Document NGYxyob0ZQ7gBnxkBqmoENyMg
Lead Plumbing Selected For School Laboratories
LIMBING in the chemi
Pcal laboratory and physi cal preparation room of tlie
damage that mav result from embedding pipes directly in concrete or masonry. The
larae new Mount Pleasant
horizontal runs are supported
Regional Senior High School.
continuously on 2\2 in.
Providence. R. 1.. was done
angle irons with hangers
with lead to solve the vexing
shaped to fit the angles.
problem of handling corro
Attention should be given
sive chemical wastes. About
to the heavy weight of lead
1 St it) It. of lead pipe, of which
pipe used in this installation.
some 75 per cent is 2 in. pipe
For chemical wastes greater
neighing 12 11). per ft., has been used in this installation. There are 86 lead stubs and 7 lead stacks: lead bag traps
ADVERTISERS STUDIOS
Mount Pleasant Regional Senior High School.
Pun ii/enre. R. /.. nhere lead is u\ed in the
laboratory plumbing.
wall thickness is natural I \ required than for ordinary wastes since conditions are more rigorous. Minimum
are also being used.
weight of lead pipe lor this purpose should be Lead
Lead serves admirably for chemical wastes, not alone
Industries Association Standard B or M weight, which
because it resists corrosion bv such a variety of modern
may be identified bv the Lead Industries' "Seal of
chemicals, but because it also has flexibility that is abso
Approval .the letters B or M. the diameter and the
lutely essential in am piping system if it is to endure.
manufacturer's name or trade mark stamped on it.
Building movement and settlement are taken up by lead
This pipe weighs:
pipe without damage or strain, an unusual feature in corrosion resistant materials. Furthermore, since joints in lead chemical w astes can be made by lead "burning", making continuous homogeneous runs of lead pipe,
Inside Diameter I nches
l*o
aight per Running r<
Pound'
3 3
(hm<<
4
12
joint troubles may be eliminated. Horizontal runs of lead pipe in the
Providence school were hung in drop ceilings and vertical runs in brick
Since
older is corroded 1>\ main chemicals that do not affect lead all joints in chemical work should he made hv lead "horn ing". Inthis\\a\ nothing hut durable
chases. Lead stubs coming through
lead is presented to the attack of cor-
the concrete doors were encased in sheet iron sleeves. These are excellent
r- -ives. ' The architect for Mount Pleasant
practices that should be followed in
High School is Irvin Gorman, of
all pijiing installations wherever pos
Providence. Plumbing was done hv
sible. as it removes the danger of
C. H. Cronin. Inc., of Boston.
Lead laboratory waste pipes sup ported continuously on 2x2 in. angle irons. suspended on hangers shaped
to ht the angles.
IoTOS BV ADVERTISERS STUDIOS
Lead pipe installed in chase in brick wall of the Moan! Pleasant School.
[2
I'iew showing some of the many lead stubs used to resist corrosive chemi cals and provide flexibility in the
school laboratory plumbing.
L I A? 54 5 j
Lead Covered Columns Feature Garden House Lead Work
Close-up shotting cast lead gut ters. loose-locked, standing seam tool, ornamental rope molding,
anti lent/ crest and tinial.
Detail ol the hand-banana ed lead corering tor the uuuil columns; also shnics leail lead-
erheads. gutters and letidets.
OOD columns covered
Wwith ornamental lead are a distinctive and ingenious feature
pending on the slope. Standing seams are used to loose-lock adja cent roof sheets together. Loose-
(f the suburban garden house
locks are also provided between
-huwn in the accompanying illus
roof sheets and gutter, and be
trations. Lead work for this little
tween roof sheets and ridge at the
building includes, in addition to these lead covered columns, a lead roof, crest and finials. lead gut
PHOTO? MY \V t'R 7
Two hundred-year old lead cistern and statuettes that ornament the
garden pool of the Gelder estate.
crest, providing for expansion and contraction in all directions. The ornamental crest and pine
ters. leaders and leader-heads, and
apple finial which surmount the
other ornamental work which enhances the appearance
roof are of cast lead with a lead rope molding running
.if the house. In the seven years since this work was
around the crest. Lead rope moldings also form the hip
installed rigorous atmospheric conditions, including
joints and the top of the gutter face and leader-heads.
exposure to salt air. encountered along the shores of
The stvle and application of these moldings serve to
Long Island have had little effect on the lead bevond
avoid sharp and severe looking joints and edges and
weathering it to the beautiful gray patina that makes
yet provide an artistic appearance that harmonizes
lead work so valued and admired. Besides the lead
well with the general theme of the construction.
work on the garden house a two hundred-year old
The lead cistern and statuettes are doulih interesting
cistern and ornamental statuettes grace the rear wall
because of their antiquity. Thev were part of an En
of the garden pool.
glish fountain and were made in 1738. as mav he seen
The columns are of wood. 6 ft. 2 in. in height and 8
by the date cast on the front of the cistern. In spite of
in. in diameter, with a hand hammered covering of lead
200 years' service thev are todav in excellent condition
running in a spiral from top to bottom. The spiral band
and remain a tribute to lead's durabilitv and to the
that may be seen in the close-up photograph of the
craftsman who made them. This durabilitv of lead, in
column is made with a leaf design and is augmented bv
addition to its ease of application and remarkabL fine
fleur-de-lis at intervals along the face of the column.
appearance, has been the keynote of lead's use in build
The fleur-de-lis also form the design for the ornamented
ing construction through centuries.
face of the cast lead gutters and is a device that has been used for many years in lead work.
Lerov P. ard was the architect for this garden house which is on the estate of Mr. Irving L. Gelder.
The roof of the garden house is comprised of lead
at Kings Point. L. I. Mrs. Annette Hovt Flanders wa-
sheets 1 ft. 6 in. in width and of varying lengths de-
landscape architect.
[3] LI A25*52
Lead Coverings Add Years
to Lightning Rods
Prevent Flue Gas Corrosion
LKAL) covering is used to protect lightning rod
A s\ stems for chimnevs against the severe corrosion of flue gases as well as against ordinary atmospheric corrosion. In a svstem manufactured by the Building Maintenance Corporation of Milwaukee. is., the entire upper 25 ft. of the conductors is provided with a lead covering so that nothing but durable lead is exposed to the corrosive gases.
Close-up lieu 0 t c h i rn n e where an un 1 cat/cd lisht
nine rati svx
lew uas cm rutled aic ay
hv flltr CU'Cs
there i> nu possibility of exposed metal uilier than irad. According to the manufacturers lead has been I'.,
to be the only metal that satisfactorilv resists the tine gases and this method has been found to increase the life expectancy of their lightning rod svstems from a life of three to five years to greater than the life of the chimney itself. This experience is in keeping with the experience of architects and engineers who frequent I v specify lead for chimney caps and for roofnur and flashing on industrial plants or in industrial areas where corrosive gases are common. Tests of the relati\e durabilitv of metals when exposed in industrial atmospheres, made by a prominent authoritv on corrosion, bear out the experience of users of lead and were reported in LEAD. March, 1931. Reprints of this article will be supplied upon request.
Detailed drawing of upper part of lead-covered lightning rod system showing method of installation.
The air terminals of this svstem are solid copper bars spaced around the chimney head and connected bv a woven copper-wire conductor that runs around the chimney. Two similar conductors lead down from this circuit cable, one on each side of the chimney and fastened to it. to '>* in. star-shaped solid copper ground ing bars buried in the ground. The air terminals, cir cuit cable, and all fittings and down conductors within 25 ft. of the top are completely covered with lead not less than 1 16 in. thick. The lead is monolithically cast on the job to cover all connections and fittings and where joints in the lead covering are necessary they are made by autogenous welding (lead ''burning" ) so
[4]
r.
\
\eu }ead-
meted lightnine rods on r: ir.ine\ pre-
! ious/y dltno
ant'd hv Uehtn i n2 n tier or i si n al un leaded rods had corroded.
\ <>!>' the neic w a son r v
t h e reh \
nt-ccssitnfpd.
LIA25453
lf
Lead Joints for Pneumatic Mail Transportation
pjp practice of using lead calked joints with cast-
Tiron pipe- which for 40 years has proved so successfil in New York Citv's pneumatic mail transportation s tem has been continued in the recently completed li,,k that connects the new Post Office at Church and Ye^ev Sts. with existing lines.
Where once mail transport between central offices lll(| outlying sub-stations was effected by horse-drawn vehicle or. later, bv motor truck, it is now accomplished |,\ means of 8 in. diameter cast-iron pneumatic tubes. Heaw cartridges, often containing as many as 600 letters, course through the tubes easily with a minimum ^peed of 30 miles per hour, propelled by compressed air. In order to eliminate friction as much as possible each pipe length is bored to size on a lathe at the louiulrv and carefully cleaned with kerosene on the j,,b Joint friction is avoided to a large extent bv using a dovetail cut on the inside of the bell matched by another at the end of the spigot. Thus a minimum shoulder results on meshing two ends, the joint space then being calked with lead.
Permanence is a major requisite of such a system. The problem of determining a route through the maze of pipes, tubes, and other conduits in large metropoli tan centers is. at best, verv difficult. In many cases the most feasible right-of-wav is found to be manv feet below the level of the street, sometimes being as far
down as 27 ft. when subway lines and other obstruc tions are encountered. Likewise, it is often necessarv to lav the lines within a few feet of the surface, sub jecting the pipe to the full effect of ground settlement and the pounding of traffic. Consequentlv. as it neces sitates considerable expenditure to excavate for repairs, great care must be taken to insure dependability and durability. The joints between the lengths of pipe must be air-tight at all times and vet flexible, to provide for
Pneumatic mail transportation lines in the new \etc York City Post Office Building, joined
with lead as described in the article.
COURTESY V. 5. PI Pf R
Installation of twin mail lines calked with lead,
running under Barclay Street, .Xew York. V 1 .
underground movement caused bv heavy traffic, sub ways and elevated trains. Calking lead fills these re quirements admirably. Joints made with lead have been used in the New York City svstem since 1898 and have rendered trouble-free service throughout the years.
During this time approximatelv 56 miles of mail transport pipes have been laid under New N ork City. These convevors run in pairs from the Batterv up both the East and U est Side to 126th St., in addition to st.eral crosstown lines, one of which, connecting the Brooklyn Bridge sub-station, being an original line in stalled in 1898. At the present, plans are being made to extend the svstem up to the Bronx and also to the site of the 1939 World's Fair at Flushing Meadow s. L. I.
Installation of the tubes for the new Post Office was made for the New York Mail and Newspaper Transpor tation Co. by the Beaver Engineering and Contracting Co. of New York City.
[5]
LI A25454
Restored Rheims Cathedral Roofed With Lead
LEAD roof has again been employed in the re
A construction of the Rheims Cathedral, at Rheims. France, which is of very great interest to both historians
and architects. The Cathedral is a superb monument
of French art in the middle ages, for which the original
plan was conceived by Jean D'Orbais in 1211. The new
roof replaces one set in 1481 which lasted in good con
dition up to the German bombardment of 1911.
M. Deneux. the architect in charge of the tremendous
project of restoration, naturally insisted that the edi fice be rebuilt in minute and exact detail. This involved the employment of many tons of lead for the roof, the
Interesting pattern formed h\ loose-loehed root sheets and one of the gilded arrives irith the
fleur-de-lis design.
roof crest, and other parts of the
other metals, is nuturallv subject
Cathedral.
to expansion and contraction.
The use of lead for roofing is
For this reason the roof should
indeed international and has
be made up of sheets o( small
been used abroad for centuries.
size which minimize this ten
As far back as 1771 the Acad
dencv and should be loose
emy of Rouen reported on the
locked to adjacent 'beets in or
qualities of lead and emphasized
der to provide in all direction"
its very excellent durability, a
for the expansion and contrac
characteristic which, augmented
tion that mav occur, Nail-
by its beauty, has won high es
should never, under anv eundi
teem for lead in this country.
tion. be driven through the lead
However, to gain the utmost
Therefore, cleats arc used to
advantage from this type of
hold the sheets to the supporting
roof, several precautions should
structure. For more specific and
be taken and care exercised in
detailed information on the in
construction. Lead, as are all
stallation of lead roofing and
Close-up of [hr loose-loehed i or I sheets ni the restored
Rheims Cathedral.
flashing. "A Summarv of Notes on this subject may be obtained from the Lead Industries Asso
ciation upon request.
Lead was also used in making the "lleur-de-lis" crest
that was demolished during the uprising of 1789. M.
Deneux felt that this should certainly be replaced lie-
cause of its historical significance and for architectural
accuracy, as a crest is an essential feature oi this type
of cathedral and serves to break the more or less severe
lines of the ridge.
Lead was used in other parts of the Lathedral. such
as the monumental statues at the base. Over 400 tons
were used in all and. because of its invaluable charac
teristics. insures that this famous and beautiful archi
tectural masterpiece will last through the centuries to
CL. ARCH. PHOT.
.4 general lieu' of the Rheims Cathedral before [he 433 year old lead roof leas demolished in [he
bombardment of 1914.
come. The restoration was made possible by a gilt from the
Rockefellers and was recently dedicated.
[6]
LIA2 5A55
>igi;
White Lead Paint Economical for Interiors
costs represents the items in this manner:
C* =
. where
Cx = final cost per square foot of painting. C,, = cost per gallon of paint. C|d = cost of a day of labor. X,, = square feet of coverage per gallon.
m = square feet covered by one painter in one day of labor.
/ /;// lien uf Hud.on House. Ardsley-on-Hud.on. \. V. Shreve. Lamb and Harmon, architects.
In order to render an example of this let us take two paints. A and B. Paint A costs S2.20 per gallon; B costs SI.50 per gallon. A covers 700 sq. ft.. B 450 sq. ft. per gallon. The cost of labor is $8 per day. while A and B cover 1400 and 1000 sq. ft. per dav. respectively. Hence:
2.20 , 8.00 n,.0(M ,,. .
Cv = X)0 + 1100 = 008M lFinal cost Per SIF fLl
I UK white lead paints were used for the interiors of
PHudson House. Ardsley-on-Hudson. N. A. Shreve. J.umh and Harmon, designers of such famous structures a the Empire State Building, were the architects for these modern apartments. W hite lead was specified for ilii- building, which rises high on a hill alongside the Hudson and commands a superb view of the river, in order to obtain a durable paint surface with no in crease in expense o\er paints of less durable nature, furthermore, in speeifving white lead the architects were assured of a beautiful finish, obtainable in a wide \ariet\ of shades, colors and decorative treatments.
1'ure white lead paints gain the continued good will of apartment owners. Their long life eliminates fre quent repainting w hich is so annex ing and bothersome to tenants. Walls and ceilings painted with white lead nia\ he washed often, removing dust and dirt with no effect other than regaining the original luster and beaut\ of these surfaces. W ashing may be done when tenants are not at home and relieves them of the bother of hav ing their rooms turned upside down for painting. For llie owner this easv washing and the elimination of fre quent repainting saves unneeessarv maintenance.
In respect to painting costs, a very important prob lem when writing specifications, it should be remem bered that the original cost per gallon is not indicative of the final expense. The coverage per gallon and the ease of application are major factors in such considera tions. To gain an accurate view of resultant painting costs the\ should be reduced to a common factor, the cost per square foot. Two items enter into this: cost per square foot of material, and the cost per square fool of labor. A useful formula for computing painting
For B
1.50 8.00 C,= 450 ' 1000 : .01133
Thus it mav be seen that, although A costs 70 cents more per gal., because of its high coverage and spread ing rate it costs .00249 cents less per sq. ft.
By careful examination of painting costs, and by taking advantage of the high coverage and ease of spreading of pure white lead paints, architects are able to render prospective ow ners and builders a paint finish unexcelled in beautv. durahilitv. and economy.
Furthermore, the ultimate cost of painting is the cost per sq. ft. per vear. which is brought to a minimum by the excellent durahilitv of white lead paints.
HA MliKA
One of the interiors of the Hudson House, all oi which were painted with while lead and oil.
[7]
LlA?5<56
V
i
Administration Building oj the Sew York World's Fair of 1939. showing the steel flagpoles and light colored
window shades, painted with lead chromate.
Lead Chromate Paint Gives Protection and Beauty
ASIC lead chromate paint has been used to provide
B a suitable and harmonizing color for decorating the Administration Building of the New York World's Fair. This pigment gives a very beautiful and attractive orange color and the use of lead chromate in this "in ternational orange'' is covered by Government specifica tions.
Lead paints are widely recognized for the superior protection given by them against the ravages of atmos pheric conditions. This applies especially to outside metal structures which must be thoroughly and efficient ly isolated from natural elements which tend to rust or corrode them and in consequence weaken the entire structure.
In painting the two steel flagpoles that grace the front terrace of this building, lead chromate not only serves as an excellent protective coating but also colors these poles to fit in with the modern color scheme.
As the chosen color combination for the Administra tion Building combines white, blue and international orange, the latter color is to be seen in great promi
nence. The colors blend together to give a very pleasing appearance. This combination has been carried out in the entire decoration of the building down to curtains, chairs and window shades. The latter are painted with the orange lead chromate for several reasons. Natural ly. durability and completing the color scheme are two of these. According to the makers of the paint who sup plied the shade manufacturers:
"We used this basic lead chromate for two reasons: first, its dependabilitv in light fast ness; second, its non-bleeding quality w hich is essential in your processing.' In addition to these excellent characteristics of lead chromate paint, there is added that of high visibility. This is advantageously employed in airports where fences and other types of construction barriers are painted this color. Its high visibility should also render it verv useful in painting bridges and highway mark ings. A striking example of lead chromate on a bridge is the Golden Gate Bridge at San Francisco [LEAD. July. 1937],
Companies licensed to use the "Lead Industries' Seal of Approval" on calking lead as of Dec. 28. 1987:
Ame r ic an Le a d Co r p. An d r ew s Le a d Co ., In c . Bu n k e r Hil l & Su l l iv a n Min in g & Co n c e n t r a t in g Co. Ca mb r id g e Sme l t in g Co . Th e Ea c l e-Pic h e r Le a d Co . Fe d e r a t e d Me t a l s Div is io n o f Ame r ic a n Sme l t in g &
Re f in in g Co . Ge o r g ia Le ad Co .
Gib s o n & Pr ic e Co .
In t er n at io n al Sme l t in g & Re f in in g Co . Ka n s a s Cit y Sme l t in g Co . Mo r r is P. Kir k & So n , In c .
Jo h n T. Le w is & Br o s . Co . Ma r k s Lis s b er g er & So n , In c . Ma s t er Me t a l s , In c . Me t a l s Re f in in g Co . . Na t io n al Le a d Co . No r t h w e s t Le a d Co . No r t h -We s t e r n Me t al Ma n u f ac t u r in g Co .. In c . Ro c h e s t er Le a d Wo r k s , In c . Sil v e r s t e in & Pin s o f . In c . Un it e d Ame r ic a n Me t a l s Co r p. Wh it e Me t a l Ro l l in g & St a mpin g Co r p.
UPON REQUEST, THE LEAD INDUSTRIES ASSOCIATION WILL BE GLAD TO MAIL "LEAD" REGULARLY. FREE OF CHARGE, TO THOSE INTERESTED, AND WILL COOPERATE, WITHOUT OBLIGATION. IN THE
SOLUTION OF YOUR LEAD PROBLEMS
L 1 A2 5457
PR! NTLD IN U.S.A. B' PUBLISHERS PRINTING
NEW YORK CITY
