Castable polyurethane elastomers--serving demanding engineering applications.The design engineer who needs an elastomer elastomer (ĭlăs`təmər), substance having to some extent the elastic properties of natural rubber. The term is sometimes used technically to distinguish synthetic rubbers and rubberlike plastics from natural rubber. for a demanding application has numerous tools to choose from out of the array of modern materials. The choice for a particular application depends upon a number of factors, including the physical properties needed for the task, the stability of the material in the environmental conditions that will be encountered during its service life and the cost-effectiveness of that choice. Castable polyurethane polyurethane Any of a class of very versatile polymers that are made into flexible and rigid foams, fibres, elastomers (elastic polymers), surface coatings, and adhesives. elastomer elastomers have been a steadily growing segment of this array for the last half-century. Although some of their applications are well known to the public (roller skate and skateboard wheels and golf ball covers. for example), the major applications are in industrial uses where properties such as extreme abrasion abrasion /abra·sion/ (ah-bra´zhun) 1. a rubbing or scraping off through unusual or abnormal action; see also planing. 2. a rubbed or scraped area on skin or mucous membrane. resistance, load bearing ability, cut and tear resistance and environmental aging resistance are required. Another important aspect is their processing. These materials are usually processed as a two-part liquid system, which allows the application of many molding techniques and the use of low cost tooling. This article is intended to outline the outstanding properties of these castable polyurethane elastomers and to contrast them with other engineering materials. It is also intended to stimulate investigation into new applications by showing how they are used to solve specific engineering problems. The elastomeric properties of most diene Dienes are hydrocarbons which contain two double bonds. Dienes are intermediate between alkenes and polyenes. Classes Dienes can be divided into three classes:
Comparison with other materials When considering castable polyurethane elastomers for an application, other candidates might be materials such as diene rubbers, metals or plastics. In making comparisons of castable polyurethane elastomers with other candidates for an application, it is useful to highlight some of their attributes. Listed in table 1 are the main advantages of castable polyurethane elastomers compared to the diene rubbers as a group. Some of the main advantages of castable polyurethane elastomers versus diene rubber are higher abrasion resistance, greater cut and tear resistance and higher load bearing ability. In addition, most cast castable polyurethane elastomers have natural colors ranging from completely clear and colorless col·or·less adj. 1. Lacking color. 2. Weak in color; pallid. 3. Lacking animation, variety, or distinction; dull. See Synonyms at dull. to opaque white or amber. Their ready acceptance of a wide variety of pigments and dyes permits coloring ranging from black to brilliant fluorescent colors of all types. This is especially useful in color-coding of parts. A good example is in business machines where rolls and belts can be color-coded so that correct replacement can be easily made. Even when colored black, there is so little pigment in the castable polyurethane elastomer that the compounds do not leave marks on concrete floors, boat hulls or other surfaces. Since castable polyurethane elastomer compounds usually contain no additives that are not tied into the molecular structure, there can be no migration of materials out of the elastomer to de posit on other surfaces. This makes them attractive for applications where they are in contact with finished surfaces. Diene rubbers are subject to ozone cracking, particularly around electrical equipment A piece of electrical equipment is a machine, powered by electricity and usually consists of an enclosure, a variety of electrical components and often a power switch. Examples of Electrical Equipment
adj. 1. Of or relating to an organic compound, especially a fatty acid, containing one or more double or triple bonds between the carbon atoms. 2. Capable of dissolving more of a solute at a given temperature. . The fact that castable polyurethane elastomers are pourable liquids often allows for very inexpensive tooling and makes possible the fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. of very large or complicated parts. Most rubbers when compounded up to 90 or 95A durometer have sacrificed many of their physical properties. On the other hand, castable polyurethane elastomers in the 85 to 95A durometer range are approaching the peak of their properties and give extremely good performance at these hardnesses. Castable polyurethane elastomers are available up to about 75D durometer hardness, and although they begin to resemble hard plastics in this range, still have elastomeric properties. There are castable polyurethane materials that go as high as 85D, but their properties are more like nylon, polyacetal, epoxy epoxy Any of a class of thermosetting polymers, polyethers built up from monomers with an ether group that takes the form of a three-membered epoxide ring. The familiar two-part epoxy adhesives consist of a resin with epoxide rings at the ends of its molecules and a curing and other engineering plastics and they can no longer be considered elastomers. On the other hand, there are extremely soft castable polyurethane elastomer materials, giving hardnesses below zero on the A durometer scale (figure 1). [FIGURE 1 OMITTED] Polyether-based castable polyurethane elastomers are particularly resistant to molds, fungi Fungi (fŭn`jī), kingdom of heterotrophic single-celled, multinucleated, or multicellular organisms, including yeasts, molds, and mushrooms. The organisms live as parasites, symbionts, or saprobes (see saprophyte). and other microorganisms, making them useful in agricultural, sewage treatment Sewage treatment Unit processes used to separate, modify, remove, and destroy objectionable, hazardous, and pathogenic substances carried by wastewater in solution or suspension in order to render the water fit and safe for intended uses. and tropical applications. While ultraviolet resistance of castable polyurethane elastomers in general is good, darkening dark·en v. dark·ened, dark·en·ing, dark·ens v.tr. 1. a. To make dark or darker. b. To give a darker hue to. 2. To fill with sadness; make gloomy. 3. occurs with outdoor exposure. Therefore, for continuous outdoor exposure, dark colors or pigments are often used, sometimes in combination with UV-stabilizer packages. Where light colors must be used and little or no color change can be tolerated, aliphatic aliphatic /al·i·phat·ic/ (al?i-fat´ik) pertaining to any member of one of the two major groups of organic compounds, those with a straight or branched chain structure. al·i·phat·ic adj. diisocyanate-based prepolymers with non-aromatic curatives often are the best choice. Castable polyurethane elastomers, particularly the polyester types, are resistant to swelling and deterioration by oils, greases and other non-polar solvents. Rebound, which relates to energy loss in mechanical cycling, is related to the hysteresis hysteresis (hĭs'tərē`sĭs), phenomenon in which the response of a physical system to an external influence depends not only on the present magnitude of that influence but also on the previous history of the system. properties of the castable polyurethane elastomer. High hysteresis leads to development of heat in dynamic service, and it can range from very low to very high in castable polyurethane elastomers, depending upon the particular structure of the molecule. Finally, the versatility of cast castable polyurethane elastomers is unmatched by any other type of elastomer. It is often possible to modify one property while holding others more or less constant. For example, it is possible to formulate higher durometer elastomers with low rebound, lower durometer materials with high rebound and vice versa VICE VERSA. On the contrary; on opposite sides. . Similarly, it is possible to maximize flex life or tear resistance without sacrificing much compression set over a wide range of hardnesses. These trade-offs often allow fine-tuning of the material for the best service in the application. Advantages versus metals One of the chief advantages of castable polyurethane elastomers versus metal is lighter weight. Parts fabricated fab·ri·cate tr.v. fab·ri·cat·ed, fab·ri·cat·ing, fab·ri·cates 1. To make; create. 2. To construct by combining or assembling diverse, typically standardized parts: from castable polyurethane elastomer weigh far less than metal parts and are much easier to handle and, typically, result in less moving mass when used in machinery. In addition, metal parts tend to generate noise, while castable polyurethane elastomers absorb noise. The reduction of "noise pollution" in the workplace when castable polyurethane elastomers replace metal can often be dramatic. Castable polyurethane elastomers will also outwear metals in many applications and can be easily cast in inexpensive tooling as mentioned earlier. In contrast, making metal parts requires foundry operations, welding welding, process for joining separate pieces of metal in a continuous metallic bond. Cold-pressure welding is accomplished by the application of high pressure at room temperature; forge welding (forging) is done by means of hammering, with the addition of heat. and machining and, as a result, can be very costly, particularly with high hardness alloys. Castable polyurethane elastomers are also corrosion resistant. In many mining operations, corrosive corrosive /cor·ro·sive/ (kor-o´siv) producing gradual destruction, as of a metal by electrochemical reaction or of the tissues by the action of a strong acid or alkali; an agent that so acts. solutions cause rapid deterioration of steel. Wherever there is a combination of abrasion and corrosion at the same time, such as in copper mining slurry pipelines A slurry pipeline is used in mining to transport mineral concentrate from a mineral processing plant near a mine. The concentrate of the ore is mixed with water and then pumped over a long distance to a port where it can be shipped for further processing. , the lifetime of metal parts can be remarkably short. Castable polyurethane elastomers, because they have high resistance to both abrasion and corrosion, outlast out·last tr.v. out·last·ed, out·last·ing, out·lasts To last longer than. outlast Verb to last longer than Verb 1. metal by a large margin in such applications. Some applications, such as cast polyurethane elastomer mining screens, embody all of the advantages described above. Advantages versus plastics Plastics represent another group of materials that are sometimes used in the same types of applications as castable polyurethanes polyurethanes (pŏl'ēy  r`əthānz), group of plastics that may be either thermosetting or thermoplastic. Polyurethane can be made into both flexible and rigid foams. . One
advantage of castable polyurethane elastomers over plastics is that they
are not brittle. Many plastics, particularly in the higher hardnesses,
tend to crack and break under impact and shock loading. Although they
may appear to be similar to plastics upon casual observation, cast
urethanes remain true elastomers, maintaining their high impact
resistance even up to very high hardnesses (about 75D durometer).Urethanes also have elastomeric memory; that is, they can be stretched to substantial elongations and will return to their original dimensions. Most plastics, once they have been stretched beyond a certain yield point, remain permanently stretched. Finally, plastics, as a class, do not have the high abrasion resistance of polyurethanes. Processing of east polyurethane elastomers The liquid state of these materials gives the user the ability to manufacture high performance articles with minimal capital investment in plant, equipment or tooling, since most casting operations are carried out at relatively low temperatures (e.g., room temperature to 120[degrees]C (1248[degrees]F) and ambient or low pressures. Molds may be made inexpensively from many types of materials. Processing of cast polyurethanes consists of mixing two or more liquids, pouring into a mold, curing to a state where the object is self-supporting and can be demolded, then allowing the cure reaction to complete during a post-cure operation. Finishing operations, such as grinding, lathe lathe (lāth), machine tool for holding and turning metal, wood, plastic, or other material against a cutting tool to form a cylindrical product or part. It also drills, bores, polishes, grinds, makes threads, and performs other operations. tooling, etc., if needed, are similar to those performed on other elastomers. Processing operations can be done using hand batching methods, to produce batches ranging from about 300 g (10.6 oz.) to 14 kg (30 lb.) or more, or by using automatic meter-mix machines. Machines are available in sizes that can dispense materials on a continuous basis at rates ranging from less than 100 g (3.5 oz.) per minute to more than 70 kg (150 lb.) per minute. Before the materials can be mixed and cast, however, the two parts [prepolymer and chain-extender (curative curative /cur·a·tive/ (kur´ah-tiv) tending to overcome disease and promote recovery. cu·ra·tive adj. 1. Serving or tending to cure. 2. )] must be prepared for use. This consists of melting each of the two materials (if solid), raising them to the appropriate processing temperature, and degassing degassing (dēgas´ing), adj related to degasification, the process by which dissolved gas is removed from water or other liquid solutions. under vacuum. Vacuum degassing is critical, since prepolymers can contain large amounts of dissolved air and carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. , which, if not removed, will result in bubbles in the finished casting. Often the curative side does not require degassing because of the viscosity and gas solubility solubility Degree to which a substance dissolves in a solvent to make a solution (usually expressed as grams of solute per litre of solvent). Solubility of one fluid (liquid or gas) in another may be complete (totally miscible; e.g. characteristics of many curatives. If the hand batching method is used a second degassing is required to remove air that has been entrained during mixing of prepolymer and curative. The list of available processing techniques is extensive, allowing the fabrication of the most intricate small articles weighing less than a gram (0.04 ounce) to massive items containing 4,000 kg (8,800 lb.) or more of elastomer. Many of these techniques are listed in table 2. Some of them will be familiar to processors of gum rubber stocks, others are specific to liquids. After curing to a self-supporting state in the mold, the part is removed from the mold, and the cure reaction is allowed to complete in an oven. The prepolymer consists of a polyol chain (which can be a polyester, one of two types of a polyether pol·y·e·ther n. A polymer in which the repeating unit contains two carbon atoms linked by an oxygen atom. material or several other structures of various molecular weights) combined with a diisocyanate [usually methylene methylene /meth·y·lene/ (meth?i-len) the bivalent hydrocarbon radical —CH2— or CH2dbond. meth·yl·ene n. bis-diphenyl diisocyanate (MDI (1) (Multiple Document Interface) A Windows function that allows an application to display and lets the user work with more than one document at the same time. ) or toluene diisocyanate Toluene diisocyanate (TDI) is an aromatic diisocyanate. It is produced for reaction with polyols to form polyurethanes. It exists in two isomers, 2,4-TDI (CAS: 584-84-9) and 2,6-TDI (CAS: 91-08-7). (TDI TDI - Transport Driver Interface ), but can also be paraphenylene diisocyanate (PPDI) or an aliphatic] to give a structure with active isocyanate i·so·cy·a·nate n. Any of a family of nitrogenous chemicals that are used in industry and can cause respiratory disorders, especially asthma, if inhaled. functionality on each end. Any polyol can be combined with any diisocyanate to give a prepolymer designed to lead to a specific set of physical properties. This is why prepolymer manufacturers have such extensive lists of products. The curative (chain-extender) is usually a material with hydroxyl hydroxyl /hy·drox·yl/ (hi-drok´sil) the univalent radical OH. hy·drox·yl n. The univalent radical or group OH, a characteristic component of bases, certain acids, phenols, alcohols, carboxylic or amine amine (əmēn`, ăm`ēn): see under amino group. amine Any of a class of nitrogen-containing organic compounds derived, either in principle or in practice, from ammonia (NH3). functionality on each end. When the molder mold·er v. mold·ered, mold·er·ing, mold·ers v.intr. To crumble to dust; disintegrate. v.tr. To cause to crumble. See Synonyms at decay. combines the two materials, the resulting reaction converts the materials to high molecular weight linear polymers. Limitations of east polyurethane elastomers There are three chief limitations of cast polyurethane elastomers. Most common polyurethane elastomers are not high temperature materials. Owing to owing to prep. Because of; on account of: I couldn't attend, owing to illness. owing to prep → debido a, por causa de certain thermoplasticity in their nature, properties tend to fall off at elevated temperatures. Generally speaking, common urethanes are not useful materials under heavy service loads at temperatures above approximately 220-225[degrees]F (105-107[degrees]C). Newer materials, based on PPDI (para-phenylene diisocyanate) have pushed that range higher, however. Another limitation is that all polyurethanes are subject to hydrolysis hydrolysis (hīdrŏl`ĭsĭs), chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. in the presence of moisture and elevated temperatures. The combination of the two factors creates the problem. While at lower temperatures, most cast polyurethane elastomers can withstand continual contact with water for many years; no polyurethane as yet can stand prolonged contact with live steam. In between, there is a wide range of temperature and moisture conditions under which the materials may, or may not, be suitable for use. Newer developments in polyurethane chemistry show promise to push these limits further, however. Lastly, there are certain chemical environments that are unsuitable for polyurethanes. Very strong acids and bases generally are detrimental, as are certain solvents, specifically the aromatic solvents such as toluene toluene (tōl`y  ēn') or methylbenzene (mĕth'əlbĕn`zēn), C7H8 or ketones KetonesPoisonous acidic chemicals produced by the body when fat instead of glucose is burned for energy. Breakdown of fat occurs when not enough insulin is present to channel glucose into body cells. Mentioned in: Diabetic Ketoacidosis, Urinalysis such as MEK Noun 1. MEK - a terrorist organization formed in the 1960s by children of Iranian merchants; sought to counter the Shah of Iran's pro-western policies of modernization and opposition to communism; following a philosophy that mixes Marxism and Islam it now attacks the or acetone acetone (ăs`ĭtōn), dimethyl ketone (dīmĕth`əl kē`tōn), or 2-propanone (prō`pənōn), CH3COCH3 ; and esters esters (esˑ·terz), n.pl organic compounds synthesized from acids and alcohols, typically possessing fruity aromas. such as ethyl acetate ethyl acetate n. A colorless volatile flammable liquid, CH3COOC2H5, used in perfumes, flavorings, lacquers, pharmaceuticals, and rayon and as a general solvent. . (There are many solvents, on the other hand, which urethanes resist very well and are suited for in-contact service. These include many oils and petroleum-based materials). Research continues daily in the castable polyurethane elastomer area. Efforts are fairly evenly divided between improvement in properties (higher temperature service, chemical and environmental resistance, etc.) and improvement in processing (safety, user-friendliness, and new molding methods). Properties Unlike diene rubbers, where properties are modified by extensive compounding of a base material, when a different set of properties is desired with castable polyurethane elastomers, a different prepolymer and/or curative is selected. This is why suppliers of castable polyurethane elastomer materials have a large selection of prepolymers and curatives. For example, Crompton's list of Adiprene and Vibrathane products consists of over 65 standard and an additional 235 special products. How does one approach the selection of the best candidate materials from such a vast array? Some guidelines for selecting castable polyurethanes for demanding applications are shown in tables 3 and 4. Listed are various physical and environmental resistance properties and the types of TDI and MDI prepolymers that have the greatest and the least likelihood of success in applications where these properties are important. This is, of course, only a general guideline. Many other materials are not touched upon, such as the benefits of aliphatic isocyanates in UV light resistance or the outstanding dynamic and hydrolytic hy·drol·y·sis n. Decomposition of a chemical compound by reaction with water, such as the dissociation of a dissolved salt or the catalytic conversion of starch to glucose. resistance properties of PPDI-based materials. There are probably many exceptions to these roles, but they can be useful as a starting point Noun 1. starting point - earliest limiting point terminus a quo commencement, get-go, offset, outset, showtime, starting time, beginning, start, kickoff, first - the time at which something is supposed to begin; "they got an early start"; "she knew from the in considering materials for a given application. Note that the property is sometimes chiefly controlled by the diisocyanate component and sometimes by the polyol component. Other times the correct combination of the two is critical. The first property listed, and one that is of primary interest, is hardness. However, since one can obtain all hardnesses with all six basic types of prepolymer systems, this is not a basis for choice among them. In terms of tensile strength tensile strength Ratio of the maximum load a material can support without fracture when being stretched to the original area of a cross section of the material. When stresses less than the tensile strength are removed, a material completely or partially returns to its , esters have the edge over ether ether, in chemistry ether, any of a number of organic compounds whose molecules contain two hydrocarbon groups joined by single bonds to an oxygen atom. compounds, although all types have very high tensile strength. However, tensile strength is rarely a key engineering property in polyurethane elastomer applications. Since all types of polyurethanes can have high elongation elongation, in astronomy, the angular distance between two points in the sky as measured from a third point. The elongation of a planet is usually measured as the angular distance from the sun to the planet as measured from the earth. and high or low modulus, there is really no basis for choice there. Tear strength is an important property in many applications. Here too, the esters have the advantage over the ethers. The lower cost polypropylene glycol Polypropylene glycol or polypropylene oxide is the polymer of propylene glycol. Chemically it is a polyether. The term polypropylene glycol or PPG is reserved for low to medium range molar mass polymer when the nature of the end-group, which is usually a hydroxyl (PPG PPG Points Per Game (basketball player statistic) PPG Power Play Goals (hockey) PPG Planning Policy Guidance (UK) PPG Programmable Pulse Generator PPG Power Puff Girls ) ethers usually have the lowest tear strength. In terms of compression set, an important property in applications such as hydraulic seals A hydraulic seal is a relatively soft, non-metallic ring captured in a groove or fixed in a combination of rings, forming a seal assembly, to block or separate fluid in reciprocating motion applications. Hydraulic seals are vital in machinery. , the amine-cured TDI compounds, both ethers and esters, tend to have better compression set resistance than diol-cured MDI compounds. Therefore, one might choose a TDI system for the first test compound for an application requiring high compression set resistance. As for rebound, diol-cured MDI ethers have much higher rebound, or resilience, than amine-cured TDI esters. These examples illustrate the two opposite ends of the spectrum. With many other properties, differences usually are not dramatic, but there is frequently a considerable difference and one should always keep this in mind when making choices. As for low temperature properties, MDI ethers have the lowest brittle points and best low temperature cracking resistance. Esters are generally not as suitable for low temperature properties. On the other hand, for high temperature properties, the TDI polymers tend to be better than the MDI polymers. (A certain amount of thermoplasticity that the MDI's typically have sometimes shows up in high temperature properties.) In terms of abrasion resistance, there are two considerations based on the type of abrasion to be encountered. For resistance to sliding abrasion, esters are generally the materials of choice. They perform better than the ethers and much better than the low-cost ethers. On the other hand, for impingement impingement (impinj´m  nt),n the striking or application of excessive pressure to a tissue by food or a prosthesis. abrasion, where particles are striking a surface at a high angle, the high resilience MDI ethers often perform much better than esters and also much better than low cost ethers. Therefore, to make the optimum choice of material, it is necessary to examine the nature of the abrasion mechanism in the particular application being considered. Dynamic heat buildup build·up also build-up n. 1. The act or process of amassing or increasing: a military buildup; a buildup of tension during the strike. 2. due to hysteresis is important in applications such as wheels and tires. Ethers are better than esters in terms of hysteretic hys·ter·e·sis n. pl. hys·ter·e·ses The lagging of an effect behind its cause, as when the change in magnetism of a body lags behind changes in the magnetic field. heat buildup. However, some of the recent low-free monomer monomer (mŏn`əmər): see polymer. monomer Molecule of any of a class of mostly organic compounds that can react with other molecules of the same or other compounds to form very large molecules (polymers). TDI ester materials have excellent heat build-up build·up also build-up n. 1. The act or process of amassing or increasing: a military buildup; a buildup of tension during the strike. 2. characteristics and have narrowed this gap to a large extent. MDI ethers are more resistant to hydrolysis than TDI ethers. Down at the bottom of the list in terms of this property are TDI esters. In this area, there is a significant difference between the two ends of the spectrum. Esters have the edge in solvent resistance, ethers generally are not quite as oil- and solvent-resistant as esters. With respect to heat aging, that is, the permanent loss of properties due to prolonged exposure to high temperatures, esters have the edge over ethers, and PPG ethers are the least resistant. Low hardness formulations are widely used for printing and coating rolls, and TDI esters are the materials of choice because they can tolerate greater loading of plasticizers plasticizers mostly triaryl phosphates, such as tricresyl, triphenyl phosphates, which are poisonous. See also triorthocresyl phosphate. before significant reduction of physical properties occurs. Ethers generally do not have as high physical properties in low hardness, highly plasticized formulations. MDI esters and polytetramethylenether glycol glycol (glī`kōl), dihydric alcohol in which the two hydroxyl groups are bonded to different carbon atoms; the general formula for a glycol is (CH2)n(OH)2. (PTMEG PTMEG Polytetramethyleneetherglycol )-based ethers cured with 1,4-butanediol are the choice for FDA-approved applications involving dry and wet food contact, particularly for meat or poultry processing. TDIs generally are the least desirable, primarily because of the types of curatives used (aromatic amines An aromatic amine is an amine with an aromatic substituent - that is -NH2, -NH- or nitrogen group(s) attached to an aromatic hydrocarbon, whose structure usually contains one or more benzene rings. Aniline is an example. ). MDI-based polyurethane elastomers have a greater range of formulation flexibility. To achieve high hardness materials with TDI prepolymers, methylene-bis-orthochloroaniline (MBCA MBCA Mercedes Benz Club of America MBCA Model Business Corporation Act MBCA Missouri Basketball Coaches Association MBCA Myanmar Business Coalition on AIDS MBCA Mechanical Bank Collectors of America MBCA Metropolitan Business & Citizens Association ) or another diamine di·am·ine n. Any of various chemical compounds containing two amino groups, especially hydrazine. Noun 1. diamine - any organic compound containing two amino groups type curative is necessary; whereas with the MDIs there are several diol diol an organic compound containing two hydroxy groups, a dihydric alcohol. Called also glycol. curatives that can be used, such as 1,4-butanediol and hydroquinone hydroquinone /hy·dro·quin·one/ (hi?dro-kwi-non´) the reduced form of quinone, used topically as a skin depigmenting agent. hy·dro·qui·none n. di-(beta-hydroxyethyl) ether (HQEE), and higher molecular weight polyols. Many mixtures and combinations of various diol curatives are possible. Throughout this list, PPG ethers have appeared in the "weaker" column quite frequently. While their performance characteristics may not be as good as the other materials, very often there are applications where they are desirable. Cost performance is, of course, the reason to use PPG TDI ethers. They are considerably cheaper than premium grade ethers or esters and are useful in parts that are not highly engineered, that is, in applications where the most outstanding properties of polyurethanes are not fully utilized and therefore low-cost materials can perform adequately. TDI and MDI PTMEG ethers are listed as the weakest in terms of cost, which means that they are the most expensive. However, the true cost in use really depends upon the particular application, because the curative cost must be factored in. Each case must be calculated on an individual basis: How much does the curative cost, what is the ratio used and how does this contribute to total cost? Sometimes the most expensive material to buy may be the best material for the application because of its cost/performance characteristics. This is a consideration with both premium-grade and low-cost materials. In some applications, one type of castable polyurethane elastomer has advantages that are so outstanding as to make it the major choice to the virtual exclusion of all other types (table 5). High quality roller skate and skateboard wheels are practically all MDI ethers, mainly because of their high resilience. High resilience gives good speed performance and a smooth ride. TDI esters are the materials of choice for printing and coating rolls because of their high solvent resistance and good physical properties in low hardness formulations. It is important that oil pipeline pigs, used for cleaning and servicing lines of all sizes, have high abrasion resistance in addition to high oil resistance to prevent their being worn down by going through miles of pipe. Because of this, esters have been the choice since they combine oil resistance with high sliding abrasion resistance. For grain handling apparatus (sheet goods, buckets and the like), MDI esters have been the materials of choice. The ester component provides high resistance against abrasive abrasive, material used to grind, smooth, cut, or polish another substance. Natural abrasives include sand, pumice, corundum, and ground quartz. Carborundum (silicon carbide) and alumina (aluminum oxide) are important synthetically produced abrasives. grain and the MDI component permits a variety of compositions that are FDA-approved for contact with dry roods. As for forklift truck tires, TDI ethers have traditionally served a major segment of this market because of their low heat buildup and high load bearing ability. In applications where the cut and tear requirements are severe due to the presence of scrap metal or other debris on the floor, an ester might be chosen as a trade-off in load and speed performance for greater damage resistance and toughness. As mentioned earlier, the newer low-free TDI esters have much improved heat buildup characteristics and combine the features of heat buildup and cut and tear resistance. For hammers, TDI esters are the materials of choice because of the combination of high tear resistance with low resilience. Tear resistance is necessary to prevent deterioration of the face of the hammer, and low resilience causes the energy of the hammer to transfer into the object being struck rather than allowing it to bounce back at the user. Formulations suitable for applications ranging from soft mallets to relatively hard metalworking hammers have been developed. Sandblast sandblast, stream of sand or other abrasive particles driven by a jet of compressed air or water or by centrifugal force against a surface to clean or abrade it. curtains and masks require high resilience and abrasion resistance in the impingement mode. MDI ethers, because of their high resilience, allow the particles to bounce back without transferring much kinetic energy kinetic energy: see energy. kinetic energy Form of energy that an object has by reason of its motion. The kind of motion may be translation (motion along a path from one place to another), rotation about an axis, vibration, or any combination of in the form of heat to the sandblast curtain or mask. MDI ethers are also the materials of choice for laundry equipment, such as agitators, pulsators or lifter bars for commercial washing machines (storage) washing machine - An old-style 14-inch hard disk in a floor-standing cabinet. So called because of the size of the cabinet and the "top-loading" access to the media packs - and, of course, they were always set on "spin cycle". because of their outstanding hydrolysis resistance. However, TDI ethers are preferable for paper mill rolls because of their combination of good hydrolysis resistance and excellent hardness stability and dynamic performance. In paper processing applications, it is important that the hardness and dynamic properties of the roll remain constant over a range of operating temperatures so that performance of the roll remains consistent. MDI esters are preferred for meat-processing equipment because FDA FDA abbr. Food and Drug Administration FDA, n.pr See Food and Drug Administration. FDA, n.pr the abbreviation for the Food and Drug Administration. wet food approval is required for this application. These special ester formulations combine the properties of cut and tear resistance and fat and oil resistance with FDA approval. There are now several PTMEG MDI types that meet the wet food requirements as well. Selecting castable poyurethane elastomers What approach can a design engineer or manufacturer use to select the best castable polyurethane elastomer for a new application or to improve performance in an existing one? Table 6 lists the suggested steps in the process. Look at the application carefully and decide which properties are of key importance, both in terms of the physical properties and the environmental resistance needed in the polyurethane elastomer. If you are familiar with the various types available, select a few candidate polymer and curative systems that should offer appropriate performance. Consider engineering design principles regarding the proposed part. Will there be localized flexing at any one spot? If so, can this be distributed over a wider area? Will there be "stress risers" (localized high force concentration) at points of attachment? Can a harder material be used to make a thinner-walled part of the same overall strength? Once you've done this, go to the polyurethane prepolymer and curative suppliers for recommendations and for further information. They will certainly be willing to help you and will welcome discussion of new applications. The suppliers may also help with suggestions of materials or test data that are not available in their published literature. Next, review your plant capabilities. Make sure the compounds you have chosen are ones that can be run in your plant. either under its present setup or, barring that, consider what sort of investment might have to be made fur processing of the proposed material. Depending on the potential market for the application, new investment may be justified. Although the process is simple in principle, it does require close attention to detail and handling of toxic chemicals Any chemical which, through its chemical action on life processes, can cause death, temporary incapacitation, or permanent harm to humans or animals. This includes all such chemicals, regardless of their origin or of their method of production, and regardless of whether they are produced . There are many excellent custom molders of high-performance polyurethane elastomers worldwide, and in many cases, the best course of action for a new user of polyurethane elastomers is to approach one of them to have the job done, benefiting from their experience, technique and plant equipment. Then run whatever preliminary tests are available. If it is a new application where the part must, for example, come in contact with an unusual chemical solution, make sure that the polyurethane elastomer you select can tolerate this. Again, consult the suppliers, who will usually be willing to help you with tests of this type. At this point, if everything continues to look good, make prototype units of one or more candidate materials. Make sure that the prototypes are well identified so they do not get misplaced mis·place tr.v. mis·placed, mis·plac·ing, mis·plac·es 1. a. To put into a wrong place: misplace punctuation in a sentence. b. in the field and, importantly, so that you can properly track their service history. Get the parts out in actual service; make comparisons of the performance of these test units against whatever is currently being used. If it is a brand new application where nothing like it has ever been done before, test the parts against whatever criteria you and the end-user have in mind. Finally, make sure that you and the end-user agree on the test results and that he or she approves of the part based on the prototype evaluation. Once you have reached this point you are ready to gear for production and for a successful and profitable business venture. Summary Castable polyurethane elastomers offer high performance in demanding applications because of their exceptional abrasion resistance, cut and tear resistance, load-bearing ability, and environmental resistance, and they offer these properties over a wider hardness range than any other elastomer. The liquid state of the casting materials provides for an extensive variety of processing techniques, allowing the manufacture of very small to exceptionally large or complex parts with low capital investment. Castable polyurethane elastomers can replace metals, plastics and other rubbers in many applications to give superior performance and increased cost effectiveness. Manufacturers of materials used in this industry are constantly making improvements in high-temperature performance, environmental resistance and processing ease and safety. Castable polyurethane elastomers are versatile and powerful tools to solve difficult engineering problems, and the list of applications where they are used will continue to grow. This will be driven by design engineers and manufacturers who continue to learn more about their extensive property range and fabrication possibilities for demanding applications, and by polymer chemists who will continue to find ways to improve the physical properties, environmental resistance and processing ease to meet the growing list of industrial uses.
Table 1--advantages
versus rubber
Abrasion resistance
Cut and tear resistance
Higher load bearing
Clarity; translucence
Non-marking, non-staining
Ozone resistance
Pourable; castable
Wider hardness range
Microbial resistance
Oil and petroleum resistance
Low or high rebound
Versatility
Table 2--15 ways to mold castable polyurethane
elastomers
Open casting (most common, easiest, cheapest)
Compression molding (precision parts)
Centrifugal molding (pipelining, sheet goods, multicavity
molds)
Ribbon Flow moldless casting (for rolls, etc.)
Liquid injection molding (low pressure, bottom fill)
Transfer molding (multiple precision parts)
Rotational molding (makes hollow items)
Vacuum casting (wire or fiber inserts in item)
Pressure casting (pressure chamber)
Reaction injection molding (high pressure impingement
mixing)
B-staging (when molds can't hold liquids)
Spraying (high pressure solventless and low pressure
solvented)
Solvent casting (low viscosity for fabric penetration)
Trowelling (repairs and special applications)
Dipping (long pot life heat activated)
Table 3--selection of castable polyurethanes for
demanding applications
Property Stronger Weaker
Hardness -- --
Elongation -- --
Modulus -- --
Tensile strength Ester Ether
Tear strength Ester PPG ether
Compression set TDI MDI
Rebound MIDI ether TDI ester
Low temperature properties MIDI ether TDI ester
High temperature properties TDI MDI
Abrasion resistance
Sliding Ester PPG ether
Impingement Ester PPG ether
Heat buildup Ether Ester
Hydrolysis resistance MIDI ether TDI ester
Oil resistance Ester Ether
Heat aging resistance Ester PPG ether
Table 4--selection of castable polyurethanes for
demanding applications
Property Stronger Weaker
Low hardness formulation
(<60A) TDI ester Ether
FDA approval
(wet and dry food) MDI ester TDI
and ether
Formulation flexibility MDI TDI
Cost PPG ether TDI and
MDI ether
Table 5--specific types of castable polyurethane elastomers for various
applications
Application Type
Roller skate/skateboard wheels MIDI ether
Printing/coating rolls TDI ester
Oil pipeline pigs TDI/MDI ester
Grain handling equipment MIDI ester
Fork lift tires TDI ethers, esters
Hammers TDI esters
Sandblast curtains and masks MIDI ethers
Laundry equipment MIDI ether
Paper mill rolls TDI ethers
Metal processing equipment MIDI esters, ethers *
Application Basis
Roller skate/skateboard wheels High resilience
Printing/coating rolls Solvent resistance, good physical
properties at low hardness
Oil pipeline pigs Oil, abrasion resistance
Grain handling equipment Abrasion resistance, dry food approval
Fork lift tires Low heat build-up, cut and tear
resistance
Hammers Tear resistance, low resilience
Sandblast curtains and masks High impingement resistance
Laundry equipment Hydrolysis resistance
Paper mill rolls Dynamics, hardness and hydrolysis
stability
Metal processing equipment FDA wet food approval
* Special grades
Table--6 selection process
Decide which properties are of key importance--physical
and environmental resistance
Select prepolymer/curative systems that are likely
candidates
Consider engineering design principles
Consult suppliers for recommendations and further
information
Review plant capabilities
Run whatever preliminary tests that are available
Make prototype units of one or more candidate
systems
Field test in actual service, make comparisons, get
approval from future customers
Gear up for production
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