessee Miami, Florido Milwaukee, Wisconsin Minneapolis, Minnesota Mobile, Alabama Nashville, Tennessee New Orleans, Louisiana New York, New York HE 8-6021 243-4583 BR 5-8344 799-6821 SA 7-0234 Tt 1-2723 2-3102 CE 5-7540 TL 3-4123 01 3-7094 ED 4-6864 RA 6-0102 AV 1-1173 MA 1-6451 HU 6-9418 Rl 1-3982 AX 3-3155 AC 2-3126 AT 8-4273 U 7-8000 HA 5-5124 EA 4635 AD 3-7227 CH 3-3697 CE 9-4279 CH 7-1301 99-5689 JA 6-1851 CL 5-4147 a 5-4188 a 3-7725 RA 3-9781 Mi 7-2588 FA 7-6116 OX 6-3451 01 4-3811 FR 7-1730 HE 2-4411 AL 4-9210 523-2821 n 9-3810 Oklahoma City, Oklahoma JA 8-4468 Omaha, Nebraska 346-2989 Feoria, Illinois PE 4-3232 Philadelphia, Pennsylvania LO 4-3133 Phoenix, Arizona AL 8-4541 Pittsburgh, Pennsylvania AT 1-7191 Portland, Oregon Richmond, Virginia CA 6-3505 a 5-5703 Rochester, New York BR 1-1888 Rock Island, Illinois 788-1190 North Socramento, California WA 2-5467 St. Louis, Missouri Salt Loke City, Utah PA 5-1061 a 9-5247 San Antonio, Texas CA 4-7673 San Bernardino, California TU 8-3496 Son Diego, California CY 7-3751 Son Francisco, California UN 1-4721 Son Jose, California CY 7-9520 Seattle, Washington MA 2-4335 Spokane, Washington KE 5-3575 Syracuse, New York GR 4-4646 Tampo, Florida Toledo, Ohio Washington, D. C 253-0183 248-6741 NA 8-0724 OWENS-COENING FliEIGlAS INTERNATIONAL J. A. GENEtAl OFFICE: Panama, Republic be Panama. Apartada 6711. Phene: 5-1450 MANCH OFFICES: New York It, New York, 717 Fifth Avenue. Pfaxa f-MIO Son Frencitce 7. Calif., 1200 17th Street, Underhill 1-4721 San Juan, P. I., Fint Federal Savings, Condominium, Santwrce, Puarte tice. 723 (444 -t i f F l |PE INSULATIO I B BNS A .I.A . FILE N O . 37 D OWENS-CORNING FIBERGLAS CORPORATION Industrial and ConrioI Construction Materials Division, 717 fifth Naw York 22, N. Y. Control Officos. Tolodo 1, Ohio. Pacific Coost Division, Sonto Coro, Calif- ' J7 001 2263 Fuh. Ne. 1-IN.tJ.e I Prime* le U.S.A. Jenuenr. 1*42
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