MCA - Advanced Materials Division Datasheets for Fabricated Plastic Parts and Semi-Finished Shapes
Fabricated plastic parts and semi-finished shapes include molded, cast, extruded and machined parts made from any polymeric materials. They are supplied as bars, films, plates, profiles, rods and shims.
Fabricated Plastic Parts and Semi-Finished Shapes: Learn more
Product Name | Notes |
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Acetron® AF Blend Polyoxymethylene POM-H is a PTFE-filled Homopolymer that offers enhanced wear resistance over other acetal grades, a lower coefficient of friction, great wear performance in wet environments, and... | |
Acetron® Polyoxymethylene POM-H / Ertacetal® H Polyoxymethylene POM-H is a homopolymer acetal grade that offers superior mechanical strength, stiffness, hardness, and creep resistance, in addition to a much lower thermal... | |
Altron™ Life Science Grade (LSG) Polycarbonate PC shapes are produced from select batches of non-UV stabilized polycarbonate resin that complies with EU and FDA regulations, for plastics intended to come... | |
Combination of PTFE and acetal for improved wear performance, General purpose parts | |
Compression molded Duratron® T4503 PAI Polyamide-imide shapes posses outstanding electrical insulation properties, and excellent dimensional stability qualities. This grade is similar in composition to Duratron® T4203 PAI, and is often... | |
Compression molded Duratron® T4540 PAI Polyamide-imide shapes were developed specifically for the Oil and Gas industry, for use in rotating equipment applications. As a sealing and bearing grade that offers... | |
Durapro® Ultra High Molecular Weight Polyethylene UHMW-PE seamless dump body liners protect the integrity of original truck beds, by providing a steady release of bulk materials such as clay, coal,... | |
Duratron® D7000 PI Polyimide shapes possess superior electrical and thermal insulation properties, and outstanding mechanical performance qualities for applications that demand higher temperature resistance. In addition to these characteristics, Duratron® | |
Duratron® D7015G PI Polyimide is a bearing grade PI that exhibits superior temperature and wear resistance qualities, while offering a low coefficient of friction. Not only does Duratron® D7015G PI... | |
Duratron® LSG PEI Polyetherimide biocompatible stock shapes offer a combination of outstanding mechanical, thermal, and electrical properties, and great hydrolysis and chemical resistance. Duratron® LSG PEI components also exhibit superior... | |
Duratron® T4203 PAI Polyamide-imide offers the most superior impact strength of all Duratron® T PAI grades, while also possessing the highest elongation of all Duratron® grades. Due to its intrinsic... | |
Duratron® T4301 PAI Polyamide-imide offers a very low expansion rate and coefficient of friction, and also exhibits little to no slip-stick in use. The addition of PTFE and graphite provides... | |
Duratron® T4501 PAI Polyamide-imide possesses high compressive strength and excellent wear resistance, making it a great performer in general purpose wear and friction applications. This grade is similar in composition... | |
Duratron® T5030 PAI Polyamide-imide offers high rigidity, retention of stiffness, a low expansion rate, and outstanding load carrying capabilities. As a 30% glass reinforced material, this grade is ideal for... | |
Duratron® T5530 PAI Polyamide-imide is a compression molded, 30% glass reinforced grade that offers high stiffness, strength, and creep resistance. Although similar in composition to Duratron® T5030 PAI, Duratron® T5530... | |
Duratron® T7130 PAI Polyamide-imide is a 30% carbon fiber-reinforced grade that offers exceptional stiffness, nonabrasive wear performance, and the lowest coefficient of thermal expansion of all PAI materials. These characteristics... | |
Duratron® T7530 PAI Polyamide-imide is a compression molded, 30% carbon fiber-reinforced grade that exhibits outstanding strength and stiffness in nonabrasive wear applications, and the lowest coefficient of thermal expansion of... | |
Duratron® U1000 PEI Polyetherimide shapes exhibit high strength, dimensional stability, and superior flame and heat resistance. Due to this grade's ability to perform continuously to 340°F / 170°C, Duratron® U1000... | |
Duratron® U2100 PEI Polyetherimide shapes are 10% glass-reinforced, giving them great rigidity and dimensional stability, and a low Coefficient of Linear Thermal Expansion. With an excellent strength-to-weight ratio and tensile... | |
Duratron® U2200 PEI Polyetherimide shapes are 20% glass-reinforced, giving them exceptional rigidity and dimensional stability, high temperature resistance, and a low Coefficient of Linear Thermal Expansion. With an exceptional strength-to-weight... | |
Duratron® U2300 PEI is a flame resistant Polyetherimide that is 30% glass-reinforced, allowing this grade to exhibit the highest rigidity, strength, dimensional stability, and heat resistance of all Duratron® PEI... | |
Ertalyte® Polyethylene Terephthalate Polyester PET-P is an unreinforced, semi-crystalline grade that is produced from proprietary resin grades made by Mitsubishi Chemical Advanced Materials. Characterized by its excellent wear resistance, low... | |
Ertalyte® TX Polyethylene Terephthalate Polyester PET-P is an unreinforced, semi-crystalline grade that exhibits superior dimensional stability, excellent wear resistance, a low coefficient of friction, high strength and rigidity, outstanding stain... | |
Fluorosint® 135 Polytetrafluoroethyl ene PTFE, is a material that was formulated to provide the lowest coefficient of friction and deformation for seals, bearings, and washer applications. This grade also possesses... | |
Fluorosint® 207 Polytetrafluoroethyl ene PTFE is a Food Contact Compliant (FDA) grade of Fluorosint® with a unique combination of dimensional stability and creep resistance, exceptional sliding and wear properties, and... | |
Fluorosint® 500 Polytetrafluoroethyl ene PTFE shapes possess a unique combination of stability and wear resistance, for sealing applications where tight dimensional control is required. With nine times greater resistance to... | |
Fluorosint® HPV Polytetrafluoroethyl ene PTFE is an FDA Compliant, high performance, bearing grade of Fluorosint®. Optimized for high PV, and low “k” or wear factor, Fluorosint® HPV PTFE was developed... | |
Fluorosint® MT-01 Polytetrafluoroethyl ene PTFE, is an extreme grade that was developed specifically for applications where the benefits of PTFE-based materials also require outstanding strength, stiffness, and stability. Often specified... | |
General engineered material, Mid-range temperature resistance, Good electrical insulator, Good stability | |
Great Electrical insulator, High temperature resistance, Excellent dimensional stability | |
High impact strength, Toughness and transparency, Economical thermal performance | |
Ketron® 1000 Injection Molded (IM) Polyetheretherketone PEEK shapes offer excellent chemical, corrosion, and wear resistance across a wide range of operating temperatures. Ideal for applications within the oil and gas... | |
Ketron® 1000 Life Science Grade (LSG) Polyetheretherketone PEEK biocompatible shapes exhibit excellent chemical and corrosion resistance, and are USP and ISO 10993-1 Compliant. In addition to these characteristics, Ketron® 1000... | |
Ketron® 1000 Polyetheretherketone PEEK is an EU 10/2011 and FDA Compliant, unfilled general purpose grade that offers the highest elongation and toughness of all materials in the PEEK family. Ideal... | |
Ketron® CA30 LSG Polyetheretherketone PEEK biocompatible stock shapes are 30% carbon fiber-reinforced, and are USP and ISO-10993-1 Compliant. Due to these characteristics, Ketron® CA30 LSG PEEK exhibits exceptional stiffness and... | |
Ketron® CA30 Polyetheretherketone PEEK is a 30% carbon fiber-reinforced grade that exhibits even higher stiffness, mechanical strength, and creep and wear resistance that Ketron® GF30 PEEK. With a significantly reduced... | |
Ketron® CLASSIX™ HPV Polyetheretherketone PEEK stock shapes are biocompatible, USP Class VI ISO 10993 Compliant, and have a maximum body contact duration up to 30 days. With a unique combination... | |
Ketron® CM CA30 Polyetheretherketone PEEK is a compression molded, 30% carbon fiber-reinforced grade that exhibits outstanding impact, corrosion, chemical, and wear resistance. With a significantly reduced thermal expansion, optimum load... | |
Ketron® CM GF30 Polyetheretherketone PEEK is a compression molded, 30% glass fiber reinforced grade with excellent dimensional stability and outstanding chemical, corrosion, and creep resistance. With the addition of glass... | |
Ketron® CM HPV Polyetheretherketone PEEK shapes are compression molded and carbon fiber reinforced, with graphite and PTFE lubricants. Due to this, this grade has the lowest coefficient of friction and... | |
Ketron® GF30 Polyetheretherketone PEEK is a 30% glass fiber reinforced grade with excellent dimensional stability and outstanding chemical, corrosion, and creep resistance. With the addition of glass fibers, Ketron® GF30... | |
Ketron® HPV Polyetheretherketone PEEK shapes are carbon fiber reinforced, with graphite and PTFE lubricants, giving them the lowest coefficient of friction and the best machinability of all PEEK materials. Due... | |
Ketron® Life Science Grade (LSG) CC Polyetheretherketone PEEK is a unique compression molded grade that offers a high performance profile, due to its woven carbon fiber structure. With a composite... | |
Ketron® Life Science Grade (LSG) GF30 Polyetheretherketone PEEK shapes are 30% glass fiber reinforced, giving this grade superior dimensional stability, and higher stiffness and creep resistance than Ketron® 1000 LSG... | |
Ketron® Metal Detectable (MD) Polyetheretherketone PEEK is an FDA and EU Compliant grade that offers extreme dimensional stability, and high strength and temperature resistance. Visual, metal, and x-ray detectable, Ketron® | |
Ketron® TX Polyetheretherketone PEEK is an internally lubricated, EU 10/2011 and FDA Compliant grade that offers improved wear and frictional performance over virgin PEEK. Often favored for food and beverage... | |
Kyron® GC100 Polyetheretherketone PEEK, unfilled injection molded shapes exhibit superior dimensional stability and stiffness, while also delivering excellent micro-machinability capabilities due to their low CTE and tensile elongation. Specifically formulated... | |
Nylatron® 101 Polyamide PA66 / Ertalon® 66 SA Polyamide PA66 unmodified shapes are characterized by their superior combination of strength and toughness. Compared to other unmodified nylon grades, Nylatron® 101... | |
Nylatron® 4.6 Polyamide PA46 / Ertalon® 4.6 Polyamide PA46 shapes are characterized by their superior heat aging resistance, as well as their ability to retain their outstanding stiffness and creep... | |
Nylatron® 703 XL Polyamide PA6 is a unique, ultra-high performance bearing grade that offers even better wear resistance than Nylatron® NSM, with superior load bearing capabilities and a near zero... | |
Nylatron® GF30 Polyamide PA66 / Ertalon® 66 GF30 Polyamide PA66 is a 30% glass fiber-reinforced grade that offers increased strength, stiffness, creep resistance, and dimensional stability, while also maintaining its... | |
Nylatron® GS Polyamide PA66, is a Molybdenum Disulphide (MoS2) filled nylon that offers outstanding strength and rigidity, and a lower coefficient of linear thermal expansion than other nylon products. Due... | |
Nylatron® GSM Blue Polyamide PA6 is a Molybdenum Disulphide (MoS2) and oil filled nylon that is characterized by its superior frictional characteristics, low coefficient of friction, greater limiting PV, and... | |
Nylatron® GSM Polyamide PA6 shapes contain finely divided particles of Molybdenum Disulphide (MoS2) that enhance their load bearing capabilities, while maintaining the impact resistance inherent to cast nylon products. This... | |
Nylatron® LFX Polyamide PA6 internally lubricated shapes were specifically formulated for unlubricated, highly loaded, and slowly moving parts applications. This grade in particular displays high mechanical strength, stiffness, hardness, and... | |
Nylatron® LIG Polyamide PA6 is a self-lubricating, oil filled nylon that is an ideal solution for industrial applications in the conveying and processing industries. This grade in particular exhibits higher... | |
Nylatron® MC 901 Heat Stabilized (HS) Polyamide PA6 shapes offer long-term thermal stability, and are ideal for a variety of bearing and structural applications such as wheels, gears, and custom... | |
Nylatron® MC 901 Polyamide PA6 shapes with its distinctive blue colour exhibits higher toughness, flexibility and fatigue resistance than Ertalon® 6 PLA. It has proved to be an excellent material... | |
Nylatron® MC 907 Polyamide PA6 / Ertalon® 6PLA Polyamide PA6 unmodified shapes offer the highest strength and hardness of all nylon 6 grades, and also exhibit great creep and wear... | |
Nylatron® NSM Polyamide PA66 is a solid lubricant-filled, proprietary cast nylon formulation that gives this particular grade superior self-lubricating properties, outstanding friction behavior, maximum wear resistance, and excellent dynamic load-bearing... | |
Nylatron® SLG FDA Polyamide PA6 is a self-lubricated, oil-filled nylon that is ideal for food processing and packaging applications that require a low coefficient of friction. In addition to these... | |
Nylatron® SLG Polyamide PA6 oil-filled shapes were specifically developed for non-lubricated, highly loaded, and slowly moving parts in industrial environments. For applications that require a low coefficient of friction and... | |
Nylatron® WP Polyamide PA6 self-lubricated shapes outperform competing nylon products in wear resistance and load bearing capabilities, and also provide users with an economical solution across a wide range of... | |
PProteus® Copolymer Polypropylene PP Natural shapes offer excellent chemical and corrosion resistance capabilities, improved resistance to stress cracking, ease of fabrication and welding, and minimal centerline porosity. Furthermore, Proteus® Copolymer... | |
Proteus® Copolymer Polypropylene PP Euro-Gray shapes offer excellent chemical and corrosion resistance capabilities, improved resistance to stress cracking, ease of fabrication and welding, and minimal centerline porosity. Proteus® Copolymer PP... | |
Proteus® High Density Polyethylene HDPE Black shapes are used in a variety of environments where excellent impact resistance, superior tensile strength, low moisture absorption, great chemical and corrosion resistance, and... | |
Proteus® High Density Polyethylene HDPE Natural shapes are used in a variety of environments where excellent impact resistance, superior tensile strength, low moisture absorption, great chemical and corrosion resistance, and... | |
Proteus® Homopolymer Polypropylene PP Black shapes are characterized by their high strength-to-weight ratio, excellent chemical and corrosion resistance capabilities, thermoforming performance, and zero moisture absorption. In addition to these key... | |
Proteus® Homopolymer Polypropylene PP Natural shapes are characterized by their high strength-to-weight ratio, excellent chemical and corrosion resistance capabilities, thermoforming performance, and zero moisture absorption. In addition to these key... | |
Proteus® Low Density Polyethylene LDPE light-weight shapes possess a great combination of excellent impact resistance, superior chemical and corrosion resistance, easy machinability and cleaning capabilities, and zero moisture absorption. As... | |
Proteus® White Homopolymer Polypropylene PP White shapes are characterized by their high strength-to-weight ratio, excellent chemical and corrosion resistance capabilities, thermoforming performance, and zero moisture absorption. In addition to these... | |
Quicksilver® Heavy Duty (HD) Ultra High Molecular Weight Polyethylene UHMW-PE seamless dump body liners protect the integrity of original truck beds, by providing a steady release of materials in the... | |
Quicksilver® Ultra High Molecular Weight Polyethylene UHMW-PE seamless dump body liners protect the integrity of original truck beds, by providing a steady release of viscous materials such as hot asphalt,... | |
Sanalite® High Density Polyethylene HDPE is a premium cutting board material that is recognized as the industry standard for commercial food preparation. Lightweight, easily cleaned and sanitized, and compliant with... | |
Sanalite® Homopolymer Polypropylene PP is a premium cutting board material that is recognized as the industry standard for commercial food preparation. Lightweight, easily cleaned and sanitized, and compliant with FDA,... | |
Semiconductor grade materialdesigned specifically for CMP wear rings, 5x wear life of standard PPS rings | |
Semitron® CMP XL20 Polyamideimide PAI shapes were specifically developed for CMP ring applications in the semiconductor and electronics industry, due to their excellent long wear life in CMP slurries. In... | |
Semitron® CNT Polyoxymethylene POM-C is an extruded carbon nano tube-filled grade, developed specifically for electronic fixture applications that require a precise surface resistivity range, yet offer increased dimensional stability versus... | |
Semitron® ESd 225 Polyoxymethylene POM shapes are characterized by their excellent wear resistance, thermal performance, and their ability to quickly dissipate static charges. Due to these properties, this grade is... | |
Semitron® ESd 410C PEI Polyetherimide electro static dissipative shapes exhibit excellent dimensional stability characteristics, and are ideal for semiconductor and electronics handling environments. This Semitron® ESd grade in particular can... | |
Semitron® ESd 420 PEI Polyetherimide electro static dissipative shapes exhibit high strength and stiffness, and excellent resistivity in the 10E5 to 10E8 ohms per square range. This grade in particular... | |
Semitron® ESd 420V PEI Polyetherimide electro static dissipative shapes possess high strength and stiffness, and are not subject to dimensional change as a result of exposure to moisture. This grade... | |
Semitron® ESd 480 Polyetheretherketone PEEK electro static dissipative shapes exhibit excellent chemical resistance properties, while also maintaining high dimensional stability under varying environmental conditions. Due to these characteristics, this grade... | |
Semitron® ESd 490HR Polyetheretherketone PEEK electro static dissipative shapes offer similar physical properties as Semitron® ESd 480 PEEK, but exhibit a higher resistivity value in the 10E8 to 10E10 ohms... | |
Semitron® ESd 500HR Polytetrafluoroethyl ene PTFE electro static dissipative shapes offer an excellent combination of low frictional properties, outstanding dimensional stability, and a high resistivity range of 10E9 to 10E11... | |
Semitron® ESd 520HR Polyamide-imide PAI electro static dissipative shapes possess the unique ability to resist dielectric breakdown at high voltages. As a result, Semitron® ESd 520HR PAI is the only... | |
Semitron® Homopolymer Polypropylene PP Natural shapes have been developed specifically for demanding wet process semiconductor and electronics applications that require a high level of superior dimensional stability. In addition to... | |
Semitron® HPV ESd Polyetheretherketone PEEK electro static dissipative shapes contain specific additives that make it an excellent performer in wear and friction applications where antistatic properties are essential. Due to... | |
Semitron® MDS 100 modified Polyetheretherketone PEEK shapes offer a remarkable combination of strength, stiffness, and stability. This grade in particular was developed for use in uncontrolled application environments where a... | |
Semitron® MP 370 shapes exhibit excellent moisture absorption and thermal resistance, while also maintaining outstanding strength and dimensional stability. As a result, this grade is often selected for test socket... | |
Semitron® MPR 1000 shapes possess excellent heat resistance and low rates of erosion in plasma chambers. Due to these characteristics, it is often chosen for vacuum chamber applications within etch,... | |
Static dissipative premium liner material, Excellent Abrasion Resistance and impact strength, Low COF, No moisture abs, Corrosion resistance, | |
Sultron™ Life Science Grade (LSG) Polyphenylsulfone PPSU biocompatible shapes offer superior hydrolysis resistance as measured by steam autoclaving cycles, making them an excellent choice for medical device applications. Sultron™ LSG... | |
Sultron™ Polysulfone PSU is a translucent material that offers a combination of excellent mechanical, thermal, and electrical properties. This grade often replaces polycarbonate whenever higher temperature resistance, improved chemical resistance,... | |
Sultron™ R5500 XL Life Science Grade (LSG) Polyphenylsulfone PPSU biocompatible shapes possess extreme steam resistance, autoclavability, and excellent toughness. This particular grade of Sultron™ is barium sulfate-filled PPSU, for medical... | |
Techtron® 1000 Polyphenylene Sulfide PPS shapes exhibit outstanding dimensional stability due to their minimal moisture absorption and low coefficient of linear thermal expansion, and easy machinability to close tolerances. Due... | |
Techtron® HPV Polyphenylene Sulfide PPS internally lubricated shapes offer superior wear resistance, outstanding chemical and hydrolysis resistance, excellent dimensional stability, great electrical insulating and dielectric properties, a low coefficient of... | |
Techtron® PSBG Polyphenylene Sulfide PPS compression molded shapes are internally lubricated and carbon fiber-reinforced, allowing them to exhibit excellent wear resistance, outstanding dimensional stability, and extreme chemical and corrosion resistance. | |
Techtron® PSGF Polyphenylene Sulfide PPS shapes are compression molded and glass filled, giving them extreme dimensional stability and chemical and corrosion resistance. Due to these characteristics, Techtron® PSGF PPS is... | |
TIVAR® 1000 Electrically Conductive (EC) Ultra High Molecular Weight Polyethylene UHMW-PE shapes provide improved protection against electrical charge build-up, by offering increased conductivity to quickly move the charge away from... | |
TIVAR® 1000 Ultra High Molecular Weight Polyethylene UHMW-PE shapes have a well-balanced property profile with a unique combination of wear and corrosion resistance, a low friction surface, excellent impact strength... | |
TIVAR® 1000 Virgin Ultra High Molecular Weight Polyethylene UHMW-PE shapes have a well-balanced property profile with a unique combination of wear and corrosion resistance, a low friction surface, excellent impact... | |
TIVAR® 88 Ultra High Molecular Weight Polyethylene UHMW-PE is the original formulation in the TIVAR® 88 UHMW-PE family of materials. As a premium glass-filled grade that offers low moisture absorption,... | |
TIVAR® 88 w/ BurnGuard Ultra High Molecular Weight Polyethylene UHMW-PE / TIVAR® Burnguard Ultra High Molecular Weight Polyethylene UHMW-PE static dissipative and flame retardant shapes, were specifically developed to improve... | |
TIVAR® 88-2 ESd Ultra High Molecular Weight Polyethylene UHMW-PE electro static dissipative shapes prevent the build-up of electrical charges in dusty or volatile environments. As a premium ESd grade that... | |
TIVAR® 88-2 Ultra High Molecular Weight Polyethylene UHMW-PE UV stabilized shapes offer the lowest coefficient of friction of all TIVAR® 88 grades. As a premium lubricant-filled grade that offers low... | |
TIVAR® Ceram P Ultra High Molecular Weight Polyethylene UHMW-PE self-lubricating, glass-filled shapes excel in applications where high load, high speed, and severe sliding capabilities are required. Easily recognizable by its... | |
TIVAR® CleanStat™ Ultra High Molecular Weight Polyethylene UHMW-PE electro static dissipative shapes are FDA and EU Food Contact compliant, which makes them a favored solution within the food processing and... | |
TIVAR® DockGuard Ultra High Molecular Weight Polyethylene UHMW-PE UV resistant shapes were developed for the most extreme environmental conditions, and can outwear other materials such as wood, rubber, high density... | |
TIVAR® DrySlide Ultra High Molecular Weight Polyethylene UHMW-PE is an internal lubricated product. Thanks to this lubricant which is built into the PE-UHMW matrix with higher molecular weight, TIVAR® DrySlide... | |
TIVAR® ECO ESd Ultra High Molecular Weight Polyethylene UHMW-PE / TIVAR® ECO black Antistatic Ultra High Molecular Weight Polyethylene UHMW-PE electro static dissipative shapes are produced from re-processed, industrial UHMW... | |
TIVAR® ECO Ultra High Molecular Weight Polyethylene UHMW-PE shapes are produced from re-processed, industrial UHMW materials, and re-purposed for use in a variety of industries such as construction and heavy... | |
TIVAR® ESD Ultra High Molecular Weight Polyethylene UHMW-PE / TIVAR® 1000 Antistatic Ultra High Molecular Weight Polyethylene UHMW-PE electro static dissipative, carbon-filled shapes protect against electrical charge build-up on wear... | |
TIVAR® H.O.T (Higher Operating Temperature) Ultra High Molecular Weight Polyethylene UHMW-PE shapes, are formulated to maintain key performance properties in an extended temperature range. For this reason, this TIVAR® grade... | |
TIVAR® HPV Ultra High Molecular Weight Polyethylene UHMW-PE is an FDA and EU compliant, bearing grade with a built in dry lubricant that gives finished components a Coefficient of Friction... | |
TIVAR® Oil Filled Ultra High Molecular Weight Polyethylene UHMW-PE is a self-lubricating UHMW-PE material in the real meaning of the word. Next to an enhanced wear resistance, the incorporated and... | |
TIVAR® UV UHMW-PE has an excellent Abrasion Resistance and impact strength, Low COF, No moisture abs, Corrosion resistance, Enhanced UV resistance. | |
TIVAR® UV UHMW-PE, Black has en excellent Abrasion Resistance and impact strength, Low COF, No moisture abs, Corrosion resistance, Enhanced UV resistance. | |
Very high temperature resistance, very good strength and stiffness, and very low CLTE for extreme applications |