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Evonik
INFINAM® PA 6001 P
Polymer Name:
Polyamide 12 (PA 12)
Processing Methods:
Powder Bed Fusion (PBF), Multi Jet Fusion (MJF), 3D Printing, High Speed Sintering (HSS), Selective Laser Sintering
End Uses:
Industrial Parts, Automotive Applications, Aerospace Applications, Medical/Healthcare Applications
Features:
Impact Resistance, High Temperature Resistance, Outdoor Durability, High Strength, Good Processability, Solvent Resistant, Chemical Resistant, High Performance, Oil Resistant, Consistent High Quality, Durable, Smooth Surface Finish, Food Contact Acceptable, Excellent Mechanical Strength, UV Resistant, Grease Resistant, Excellent Surface Properties, Highly Versatile
INFINAM® PA 6001 P is a food contact-acceptable powder designed for 3D printing. It boasts remarkable characteristics such as chemical resistance, consistently high quality, durability, excellent mechanical strength, oil resistance, excellent surface properties, good processability, high strength, and high-temperature resistance. Additionally, it is UV-resistant. This versatile material serves various industries, including aerospace, automotive, and medical applications.
Evonik
INFINAM® PEEK 9359 F
Polymer Name:
Polyetheretherketone (PEEK)
Color:
Natural
Physical Form:
Filament
INFINAM® PEEK 9359 F is a filament created by extruding natural-colored VESTAKEEP® polyether ether ketone (PEEK) resin. This semi-crystalline polymer boasts exceptional thermal and chemical resistance. This material finds application in various industries, including aerospace and automotive. When used with fused deposition modeling (FDM) technology, it offers advantages such as reduced material consumption, improved mechanical properties of printed parts, and greater design flexibility for our customers.
Evonik
INFINAM® PA 6005 P
Polymer Name:
Polyamide 613 (PA 613)
Color:
Natural
Physical Form:
Powder
Features:
High Temperature Resistance, Dimensional Stability, Electrically Insulating, Good Mechanical Properties, Chemical Resistant, Semi Crystalline, Low Water Absorption, Improves Process Stability, Good Surface Finish, Easier Processing, Excellent Surface Properties, Unreinforced, Low Water Uptake, Good Printability
INFINAM® PA 6005 P is a fine powder with a natural color designed for use in additive fabrication. This product is versatile and can be used for creating functional prototypes, individual units, and serial parts. It is particularly well-suited for powder bed fusion technologies.
Evonik
INFINAM® TPC 8008 P
Polymer Name:
Thermoplastic Copolyester Elastomer (TPC-ET)
Color:
White
Physical Form:
Powder
Features:
Flexible, Excellent Toughness, Low Warpage, Excellent Dimensional Accuracy, High Strength, Excellent Elasticity, Chemical Resistant, High Performance, Good Aesthetics, Consistent High Quality, Smooth Surface Finish, Good Surface Finish, Easier Processing, High Elasticity, Good Elastic Recovery, Superior Surface Quality, Good Printability
INFINAM® TPC 8008 P is a white thermoplastic powder designed for 3D printing applications. This material offers exceptional characteristics, including chemical resistance, excellent elasticity and toughness, flexibility, good esthetics, elastic recovery, printability, and surface finish. It finds versatile use in aerospace, automotive, consumer products, industrial parts, and medical and healthcare applications.
Evonik
INFINAM® PA 6006 P
Polymer Name:
Polyamide 12 (PA 12)
Color:
Black
Physical Form:
Powder
Features:
Good Surface Appearance, High Temperature Resistance, Good Abrasion Resistance, Outdoor Durability, High Impact Resistance, Good Mechanical Properties, Good Processability, Chemical Resistant, Recyclable, Consistent High Quality, Smooth Surface Finish, Food Contact Acceptable, UV Resistant, Excellent Surface Properties, Temperature Resistance, Impact Resistance, High Strength, Solvent Resistant, Filled, High Performance, Excellent Flow Properties, Oil Resistant, Durable, Excellent Mechanical Strength, Easier Processing, Grease Resistant, Good Impact Strength, Highly Versatile
INFINAM® PA 6006 P is a sustainable thermoplastic powder suitable for 3D printing and approved for food contact. This nylon 12-based material offers outstanding properties, including chemical resistance, durability, high strength, and UV resistance. It is widely used in aerospace, automotive, industrial parts, and medical/healthcare applications, providing consistent high-quality results.
Evonik
INFINAM® PA 6002 P
Polymer Name:
Polyamide 12 (PA 12)
Color:
White
Physical Form:
Powder
Features:
Good Surface Appearance, High Temperature Resistance, Good Abrasion Resistance, Outdoor Durability, High Impact Resistance, Good Mechanical Properties, Good Processability, Chemical Resistant, Recyclable, Consistent High Quality, Smooth Surface Finish, Food Contact Acceptable, UV Resistant, Excellent Surface Properties, Temperature Resistance, Impact Resistance, High Strength, Solvent Resistant, High Performance, Excellent Flow Properties, Oil Resistant, Durable, Excellent Mechanical Strength, Easier Processing, Grease Resistant, Good Impact Strength, Highly Versatile
INFINAM® PA 6002 P is a sustainable powder material designed for 3D printing and suitable for food contact applications. It is characterized by its chemical resistance, consistently high quality, durability, excellent mechanical strength, oil resistance, grease resistance, and excellent surface properties. This material is also UV-resistant. Comprising Nylon 12, it finds versatile applications in the aerospace, automotive, industrial parts, and medical/healthcare industries.
Evonik
INFINAM® PA 6003 P
Polymer Name:
Polyamide 12 (PA 12)
Color:
Black
Physical Form:
Powder
Features:
Good Surface Appearance, High Temperature Resistance, Good Abrasion Resistance, Outdoor Durability, High Impact Resistance, Good Mechanical Properties, Good Processability, Chemical Resistant, Recyclable, Consistent High Quality, Smooth Surface Finish, Food Contact Acceptable, UV Resistant, Excellent Surface Properties, Temperature Resistance, Impact Resistance, High Strength, Solvent Resistant, High Performance, Excellent Flow Properties, Oil Resistant, Durable, Excellent Mechanical Strength, Easier Processing, Grease Resistant, Good Impact Strength, Highly Versatile
INFINAM® PA 6003 P is a sustainable powder material for 3D printing, approved for food contact. This nylon 12-based material boasts chemical resistance, durability, excellent mechanical strength, and more. It finds diverse applications in aerospace, automotive, industrial parts, and medical/healthcare.
Evonik
INFINAM® PA 6004 P
Polymer Name:
Polyamide 12 (PA 12)
Color:
Natural
Physical Form:
Powder
Features:
Highly Versatile, Flame Retardant, Good Surface Appearance, High Temperature Resistance, Good Abrasion Resistance, Outdoor Durability, High Impact Resistance, Good Mechanical Properties, Good Processability, Chemical Resistant, Recyclable, Consistent High Quality, Smooth Surface Finish, Food Contact Acceptable, UV Resistant, Excellent Surface Properties, Temperature Resistance, Impact Resistance, High Strength, Solvent Resistant, High Performance, Excellent Flow Properties, Oil Resistant, Durable, Excellent Mechanical Strength, Easier Processing, Grease Resistant, Good Impact Strength
INFINAM® PA 6004 P is a sustainable powder material designed for 3D printing and approved for food contact. This thermoplastic powder, based on nylon 12, offers exceptional properties such as chemical resistance, durability, high strength, and UV resistance. It finds versatile applications in the aerospace, automotive, industrial parts, and medical/healthcare sectors.
Evonik
INFINAM® TPA 4006P RFP
Polymer Name:
Thermoplastic Polyamide Elastomer
Color:
Natural
Physical Form:
Powder
Features:
High Durability, Flexible, High Strength, Excellent Elasticity, Chemical Resistant, High Performance, Fast Printing, Improves Process Stability, Consistent High Quality, Light Weight, Easier Processing, Excellent Processing Stability, High Elasticity, Low Density
INFINAM® TPA 4006P RFP is a white thermoplastic powder ideal for 3D printing using Multi Jet Fusion (MJF) and High-Speed Sintering (HSS) processes. This material is characterized by its chemical resistance, consistently high quality, excellent elasticity, flexibility, high performance, and strength. It is widely used in aerospace, automotive, industrial parts, and medical/healthcare applications, providing consistent high-quality results.
Mitsubishi Chemical Group Corporation
SHIKOH™ UT-7792
Compatible Substrates & Surfaces:
Metal
SHIKOH™ UT-7792 is a bio-based urethane acrylate oligomer. (Development product) Its biomass degree is 71% while its mechanical properties are the same as a non-biomass grade UV-3300B, with higher elongation and very soft rubbery elasticity suitable for using UV-curable adhesives for electronics devices. Features Bio-based Soft-elastic, High elongation Suitable for adhesion bond and metalizing undercoat with monomers Non-yellowing Applications Adhesive : UV/ EB/ Thermal-curable adhesive for electronics device, optical use, and automotive use. 3D printer *SHIKOH™ is provided by Mitsubishi Chemical Corporation, a member of the Mitsubishi Chemical Group.
Mitsubishi Chemical Group Corporation
SHIKOH™ UV-3300B
Compatible Substrates & Surfaces:
Metal
SHIKOH™ UV-3300B is UV curable urethane acrylate oligomer with excellent soft-elasticity, and very high elongation. It also shows good mechanical properties even at low temperature. EB and Thermal cure systems are also applicable. Features Soft-elastic, High elongation Suitable for adhesion bond and metalizing undercoat with monomers Good mechanical properties at low temperature Non-yellowing Applications Adhesive : UV/ EB/ Thermal-curable adhesive for electronics device, optical use, and automotive use. 3D printer *SHIKOH™ is provided by Mitsubishi Chemical Corporation, a member of the Mitsubishi Chemical Group.
Mitsubishi Chemical Group Corporation
SHIKOH™ UV-3700B
Applications:
Electronics Adhesives, 3D Printing, Consumer Electronics
Product Families:
Photoactive Resins, Oligomers, Other Resins & Binders
Chemical Family:
Urethane Acrylates
End Uses:
3D Printing Applications, Undercoat, Solventless & High Solids Coating
SHIKOH™ UV-3700B is UV curable urethane acrylate oligomer with high elongation and soft rubbery elasticity. It is relatively low viscosity despite its high molecular weight. EB and Thermal cure systems are also applicable. Features Soft elastic type, High elongation High molecular weight but relatively low viscosity Non-solvent (100% hardening ingredient) For UV adhesion with monomers Non-yellowing Applications Adhesive: UV/ EB/ Thermal-curable adhesive for electronics device, optical use and automotive use. 3D printer *SHIKOH™ is provided by Mitsubishi Chemical Corporation, a member of the Mitsubishi Chemical Group.
Mitsubishi Chemical Group Corporation
SHIKOH™ UV-3520TH
Chemical Family:
Urethane Acrylates
CASE Ingredients Features:
Improved Tear Strength, Improved Flexibility, Good Toughness, Crack Resistance, Excellent Adhesion, Good Elongation, Good Elasticity, High Tensile Strength, Weather Resistance, Tack-free, Radiation Curable
SHIKOH™ UV-3520TH is an aliphatic urethane acrylate oligomer with soft elasticity, good toughness and high elongation. It shows unique mechanical properties with various reactive diluents. Features Soft-Elastic type, Good toughness, High elongation Diluted in Tetrahydrofurfuryl Acrylate (THFA) (oligomer/ THFA = 70/30 wt%) Non-solvent (100% hardening ingredient) Unique mechanical properties with various reactive diluents Applications UV/ EB/ Thermal-curable adhesive UV adhesive for electric device use 3D printer, and Inkjet *SHIKOH™ is provided by Mitsubishi Chemical Corporation, a member of the Mitsubishi Chemical Group.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound DC004XXAR1
Polymer Name:
Polycarbonate (PC)
Fillers Included:
Carbon Fiber
Processing Methods:
3D Printing, Fused Filament Fabrication, Large Format Additive Manufacturing (LFAM)
Density:
1270.0 - 1270.0 kg/m³
SABIC's Specialties Business LNP THERMOCOMP DC004XXAR1 compound is based on Polycarbonate (PC) resin containing 20% carbon fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Higher Stiffness vs. glass fiber, Higher Strength, Higher Temperature Performance and Higher Throughput compared to ABS and PPE, as well as Excellent Ductility and Smooth Surface Finish.FeaturesCost EffectiveHigh DuctilityHigh Impact ResistanceHigh StiffnessHigh StrengthHigh Temperature StrengthSmooth Surface FinishVery Good Heat ResistanceApplications3D PrintingAdditive Manufacturing This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound DC0041XA51
Polymer Name:
Polycarbonate (PC)
Additives Included:
Flame Retardant
Fillers Included:
Carbon Fiber, Milled Glass Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1390.0 - 1390.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ DC0041XA51 compound is based on PC Copolymer Resin containing 20% carbon fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Higher Stiffness vs. glass fiber, Higher Strength, Higher Temperature Performance and Higher Throughput compared to ABS and PPE, as well as Smooth Surface Finish. This halogen-free flame retardant resin is EN45545 R1 HL3 and R27 HL2 compliant and an ideal candidate for train interior applications (category R1). It also meets requirements of NFPA-130a
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound AC004XXAR1
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
Fillers Included:
Carbon Fiber
Processing Methods:
3D Printing, Fused Filament Fabrication, Thermoforming, Large Format Additive Manufacturing (LFAM)
Density:
1140.0 - 1140.0 kg/m³
SABIC's Specialties Business LNP THERMOCOMP AC004XXAR1 compound is based on Acrylonitrile Butadiene Styrene (ABS) resin containing 20% carbon fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Higher Stiffness vs. glass fiber, Easy Processing, Low warp and Good Print Surface quality, making them a good candidate material for a broad range of applications and tooling, including thermoforming and vacuum-forming.FeaturesCost EffectiveEasier ProcessingGood PrintabilityGood ProcessabilityHigh StiffnessLow WarpageVacuum FormingApplications3D PrintingAdditive Manufacturing This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound EF004XXAR1
Polymer Name:
Polyether Imide (PEI)
Additives Included:
Flame Retardant
Fillers Included:
Glass Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1430.0 - 1430.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ EF004XXAR1 is a compound based on Polyetherimide (PEI) resin containing 20% glass fiber for Large Format Additive manufacturing (LFAM) applications. PEI compounds, based on SABIC's inherently flame-retardant ULTEM™ resins, provide low thermal expansion, high temperature performance, excellent strength-to-weight ratio, high modulus and low creep.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound ZF004XXAR1
Polymer Name:
PPO/PS Alloy
Processing Methods:
Fused Filament Fabrication, 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1220.0 - 1220.0 kg/m³
End Uses:
Industrial Parts, 3D Printing Applications
SABIC's Specialties Business LNP THERMOCOMP ZF004XXAR1 compound is based on Polyphenylene Ether / Polystyrene (PPE/PS) blend containing 20% glass fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Lower Thermal Expansion, Improved Hydrolytic Stability, Higher Strength to Weight Ratio and Higher Temperature Performance vs. ABS. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound DC004XXA11
Polymer Name:
Polycarbonate (PC)
Fillers Included:
Carbon Fiber
Processing Methods:
Fused Granulate Fabrication (FGF), 3D Printing, Fused Filament Fabrication, Large Format Additive Manufacturing (LFAM)
Density:
1290.0 - 1290.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ AM DC004XXA11is a compound based on High Heat PC copolymer resin containing 20% carbon fiber for Large Format Additive manufacturing (LFAM) applications, including mid-temperature autoclaving tooling. This compound can offer higher temperature performance than standard PC and avoid some of the processing challenges associated with high temperature materials.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound 6C004XXAR1
Polymer Name:
PC/PBT Alloy
Processing Methods:
3D Printing, Large Format Additive Manufacturing (LFAM), Fused Granulate Fabrication (FGF), Fused Filament Fabrication
Density:
1280.0 - 1280.0 kg/m³
End Uses:
Industrial Parts, Industrial Applications, Automotive Body Panel, 3D Printing Applications
SABIC's Specialties Business LNP™ THERMOCOMP™ 6C004XXAR1 compound is based on Polycarbonate / Polybutylene Terephthalate (PC/PBT) resin containing 20% carbon fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Improved Chemical Resistance, Lower Warp and Good Surface Finish.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound ZC004XXAR1
Polymer Name:
PPO/PS Alloy
Processing Methods:
3D Printing, Large Format Additive Manufacturing (LFAM), Fused Granulate Fabrication (FGF), Fused Filament Fabrication
Density:
1170.0 - 1170.0 kg/m³
End Uses:
Industrial Parts, Industrial Applications, 3D Printing Applications
SABIC's Specialties Business LNP™ THERMOCOMP™ ZC004XXAR1 compound is based on Polyphenylene Ether / Polystyrene (PPE/PS) blend containing 20% carbon fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Higher Stiffness vs. glass fiber, Lower Thermal Expansion, Improved Hydrolytic Stability, Higher strength to Weight Ratio, Higher Temperature Performance and improved processing vs. ABS based grades.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound EC004XXAR1
Polymer Name:
Polyether Imide (PEI)
Additives Included:
Flame Retardant
Fillers Included:
Carbon Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1340.0 - 1340.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ EC004XXAR1 is a compound based on Polyetherimide (PEI) resin containing 20% carbon fiber for Large Format Additive manufacturing (LFAM) applications needing higher stiffness vs glass fiber. PEI compounds, based on SABIC's inherently flame-retardant ULTEM™ resins, provide low thermal expansion, high temperature performance, excellent strength-to-weight ratio, high modulus and low creep.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound AF004XXAR1
Polymer Name:
Acrylonitrile Butadiene Styrene (ABS)
Fillers Included:
Glass Fiber
Processing Methods:
3D Printing, Thermoforming, Large Format Additive Manufacturing (LFAM)
Density:
1198.0 - 1198.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ AM Compound AF004XXAR1 is a top-quality material based on acrylonitrile butadiene styrene (ABS) resin containing 20% glass fiber specifically designed for large format additive manufacturing (LFAM) applications. This grade is easy to process, has low warp, and provides excellent print surface quality, making it an ideal candidate for a broad range of applications and tooling, including thermoforming and vacuum forming. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound DF004XXAR1
Polymer Name:
Polycarbonate (PC)
Fillers Included:
Glass Fiber
Processing Methods:
3D Printing, Fused Filament Fabrication, Large Format Additive Manufacturing (LFAM)
Density:
1350.0 - 1350.0 kg/m³
SABIC's Specialties Business LNP THERMOCOMP DF004XXAR1 compound is based on Polycarbonate (PC) resin containing 20% glass fiber for Large Format Additive Manufacturing (LFAM) applications. Added features of this grade include: Higher Strength, Higher Temperature Performance and Higher Throughput compared to ABS and PPE, as well as Excellent Ductility and Smooth Surface Finish. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
ULTEM™ Resin 9085
Polymer Name:
Polyether Imide Alloy
Processing Methods:
3D Printing, Fused Deposition Modeling (FDM), Extrusion, Large Format Additive Manufacturing (LFAM), Injection Molding, Profile Extrusion, Sheet Extrusion, Thermoforming
Density:
1340.0 - 1340.0 kg/m³
Flexural Modulus:
2700.0 - 2700.0 MPa
End Uses:
Aerospace Applications, Air Ducts, Rails, Aircraft Interiors
SABIC's Specialties Business ULTEM™ Resin 9085 is a polyetherimide blend that is specifically formulated for use in aerospace cabin interiors, as well as in rail applications and for FDM printing. It complies with aerospace FAR25.853 and OSU55/55 heat release requirements and has been approved by major aerospace OEMs. With a rail EN45545 R6-HL3 rating, this material offers excellent flow, stiffness, and ductility balance, allowing for thin-walled, lightweight designs. ULTEM™ Resin 9085 is opaque and can be custom colored to meet specific design requirements. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound EC004EXAR1
Polymer Name:
Polyether Imide (PEI)
Additives Included:
Flame Retardant
Fillers Included:
Carbon Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1340.0 - 1340.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ EC004EXAR1 compound is based on Polyetherimide (PEI) resin containing 20% carbon fiber designed to provide a Wider Process Window and Easier Flow for Large Format Additive Manufacturing (LFAM) applications needing High heat performance. PEI compounds, based on SABIC's inherently flame-retardant ULTEM™ resins, provide Low Thermal Expansion, High Temperature Performance, Excellent Strength-to-Weight Ratio, High Modulus and Low Creep.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound EZ006EXAR1
Polymer Name:
Polyether Imide (PEI)
Additives Included:
Flame Retardant
Fillers Included:
Glass Fiber, Milled Glass Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1510.0 - 1510.0 kg/m³
SABIC's Specialties Business LNP™ THERMOCOMP™ EZ006EXAR1is a compound based on Polyetherimide (PEI) resin containing 30% milled glass fiber for Large Format Additive manufacturing (LFAM) applications requiring better dimensional stability and low thermal expansion. PEI compounds, based on SABIC's inherently flame-retardant ULTEM™ resins, offer high temperature performance, excellent strength-to-weight ratio, high modulus and low creep.
SABIC's Specialties Business
LNP™ THERMOCOMP™ AM Compound JC004XXAR1
Polymer Name:
Polyethersulfone (PES)
Additives Included:
Flame Retardant
Fillers Included:
Carbon Fiber
Processing Methods:
Fused Filament Fabrication, Fused Granulate Fabrication (FGF), 3D Printing, Large Format Additive Manufacturing (LFAM)
Density:
1430.0 - 1430.0 kg/m³
SABIC's Specialties Business LNP THERMOCOMP AM JC004XXAR1 is a compound based on PESU (Polyethersulfone) resin containing 20% carbon fiber for Large Format Additive manufacturing (LFAM) applications needing an inherent FR, reinforcement, and a high heat amorphous solution. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.
Scott Bader
Crestaform® Open 3D printing resin
Processing Methods:
Stereolithography, 3D Printing, Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Dental Applications, Prototyping, Jewelry
Density:
1080.0 - 1100.0 kg/m³
Tensile Strength:
69.0 - 69.0 MPa
Crestaform® Open 3D printing resin is a versatile 3D printing resin designed for rapid prototyping and the creation of high-resolution models. It offers a fast and efficient method of fabrication. Compatible with various types of resin 3D printers, such as LCD, SLA, and DLP machines, it is suitable for use with popular brands including Formlabs, Asiga, Anycubic, and Elegoo.
Scott Bader
Crestaform® Rapid 3D printing resin
Processing Methods:
3D Printing, Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Dental Applications, Prototyping, Jewelry
Density:
1050.0 - 1070.0 kg/m³
Tensile Strength:
53.0 - 53.0 MPa
Crestaform® Rapid 3D printing resin is a high-performance 3D printing resin with superior mechanical performance and excellent reactivity. It can be used in most stereolithography 3D printers and cured by UV light. The level and quality of detail that can be achieved is staggering when using Crestaform® resins to produce your 3D print. The opportunities truly are endless.
Scott Bader
Crestaform® Dental Modelling HP 3D printing resin
Processing Methods:
Digital Light Processing, 3D Printing
End Uses:
Dental Applications
Density:
1080.0 - 1100.0 kg/m³
Tensile Strength:
69.0 - 69.0 MPa
Crestaform® Dental Modelling HP 3D printing resin is specifically designed for the rapid fabrication of precise fixed and removable dental prosthetic models. It combines remarkable dimensional stability during the scan-to-model process with fast printing speeds. Special attention has been given to achieving excellent surface finish and esthetics in the final parts, ensuring clear definition of margin lines and anatomical details.
Scott Bader
Crestaform® Rapid 8K 3D printing resin
Processing Methods:
Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Dental Applications, Prototyping, Jewelry
Density:
1050.0 - 1070.0 kg/m³
Tensile Strength:
33.0 - 33.0 MPa
Crestaform® Rapid 8K 3D printing resin is specifically optimized for high reactivity and positive feature build-up. It minimizes the depth of cure, enabling the full potential of next-generation 8K LCD and DLP 3D printers to be unlocked. With this resin, intricate details can be created with precision.
Scott Bader
Crestaform® Tough 3D printing resin
Processing Methods:
3D Printing, Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Dental Applications, Prototyping, Jewelry
Density:
1290.0 - 1300.0 kg/m³
Tensile Strength:
64.0 - 64.0 MPa
Crestaform® Tough 3D printing resin is a high-performance 3D printing resin with superior mechanical performance and excellent reactivity. It can be used in most stereolithography 3D printers and cured by UV light. The level and quality of detail that can be achieved is staggering when using Crestaform® resins to produce your 3D print. The opportunities truly are endless.
Scott Bader
Crestaform® Rapid 2.0 3D printing resin
Processing Methods:
Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Jewelry, Modeling Material, Prototyping, Figurines
Density:
1050.0 - 1070.0 kg/m³
Tensile Strength:
46.0 - 46.0 MPa
Crestaform® Rapid 2.0 3D printing resin is an upgraded general-purpose resin formulation that offers a lightning-fast print speed, high print quality, enhanced color, robust mechanical performance, and increased usability. It is specifically designed for creating high-resolution models, figurines, rapid prototyping, and jewelry.
Scott Bader
Crestaform® Durable 3D printing resin
Processing Methods:
3D Printing, Masked Stereolithography (LCD), Digital Light Processing
End Uses:
Dental Applications, Prototyping, Jewelry
Density:
1120.0 - 1130.0 kg/m³
Tensile Strength:
43.0 - 43.0 MPa
Crestaform® Durable 3D printing resin is a high-performance 3D printing resin with superior mechanical performance and excellent reactivity. It is compatible with most stereolithography 3D printers and is cured by UV light. The level and quality of detail that can be achieved is staggering when using Crestaform® resins to produce your 3D print. The opportunities truly are endless.
MOCOM Compounds
ALCOM® 3D TCE PC 5020 16116
Polymer Name:
Polycarbonate (PC)
Processing Methods:
3D Printing, Fused Deposition Modeling (FDM), Extrusion, Injection Molding, Filament Extrusion
End Uses:
Electrical/Electronic Applications
Density:
1300.0 - 1300.0 kg/m³
MOCOM Compounds ALCOM® 3D TCE PC 5020 16116 is a polycarbonate-based polymer with 20% special filler that has increased thermal conductivity, is antistatic, and is heat stabilized. It is used in the Lighting, electrical and electronic market segment and is applicable for Extrusion of 3D printable FDM filaments for functional components. Processing Injection molding Filament extrusion melt temperature should be 250-270°C, and recommendations for 3D printing depending on printer type are nozzle temperature of 300-320°C, bed temperature of 80-120°C, and print speed of 10-60 mm/s.
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