Document zQ52ea2YRbKM9oJympbLpQ5mB

ijOO llorlh Lindbergh Blvd. ,, , ?. ....,St. Louis 66, iViissovr CHEMICAL SPECIALT I E S DATA REPORT The Information in thin report wns compiled to nsiint you in your evaluation and development of npeciAl uses (or Monsanto produets. livery effort has been mnde to include pertinent material bearing on the subject. This information is intended to guide your development work, but Monsanto cannot tike part in the specific formulation or evaluation of any (Inched product... since knowledge of such should be reserved to yourself and is often your moat valuable trade secret No. Date CS-18 November, 1963 1^ R AROCLOR COMPOUNDS Unique Property-Improving Additives . . , for wax formulations, . . , for investment castings waxes, . . , for binding matrices for powdered glass and metals The Aroclor compounds are a series of utterly inert, highly stable, low cost "sirups" and resins that are compatible with an exceptionally wide variety of organic systems, including the various commercial waxes. The Aroclor compounds range from thin liquids to hard, crystal-like resins. They are mutually compatible in all proportions. They can im part a most amazing variety of physical effects to a particular kind of formulation. They possess -- and impart to formulations containing ' them -- great resistance to chemical attack, to heat degradation, to oxidation. Because of their physical inertness, Aroclor compounds en able wax compounders to "custom-build" formulations and virtually to "tailor precisely" the characteristics of wax (as well as asphalt, resin, and gum) products for specific applications. Chemically, the Aroclor compounds di- and poly-phenyl molecules that have been chlorinated to provide a definite per-cent-by-weight of inert, bound chlorine in each Aroclor compound. Physically, they range in ^Aroclor is a trademark of Monsanto Chemical Company for its chlorinated aromatic hydrocarbons and their derivatives, including chlorinated di phenyl. Reg U. S. Pat, Office. t 0629479 The information in thia bulletin it, lo our boat knowledge, true and accural*, but all recommendation* or Miggedion* aro mad* without Kuerjnlr*. Mine* tha condition* of'in* aro beyond our control. Th* Monoanto Chemical Company riklaim any liability incurred in connection with tho uo of thea data or turfediooi. Furthermore, nothing contained herein ahall b* construed at rwceo- mendnlion to we any product in conflict with existing patent* covering any material or its uh*. . . ao WATER PCB-00034791 t-m and appearance from Aroclor 1221, a mobile oily liquid, to .Aroclor 5460, hard transparent resin. Intermediate Aroclor compounds include viscous fluids and soft resinous solids. The Aroclor compounds are impervious to moisture, acids and alkalis; they are extremely heat stable and will not support combustion. This report describes some of the values of Aroclor compounds when added to commercial waxes; in investment casting waxes and in binder formulations for making powdered gla'ss and metal products , HOW AROCLOR ADDITIVES FUNCTION IN WAX, BINDER, AND SEA LAN? FORMULATIONS The aroclor compounds serve a variety of uses; primarily as a physical property modifier and performance improver. When put into formulations, Aroclor com* pounds can be depended upon to impart chemical.and oxidation resistance; to increase fire-resistance and often, to lower the cost of the finished product. They have various unique properties, such as high boiling points, no flash points, and will volatilize in "fired compositions" without burning or ashing. Aroclor compounds are compatible with a wide range of natural waxes such as Carnauba. By blending these expensive waxes with Aroclor resins, properties can be improved although raw material costs are lowered. ^.,WHen"GfciTde<i with waxes used to formulate. caStii-ig waxl ' Aroclor compounds help..impart-to the'finished formulation a. npmber of- desirable properties; J^iiarduess without-bTittleniiss;"fcsistance,to-shrinkageifsharp definition; sharp___ me)'i ng.point^and'firtf T'tidisfarice, Waxes formulated with Aroclor resins are * ~JulKnoh, tacky;and,hishlyr.stab1 e-. ' Aroclor-containing waxes are widely used in making dental castings, yj.'Vhei!/ precision- casting of aircraft parts;-,'-and-for "casting' costume jewelry. Aroclor 1<!54, 4465, and^ 160 are the ones most frequently*used, the proportions (as described later) depending upon the properties required in the finished wax. WHY AROCLOR COMPOUNDS ARE VALUABLE ADDITIVES FOR WAX AND . BINDER FORMULATIONS Aroclor compounds span a wide range of physical properties. Over the series, the properties vary in a regular gradient. The properties that make the Aroclor series so valuable as additives for wax or binders for powdered materials are' Chemical Resistance: Aroclor compounds are remarkably ^ 1 resistant to either alkaline or acid hydrolysis. Boiling Chemical Specialties Data Report CS Page 2 obZ^eo WATER PCB-00034792 with sodium hydroxide solution or sulfuric acid produces no hydrogen chloride in experiments designed to test the stability of typical Aroclor compounds Prolonged heating of an Aroclor in a closed system even ^ at 600 F, produces no decomposition. Oxidative Resistance: Bomb tests at 140C- in oxygen pressure of 240 psi fails to develop acidity or sludge - demonstrating the remarkable inertness of Aroclor compounds. ' Adhesion: Aroclor compounds contribute excellent adhesive properties to formulations used as coatings. This is im portant in glass or metal formulations that are subsequently fired to volatilize away the carrier portion (wax-Aroclor). . Flame-Retardancy: With their high chlorine content, Aroclor compounds contribute "built-in" fire resistance to any formulation into which they are incorporated. Volatilization Without Ashing: Investment wax castings, marking inks, and powdered metal binder formulations are used in processes that ultimately require firing It is extremely important that such formulations volatilize without residual ash or undesirable residues interfere with color or subsequent processing. Melting Point; The melt point of the individual Aroclor com pound varies in a regular gradient over the entire series. This gives a formulator a wide choice for picking the Aroclor , (or Aroclor combination) that fits his requirement. The individual melting points are listed in the table of properties. Compatibility: K.ffdlGF:'b6MpbundS''ars;.c.ompatib_lefW.tna!;wide.v ^5>iEig!iy3iPf<'?T?itlS'Utilized in' special formulations. This property enables researchers to blend and homogenize other mutually . incompatible materials into a stable composition. For practical . use, Aroclor compounds are compatible with the following: . ,` . . ; rgET-Asphalt---^ ( '^Benzyl. CelTuTSs? . 'g.Carnauba Wax* ___..... . ^Cellulose AcefatttJ'Bitytlif8 Rubber Chemical Specialties Data Report CS-18...................................................... Page 3 0629461 WATER PCB-00034793 JPCoumarone-indene Resina ) . Dammar Resin '; ' Ester Gum , Ethyl Cellulose , Epoxy Resins . . K i/Manilla Gum ' Nitrocellulose \ : Paraffin Phenolic Resins . Polyester Resins Polyethylene , Polystyrene Resins ' Polyisobutylene | Polyurethanes ' ; Polyvinyl Acetate j Polyvinyl Chloride andPolyvinyl Butyral . : Polyvinylidene Chloride I Rosin .Rubber . Styrene Butadiene Co-polymers XV, Vinyl Resins USE OF AROCLOR COMPOUNDS IN WAX POLISHES Blends of inexpensive waxes in Aroclor have been used successfully to replace ' a portion of expensive carnauba wax. * The following characteristic properties are necessary for a good carnauba wax substitute: ' Hardness or penetration value should be at least equal to that of natural wax. : . Texture should be homogeneous, preferably non-crystalline and somewhat: brittle. Melting point should be similar to natural wax and the setting point should be within 6C. of this point (to avoid protracted cooling phenomena). '. Performance must duplicate that of natural wax; especially in the working characteristics needed for the particular end-use application, - v See Carnauba Wax Substitutes by G. W. Wood (Maxwaxa, JLtd.), Manufacturing Perfumer, 1948, Vol. XIX. Chemical Specialties Data Report CS-18.................................................... ......................Page 4 0629482 WATER PCB-00034794 Composition 8) \ Aroclor 1268 Aroclor 1242 Carnauba wax Ceresin Aroclor 5460 Aroclor 1242 9) Ouricury wax Ceresin . Paraffin Parts by Weight 35. 0) 5. 0) 50. 0) 10. 0) 30. 0) 5. 0) 30. 0) 20. 0) 15. 0) Color Texture Softening Point : Cream Smooth; carnauba ringed surface 80. 5C. Light buff Very, smooth, hard 60C. Melting Point 88C. 78. 5C. Note that a liquid, plasticizing type Aroclor (1242) is mixed with a resinous or solid type Aroclor (1268 or 5460) in the above blends. This combining technique insures the compatibility of the solid Aroclor compounds with the wax and increases the solubility of the blend in such inexpensive solvents as mineral spirits. - Some suggested wax polish formulations, based upon the above compositions are the following: . ' Household Polish Composition Parts by weight Composition No. 5 (Table I)............. Natural ozokerite..................................... Paraffin, hard..................-........................ Mineral spirits....................................... 1 3 26 70 Characteristics. This is a smooth, soft paste possessing very good polishing properties on wood and linoleum. Car Polish Composition Parts by weight Composition No. 5 (Table 1 )....... Candelilla wax................. Natural ozokerite..................... ................... Mineral spirits............................................' 15 2 3 80 Characteristics. This is a smooth paste possessing good polishing properties on all automobile paints and on leather upholstery. 0629463 Chemical Specialties Data Report CS-18 Page 6 WATER PCB-00034795 Car Polish (Ouricury) Composition Parts by weight Wax blend (as prepared above)... Natural ozokerite................................... Paraffin, hard................................ Aroclor 1242............................................. Mineral spirits........................................ - . 8 2 10 5 75 In this formulation, the Aroclor 1242 is dissolved with agitation in the mineral spirits before adding to the molten waxes. It is noteworthy that aluminum stearate should not be used in this composition. Characteristics. The color of this composition is a light brownish-tan similar to polishes made from fatty gray carnauba wax. It has good polishing properties on all types of surfaces. ' USE OF AROCLOR WITH ETHYLENE/VINYL ACETATE The ethylene vinyl acetate copolymer must be plasticized to serve as an effective base for pressure sensitive adhesives. Aroclor compounds are recommended as a plasticizer for this application. Blends of this copolymer withAroclor can be "tackified " with Aroclor products. Following are starting formulations for various applications: - Non-Skid Rug. Backing Composition Parts by weight Ethylene/vinyl acetate copolymer. : Aroclor 1254 -. 50 50 Strong Pressure Sensitive Adhesive Composition Parts by weight Ethylene/vinyl acetate copolymer Aroclor 54.60 . Aroclor 1254 : 30 45 Z5 _ . Chemical Specialties Data Report CS-18 0629484 .... Page 7 WATER PCB-00034796 XU.'Mv pr AROCT..OJV m LNVESTM lli NXCAS T INCA WA X y "Investment Casting," "Lost Wax Process," and "Precision Wax Casting" are terms that refer to the same casting technique in which the properties of the wax are critical. The process is especially useful where castings are made of high melting alloys and when the castings require close tolerance, smooth finish and possess intricate shape! Basically, the pro cess consists of surrounding a wax model with plaster, melting out the ' wax model (hence the name J'lpst wax"), leaving a clean plaster mold that s'--is then used for the metal calting. For the investment process, a wax is required that possesses the follow- ing characteristics: ' , ' , r*Hardness without brittleness {/`Sharp melting point /^Non-tackiness *Low volatility ' '^Stability *Good wax machinability f ^`Non-shrinking ! 'tSharp definition {/'Fire resistance '`Fast setting 1^`Toughness . . Since they are compatible with various natural waxes, Aroclor compounds are widely used in the formulation of investment casting waxes. The ' Aroclor imparts to the finished formulation hardness without brittleness; resistance to shrinkage; sharp definition; sharp melting point; fire resis-' tance; high stability; non-tackiness; and fireability without ashing. Investment casting waxes formulated with Aroclor compounds are widely used in making precision metal parts, dental castings, aircraft parts and custom jewelry. Aroclor compounds 4.&l&,Tl262,.,,4`l 65 T {th<r$460 are most commonly used -- the proportions and particular Aroclor combination selected depend upon the properties required in the finished wax. The usual proportion of Aroclor may vary between 5. 0-60. 0% -- with the balance of the formulation a combination of natural waxes. . AROCLOR COMPOUNDS IN IMPREGNATING COMPOUNDS a) Electrical Hot Melt Impregnants Non-flammability, high resistivity and high dielectric strength with low power factor make resinous Aroclor compounds extremely useful Chemical Specialties Data Report CS-18 0629<r85 . Page 8 WATER PCB-00034797 in the electrical industry. Aroclor 4465 and 5460 arc used in coatings for wire and cable and as impregnants for cotton or asbestos braided insulation. Normally, in this application, they are formulated with natural waxes and phosphate esters to create a balanced formulation. With their high resistance with moisture, Aroclor compounds make excellent sealants for closing the "pores" of carbon resistors, ceramic parts, and to seal electrical bushings and terminals. b) Wood Impr egnant Wood treated with a formulation of 70% Aroclor 4465, 20% micro crystalline wax and 10% sulfur by the vacuum-pressure method is tougher, harder, and more resistant to chemical attack. The residual surface coating is very' resistant to acid and alkali; however; it is attacked by aromatic, aliphatic and chlorinated hydrocarbons. The surface of the treated wood can be painted. The hardness and adhesion of the residual surface coating can be varied by changing the Aroclor-wax sulfur ratios. c) Impregnants and Sealants for Paper, Concrete and Brick . An Aroclor combined with a paraffin or carnauba wax and mixed with mineral or drying oil and synthetic resin produces an excellent im ' pregnant for paper and masonry products. The simplest sealant composition contains an Aroclor compound and paraffin wax. For example, a highly efficient moisture proofing formulation is composed of 96% (weight) of Aroclor 5460 and 4% paraffin (m. p. 54 C. ); it has an ASTM softening point of about 82 C. Substitution of Aroclor 4465 for Aroclor 5460 produced a compound with a softening point of about 58C. A very soft wax composition can - be prepared by mixing 40% Aroclor 1260, 56% Aroclor 5460 and 4% paraffin. Increasing the paraffin content produces a softer material. d) Fabric Impregnant A rot-proof, water-repellent and fire-retardant composition for. olive drab coatings for tents and other canvas items consists of: ' Modified phenol formaldehyde resin Tricresyl phosphate . Chrome orange ! Aroclor 1254 Chlorinated paraffin (42% chlorine) 4% 1.5% . _ 2% 6%* 10% 0629486 Chemical Specialties Data Report CS-18................................................................. Page 9 WATER PCB-00034798 Aroclor 5460 Copper naphthenale (8% copper) Aluminum stearate VM&P naphtha , Iron oxide yellow Ground limestone Ground mica Antimony oxide 4% 8% 0. 5% 40% 7% 8% 3% 6% Inks and the Decorative Arts Marking & Printing Inks. Aroclor 4465 is an excellent resin for compounding marking, rotogravure, and general printing inks. A formulation for mimeograph ink, for example, contains: Aroclor 4465 Lubricating Oil (SUV 1200 @ 100 F. ) Paraffin Oil (SUV 76 @ 100F.) Carbon Black Oil Soluble Dye 40% 35% 20%. 4% 1% Vitreous Producta. In glass decorating processes, Aroclor compounds are used as vehicles for carrying the pigments. ' After the decorations are applied, the glass is fired; the _ Aroclor volatilized without carbonization, avoiding discolor ation of the glass and the decoration.. Aroclor 1254, Aroclor 4465 and Aroclor 5460 are all used in this application. The usual technique involves grinding a low colored glass in a medium of Aroclor 4465 and inorganic pigments along with other carriers. The formulation can be silk-screened or printed on china, bottles, or various kinds of glass containers. . The low-melting glass frit pigment formulated with the Aroclor compound has excellent adhesion. On passing through the high temperature zones of the furnace, the Aroclor volatilizes and the glass frit melts into the higher melting point glass or ceramic material. f) Binders for Powdered Metals, Glass and Ceramics ' The ability of Aroclor compounds to volatilize without ashing makes them excellent binders for.formulations used in metal fusion. Aroclor 4465 and Aroclor 5460 are the materials of choice for such formulations. The high tackiness, oxidation stability, and volatilization without ashing make Aroclor com pounds ideal for compositions used for."forming" powdered metal parts. Chemical Specialties Data Report CS-18 0629467 . Page 10 WATER PCB-00034799 / Dermatology and Toxicology At ordinary temperatures, Aroclor compounds have not presented industrial toxicological problems. Where Aroclor vapors may be encountered in work^ rooms, local exhaust ventilation together with general workroom exhaust is essential. Skin patch tests with a polyvinyl chloride free film plasticized with 11.5% by weight of Aroclor 1254 (about 25% based on the weight of the vinyl resin) and a similar amount of dioctyl phthalate showed that this film was not a primary irritant or a sensitizer. Skin patch tests with Aroclor 1254 alone, applied to gauze and placed in contact with the skin showed no primary irritancy or sensitization. Other skin patch tests using canvas coated with Aroclor 5460 and an oil modified alkyd resin, in such a manner that the Aroclor concentration in the paint film on the fabric was about 17% by weight ; of paint solids and the finished coated fabric contained approximately 7% by ' weight of Aroclor 5460 showed that this painted fabric did not produce a primary irritancy or sensitization of the skin. If Aroclor compounds are spilled on the skin, the skin should be washed in the usual manner with soap solutions. If accidental burns occur from contact with hot Aroclor, the burn should be treated the same as any ordinary burn, Aroclor adhering to the burned area need not be removed immediately unless treatment of the burn demands it, in which case use soap and water or repeated washings with a vegetable oil. . ' Chemical Specialties Data Report CS-18. 0629488 Page 11 WATER PCB-00034800