3DXTECH Filament

3DXFLEX™ TPU elastomer is an engineering-grade material that we chose based on its balance of printability, flexibility, chemical resistance, and toughness. 3DXFLEX™ TPU (90A) elastomer is an engineering-grade material that we chose based on its balance of printability, flexibility, chemical resistance, and toughness. 3DXFLEX™ TPU has a hardness of 90A, allowing you to make very tough, impact-resistant, flexible prints. We recommend direct-drive extruders, but experienced users can be successful with Bowden-type drives as well. Benefits of 3DXFLEX™ TPU (90A) Include: High elongation, over 500% Shore 90A semi-flex hardness Ease of printing compared to similar flexible materials Excellent layer bonding Outstanding fatigue resistance Very low odor emitted while printing Low moisture absorption Retains flexibility even at low temperature Styrene and BPA free This product contains 1000 grams of filament. 2.85mm, White Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 220-240°C Bed Temp: 23-40°C Bed Prep: Magigoo Bed Prep or 3DXTECH Polyimide Tape gives us the best results Heated Chamber: Not required Supports: AquaTek™ water-soluble X1 USM Universal Support Material works ideal for complex parts Drying Instructions: 65°C for 4 hours Resouces Technical Datasheet

3DXSTAT™ ESD ABS is an advanced ESD-Safe filament formulated for a wide array of applications that require electrostatic discharge (ESD) protection and thermal stability up to 95°C. Made using high flow ABS and CNT’s to offer exceptional repeatability and reliability. Target surface resistance: 10^7 to 10^9 Ohm. Compare to Stratasys® ABS-ESD7 in performance and price and you’ll never go back! Made using cutting-edge multi-wall carbon nanotube technology, state-of-the-art compounding technology, and precision extrusion processes. 3DXSTAT™ ESD ABS is an advanced ESD-Safe compound designed for use in critical applications which require electrostatic discharge (ESD) protection and a high level of cleanliness. Manufactured with consistency in mind, 3DXTECH starts with premium ABS and then compounds it according to a proprietary formulation of multi-wall carbon nanotubes – giving you a filament with excellent printing characteristics and consistent ESD properties. Benefits of ABS Include: Durable and sturdy parts off practically every machine on the market Easier to print than most industrial-grade materials Higher melting point and thermal properties than PLA or PETG Ideal for prototyping or end-use parts among both industry engineers and hobbyists alike Benefits of 3DXSTAT™ Include: Consistent surface resistivity Improved retention of impact & elongation Low particulate contamination Minimal contribution to outgassing and ionic contamination This product contains 1000 grams of filament. 2.85mm Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 220-240°C Bed Temp: 100-110°C Bed Prep: Magigoo Bed Prep Adhesive and 3DXTECH Polyimide Tape work best for us. Heated Chamber: Recommended, a chamber helps reduce warping. Other: Increasing your extrusion multiplier up to 1.15 or even 1.2 and varying your fan speed between 50-100% may be necessary. Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 80°C for 4 hours. ESD ABS Typical ESD ABS Applications Include: Semi-con: HDD Components, Wafer Handling, Jigs, Casings, & Connectors Industrial: Conveying, Metering, and Sensing Applications Target Conductivity for 3DXSTAT ESD ABS: 10^7 to 10^9 ohm surface resistivity on 3DP sample using concentric ring test method. Note: Internal studies have indicated that increased extruder temperatures can achieve higher levels of conductivity. Likewise, lower extruder temperatures have resulted in lower levels of conductivity. Each printer is set up differently as well as varied part geometry. Therefore, expect some trial time to understand how ESD ABS filament works in your specific printer/application. Surface Conductivity as a Function of Extruder Temperature: The surface resistance of the printed ESD-safe part will vary depending on the printer’s extruder temperature. For example, if your testing indicates the part is too insulative, then increasing the extruder temperature will result in improved conductivity. Therefore, the surface resistance can be ‘dialed-in’ by adjusting the extruder temperature up or down depending on the reading you receive on your ESD ABS part.   Resouces Technical Datasheet Safety Data Sheet

3DXSTAT™ ESD-Safe Polycarbonate (ESD PC) 3D Printing Filament 3DXSTAT™ ESD PC is an advanced ESD-Safe compound designed for use in critical applications which require electrostatic discharge (ESD) protection. Made using cutting-edge multi-wall carbon nanotube technology, state of the art compounding technology, and precision extrusion processes. Target surface resistance of 10^7 to 10^9 Ohm. Extruder Temp: 260-3000°C Bed Temp: 110-120°C Heated Chamber: Recommended Nozzle Specs: 0.4mm diameter minimumHardened Steel Nozzle  Supports: X1 Water Soluble Support Drying Specs: 80°C for 4+ hours Layer Height: No special recommendation Bed Adhesion Magigoo Bed Prep Benefits of Polycarbonate (PC) Include: High thermal properties including a Tg of 147°C Amorphous structure gives low, near isotropic shrinkage Excellent ductility and impact resistance Very low odor emitted while printing Wide processing range of 265-300°C Benefits of 3DXSTAT™ Include Consistent surface resistivity Improved retention of impact & elongation Low particulate contamination Minimal contribution to outgassing and ionic contamination This product contains 1000 grams of filament. 2.85mm Available on order only. (Lead time: <7 days) Typical ESD PLA Applications Include: Semi-con: HDD Components, Wafer Handling, Jigs, Casings, & Connectors Industrial: Conveying, Metering, and Sensing Applications Target Conductivity for 3DXSTAT ESD PLA: 10^7 to 10^9 ohm surface resistivity on 3DP sample using concentric ring test method. Note: Internal studies have indicated that increased extruder temperatures can achieve higher levels of conductivity. Likewise, lower extruder temperatures have resulted in lower levels of conductivity. Each printer is set up differently as well as varied part geometry. Therefore, expect some trial time to understand how ESD PLA filament works in your specific printer/application. Surface Conductivity as a Function of Extruder Temperature: The surface resistance of the printed ESD PLA part will vary depending on the printer’s extruder temperature. For example, if your testing indicates the part is too insulative, then increasing the extruder temperature will result in improved conductivity. Therefore, the surface resistance can be ‘dialed-in’ by adjusting the extruder temperature up or down depending on the reading you receive on your part. Specifications  1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 260-300°C Bed Temp: 110-120°C Bed Prep: Magigoo Bed Prep or 3DXTECH Polyimide Tape gives us the best results Heated Chamber: Recommended, a chamber helps reduce warping and improves layer adhesion Supports: AquaTek™ water soluble X1 USM Universal Support Material works ideal for complex parts Drying Instructions: 120°C for 4 hours.

3DXSTAT™ ESD-PETG 3DXSTAT™ ESD-PETG is an advanced ESD-Safe compound designed for use in critical applications which require electrostatic discharge (ESD) protection. Made using cutting-edge multi-wall carbon nanotube technology, state of the art compounding technology, and precision extrusion processes. Target surface resistance: 10^7 to 10^9 Ohm. An alternative to Zortrax Z-ESD. Extruder Temp: 230-260°C Bed Temp: 60-90°C Heated Chamber: Not Required Nozzle Specs: No special concerns  Supports: X1 Water Soluble Support Drying Specs: 65°C for 4+ hours Layer Height: No concern Bed Adhesion Magigoo Bed PrepNano Polymer Adhesive Benefits of PETG Include: Superior chemical resistance vs. ABS Amorphous structure giving it low, near isotropic shrinkage Low moisture absorption, 3x lower than ABS Very low odor emitted while printing Superior ductility vs. ABS Wide processing range of 230-260°C Benefits of 3DXSTAT™ Include: Consistent surface resistivity Improved retention of impact & elongation Low particulate contamination Minimal contribution to outgassing and ionic contamination TECHNICAL DATA SHEET Click to open this material’s TDS. SAFETY DATA SHEET Click to open this material’s SDS. Chemical Resistance of PETG: Unstressed tensile bars molded of PETG exhibit good resistance to dilute aqueous solutions of mineral acids, bases, salts, and soaps, and to aliphatic hydrocarbons, alcohols, and a variety of oils. Halogenated hydrocarbons, short chain length ketones, and aromatic hydrocarbons dissolve or swell the plastic. Typical ESD-PETG Applications Include: Semi-con: HDD Components, Wafer Handling, Jigs, Casings, & Connectors Industrial: Conveying, Metering, and Sensing Applications Target Conductivity for 3DXSTAT ESD-PETG: 10^7 to 10^9 ohm surface resistivity on 3DP sample using concentric ring test method. Note: Internal studies have indicated that increased extruder temperatures can achieve higher levels of conductivity. Likewise, lower extruder temperatures have resulted in lower levels of conductivity. Each printer is set-up differently as well as varied part geometry. Therefore, expect some trial time to understand how this filament works in your specific printer / application. However, please do not exceed 270°C to reduce the risk of polymer degradation. Surface Conductivity as a Function of Extruder Temperature: The surface resistance of the printed ESD-safe part will vary depending on the printer’s extruder temperature. For example, if your testing indicates the part is too insulative, then increasing the extruder temperature will result in improved conductivity. Therefore, the surface resistance can be ‘dialed-in’ by adjusting the extruder temperature up or down depending on the reading you receive on your part. Filament Specifications: 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 230-260°C Bed Temp: 60-90°C Bed Prep: Magigoo Bed Prep Adhesive and 3DXTECH Polyimide Tape work best for us. Heated Chamber: Not required Supports: Water soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 65°C for 4 hours.

CarbonX™ ABS+CF is made using our high-flow ABS and premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish.CarbonX™ ABS+CF is a high-performance carbon fiber reinforced ABS filament ideal for anyone that desires a structural component with high modulus, excellent surface quality, dimensional stability, lightweight, and ease of printing. Made using 15% High-Modulus Carbon Fiber (not carbon powder or milled carbon fiber). Made in the USA using premium Sabic MG-94 ABS and high modulus carbon fiber. Benefits of CarbonX™ ABS+CF Include: Stiff, high-modulus, industrial-grade parts off many 3D printers available on the market today Greatly improved stiffness, modulus, and dimensional stability thanks to the addition of carbon fiber reinforcement Easier to print than most industrial-grade materials Parts can be smoothed with acetone vapors Higher melting point than PLA or PETG This product contains 750 grams of filament. 2.85mm Available on order only. (Lead time~ 7-10 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 220-240°C Bed Temp: 100-110°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm. Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments. Bed Prep: Magigoo Bed Prep Adhesive gives us the best results Heated Chamber: Recommended, a chamber helps reduce warping. Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 80°C for 4 hours. Carbon Fiber Filament What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources Technical Data Sheet Safety Data Sheet

CarbonX™ PA12+CF is made using a specialty Nylon 12 [PA12] and high-modulus carbon fiber. This material offers an excellent combination of performance and printability. PA12 absorbs much less moisture than PA6-based materials and has superior retention of mechanical properties after exposure to humid environments. CarbonX™ Carbon Fiber PA12 is made using high-modulus carbon fiber and a specialty Nylon 12 (PA12) that we chose for it’s printability, thermal properties, and chemical resistance. PA12+CF is widely used in a variety of industries due to its excellent chemical resistance, low moisture absorption, and wide processing window. Our formulation ensures very low shrinkage in the printed part resulting in excellent dimensional stability, making our PA12+CF an excellent choice for tools, fixtures, and jigs. Benefits of PA12+CF Includes: High thermal properties, with a CUT of 120°C and HDT of 150°C Excellent strength and stiffness over a wide temperature range, up to 150°C Very low moisture absorption yielding improved retention of mechanical properties even when exposed to humid environments Low density makes it ideal for light-weight parts Superior chemical resistance, especially when compared to PA6 nylons Low shrinkage and warping for high dimensional stability and reproducible part-to-part measurements This product contains 500 grams of filament. 2.85mm and 1KG Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 265-285°C Bed Temp: 90-110°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments Bed Prep: Magigoo Bed Prep and 3DXTECH Polyimide Tape gives us the best results Heated Chamber: Recommended Supports: AquaTek™ water-soluble X1 USM Universal Support Material is designed to work with complex models Drying Instructions: 90°C for 4 hours Carbon Fiber Filament What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources Technical Data Sheet Safety Data Sheet

CarbonX™ ezPC+CF Carbon Fiber Reinforced Polycarbonate CarbonX™ ezPC+CF is a high-performance carbon fiber reinforced polycarbonate filament.   This all-new material material is ideal for anyone that desires a structural component with high heat, high stiffness, excellent surface quality, and dimensional stability. ezPC+CF is a clear choice for engineering-grade projects that require excellent performance and ease of printability. Extruder Temp: 260-280°C Bed Temp: 80-100°C Heated Chamber: Not required Nozzle Specs: 0.4mm diameter minimumHardened Steel Nozzle  Supports: X1 Water Soluble Support Drying Specs: 80°C for 4+ hours Layer Height: 0.25mm or higher Bed Adhesion Magigoo Bed PrepNano Polymer Adhesive  Benefits of CarbonX™ ezPC+CF Include: High thermal properties, especially when reinforced with carbon fiber Amorphous structure gives it low, near isotropic shrinkage (very low CTE) Further improved stiffness and dimensional stability with the addition of carbon fiber reinforcement Very low odor emitted while printing Wide processing range of 260-280°C (suitable for most desktop printers) Filament Specifications: 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 260-280°C Bed Temp: 80-100°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm. Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments. Bed Prep: Magigoo Bed Prep Adhesive or Nano Polymer Adhesive Heated Chamber: Recommended Supports: Water soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 80°C for 4+ hours.

CarbonX™ HTN+CF (High Temp CF Nylon) Printing Filament CarbonX™ High Temp CF Nylon is an advanced, semi-aromatic polyphthalamide (PPA) reinforced with high-modulus carbon fiber. This polymer is widely used for metal replacement applications that must resist high mechanical loads at elevated temperatures and aggressive chemical environments. HTN has traditionally been a go-to material for demanding applications in automotive, aerospace, oil & gas, electrical, electronics, and industrial markets. Extruder Temp: 285-315°C Bed Temp: 110-120°C Heated Chamber: Recommended Nozzle Specs: 0.4mm diameter minimumHardened Steel Nozzle  Supports: X1 Water Soluble Support Drying Specs: 90°C for 4+ hours Layer Height: 0.25mm or higher Bed Adhesion Magigoo Bed PrepNano Polymer Adhesive Benefits of HTN+CF High Temp CF Nylon Include: High thermal properties, with a Tg of 125°C, HDT of 240°C, and Tm of 265°C Excellent strength and stiffness over a wide temperature range, up to 240°C, higher than ULTEM™ PEI Very low moisture absorption yielding improved retention of mechanical properties even when exposed to humid environments Outstanding chemical resistance to alcohols, acids, automotive and jet fuels, oils, lubricants, brake and transmission fluids, antifreeze, and Zn/Ca Chlorides Filament Specifications: 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 285-315°C Bed Temp: 110-120°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments Bed Prep: Magigoo Bed Prep and 3DXTECH Polyimide Tape gives us the best results Heated Chamber: Recommended Supports: AquaTek™ water soluble X1 USM Universal Support Material is designed to work with complex model geometries Drying Instructions: 90°C for 4 hours

CarbonX™ PA6+CF [Gen3] is made using a specialty Nylon 6 [PA6] copolymer and high-modulus carbon fiber. This is the go-to material for industrial applications that require superior thermal, mechanical, and chemical resistance properties while retaining the ease of printing that you’ve come to expect. Gen 3 CarbonX™ PA6+CF filament is formulated using a PA6 copolymer reinforced with high-modulus carbon fiber. This filament is ideal for anyone that desires a structural component with high modulus, improved chemical and thermal resistance, excellent surface quality, and ease of printing. Gen3 has higher HDT than our previous grades (147°C at .45MPa) allowing for expanded use in higher-temp applications. Unparalleled rigidity gives designers the properties they need to make their 3D printed parts with less material and save weight without sacrificing stiffness. Benefits of Nylon PA6+CF: Excellent printability High tensile strength and rigidity Abrasion and wear resistance Improved chemical resistance over traditional 3D printing materials High thermal properties This product contains 500 grams of filament. 2.85mm and 1KG Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 240-270°C Bed Temp: 80-110°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments. Bed Prep: Magigoo Bed Prep Adhesive gives us the best results Heated Chamber: Not required, but a heated chamber between 30-80°C allows for superior layer bonding and mechanical properties Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 90°C for 4 hours Carbon Fiber Filament What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources Technical Data Sheet Safety Data Sheet

CarbonX™ PEI + CF [Aerospace] is made using Sabic Ultem™ 9085 PEI (polyether imide) and Toray Torayca™ T800 Aerospace-grade carbon fiber. Toray’s T800 aerospace-grade carbon fiber offers excellent strength and stiffness and couples excellently to Ultem™ 9085 – creating an outstanding material with excellent flammability, thermal, mechanical, and chemical resistance properties. CarbonX™ CF PEI 9085 Aerospace is made using Sabic Ultem™ 9085 resin and 10% certified Toray T800 chopped carbon fiber. This custom formulation is an excellent printing aerospace-grade material specifically formulated for our aerospace clients. Ultem™ 9085 is FAA-approved for FST applications (Flame/Smoke/Toxicity) and meets FAR 25.853 and OSU 65/65 standards. Toray T800 carbon fiber has a 5µm diameter (vs. 7µm for standard carbon fiber) and allows for more fibers per cc3 of material than when using standard carbon fiber. This allows for superior strength and stiffness while maintaining excellent dimensional stability and printability. Benefits of Ultem™ PEI+CF [Aerospace] Include: High thermal properties, Tg of 186°C and an HDT of 165°C Inherent flame resistance due to Ultem™ 9085 base resin Improved stiffness and strength for structural applications Excellent dimensional stability – lower CTE, warp, and shrinkage vs unfilled grades Resistance to a broad range of chemicals, include automotive fluids, fully halogenated hydrocarbons, alcohols, and aqueous solutions This product contains 500 grams of filament. 1kg Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 365-390°C Bed Temp: 140-160°C Bed Prep: Nano Polymer Adhesive, 3DXTECH Polyimide Tape, or Ultem PEI tape gives us the best results Other: No cooling fan with print speeds of 16mm/s as a starting point Heated Chamber: Recommended, a chamber helps reduce warping and improves layer adhesion, up to 180°C if equipped Supports: ThermaX HTS High-Temp Support works ideal for complex, high-temp materials just like this. Drying Instructions: 140°C for 4 hours. PEI+CF Ultem 9085 Applications Aerospace: The excellent balance of flame retardancy, low smoke emission, and low smoke toxicity of ULTEM PEI+CF makes it an excellent candidate for aerospace and aircraft applications. ULTEM offers low toxicity, smoke, and flame evolution. Ultem resins are found in applications such as personal service units, oxygen panels and components, ventilation system components, connectors, cable ducts, latches, hinges, food tray containers, door handles, and interior cladding parts. Automotive & Transportation: PEI+CF resins provide automotive manufacturers with a high-performance, chemically resistant, thermally-stable, cost-effective alternative to metal that is strong enough to replace steel in some applications yet light enough to replace aluminum in others. For applications like transmission components, throttle bodies, ignition components, sensors, and thermostat housings. Electronics: PEI+CF may be an excellent material choice for today’s demanding electrical applications, including connectors, MCB components like housings, shafts and levers, hard disk drive internals, FOUPs, BiTS, PCBs, MCCB internals, Plenum devices, LCD projector internals, fuel cell components, and many other applications. Carbon Fiber Filament What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources Technical Data Sheet Safety Data Sheet

CarbonX™ PETG+CF is made using our high-flow PETG and premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish. CarbonX™ PETG+CF is made in the USA using premium PETG and High-Modulus Carbon Fiber (not carbon powder or milled carbon fiber). CarbonX™ PETG+CF is an improved CF reinforced 3D printing filament vs. the competition. This filament is ideal for anyone that desires a structural component with high modulus, excellent surface quality, dimensional stability, lightweight, and ease of printing. Benefits of CarbonX™ PETG+CF Include: Superior chemical resistance vs. ABS Amorphous structure giving it low, near isotropic shrinkage Low moisture absorption, 3x lower than ABS Very low odor while printing Wide processing range from 230-270°C Chemical Resistance of PETG: Unstressed tensile bars molded of PETG exhibit good resistance to dilute aqueous solutions of mineral acids, bases, salts, and soaps, and to aliphatic hydrocarbons, alcohols, and a variety of oils. Halogenated hydrocarbons, short-chain length ketones, and aromatic hydrocarbons dissolve or swell the plastic. This product contains 750 grams of filament. 2.85mm Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 230-260°C Bed Temp: 70-90°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm. Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments. Bed Prep: Magigoo Bed Prep Adhesive gives us the best results Heated Chamber: Not required Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 65°C for 4 hours. Carbon Fiber What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, is extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources  Technical Data Sheet Safety Data Sheet  

CarbonX™ PLA+CF is made using Natureworks PLA and premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish. CarbonX™ PLA+CF is an improved CF reinforced 3D printing filament vs. the competition. Made using High-Modulus Carbon Fiber (not carbon powder or milled carbon fiber). This filament is ideal for anyone that desires a structural component with high modulus, excellent surface quality, dimensional stability, lightweight, and ease of printing. Made in the USA using premium Natureworks PLA and high modulus carbon fiber. PLA is well-known for its incredible ease of printing, stiffness, and extremely high visual print quality. It’s ideal for prototyping, concept models, and end-use printed parts for hobbyists and industry engineers alike! Benefits of CarbonX™ PLA+CF Include: Ideal for printing without a heated bed, no enclosure required Even with lower shrinkage and warping, improved by the carbon fiber reinforcement, this PLA prints great on practically any desktop 3D printer Very low odor, perfect for 3D printing in home and office environments Greatly increased stiffness, modulus, and dimensional stability Made from plants, PLA is a renewable biopolymer Gorgeous surface quality to make printed parts look beautiful 2.85mm and Silver variant available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 190-220°C Bed Temp: 23-60°C Nozzle: We currently recommend a hardened steel nozzle with a minimum diameter of 0.4mm. Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments. Bed Prep: Magigoo Bed Prep Adhesive gives us the best results Heated Chamber: Not required Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 65°C for 4 hours. Carbon Fiber What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work?Reinforcing plastic with carbon fibers produces a 3D printing filament that exhibits the best properties of both the carbon fibers and the plastic of choice.What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resources  Technical Data Sheet Safety Data Sheet

CarbonX™ PP+CF is made using a specialty formulated PP copolymer and reinforced with premium high-modulus carbon fiber. This material offers ease of printing, strength & stiffness, excellent dimensional stability, and an amazing surface finish. CarbonX™ PP+CF is made using a specialty formulated polypropylene copolymer reinforced with high-modulus chopped carbon fiber. This filament is based on a patent-pending formulation that offers improved thermal properties and low shrinkage/warp compared to competitive PP-based compounds. The reels contain 750g of filament, but based on the very low density of PP+CF, this is the same amount of filament that would typically be found on a 1kg reel of ABS. This allows you to print lightweight and exceptionally rigid parts for medical, drones, watercraft, automotive, or any application which would benefit from a lightweight, stiff, chemically resistant material. Benefits of PP+CF Include: Excellent resistance against a huge variety of chemicals Low density and weight Easier to print than most flexible materials and suitable for use with practically any 3D printer Does not absorb moisture, no drying is needed! High strength and stiffness Chemical Resistance of PP+CF: Since properties can change depending on print environment and 3D model geometry and/or surface area, it is always required to do your own testing, but Polypropylene is famous for its chemical resistance to a huge range of environments including: Acids: Acetic, Boric, Hydrochloric, Phosphoric, Stearic, Sulfuric, Uric Bases: Hydrocides of Ammonium, Barium, Calcium, Magnesium, Potassium, Sodium Solvents: Acetone, Ethanol, MEK, Phenol (10%), Water This product contains 1000 grams of filament. 2.85mm Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 220-250°C Bed Temp: 23-60°C Nozzle: We highly recommend a hardened steel nozzle with a minimum diameter of 0.4mm Other: Ideal layer height is 60% of nozzle diameter. We do not recommend printing layers smaller than 0.2mm with carbon fiber reinforced filaments Bed Prep: Magigoo Bed Prep gives us the best results Heated Chamber: Not required Supports: AquaTek™ Water Soluble X1 USM Universal Support Material is one of the few materials capable of properly forming a strong, temporary bond for support. Polypropylene is infamous for being difficult to support, and X1 USM is ideal for the job Drying Instructions: Not needed CarbonFiber  What Is It? Fibers 5-10 micrometers wide made of carbon. The fibers are aligned following the axis of the material. This, along with their physical makeup, are what gives this material its excellent properties. What Does It Do? Carbon Fibers demonstrate a lot of desirable material properties: High stiffness High tensile strength High heat tolerance High chemical resistance Low weight Low thermal expansion How Does It Work? Reinforcing plastic with carbon fibers produces a 3D printing filament which exhibits the best properties of both the carbon fibers and the plastic of choice. What Is It Good For? Ideal for any applications which require lightweight and rigidity. Carbon fiber reinforced parts, designed to use less material and save weight, are extremely popular in aerospace, civil engineering, the military, and motorsports. Abrasive Material This material is particularly abrasive among 3D printing filaments. Users may find standard brass nozzles are chewed through very quickly compared to standard wear and tear. When worn through, the nozzle diameter will widen inconsistently and the printer will experience extrusion issues. Because of this, it's strongly recommended this material be printed through a hardened steel nozzle rather than a softer metal. Hardened steel nozzles can often be inexpensive and easily installed depending on your printer manufacturer's instructions. Resouces Technical Data Sheet

ECOMAX® Tough PLA is a unique filament created to offer superior ductility and lower gloss when compared to standard PLA. We formulated this engineering-grade material for industrial applications that require a more robust set of properties than what is usually available from typical PLA.   PLA is most well-known for its ease of printing, stiffness, and extremely high visual print quality. Tough PLA builds upon PLA’s foundation and greatly improves the material’s properties. It is ideal for prototypes, concept models, and end-use printed parts for hobbyists to industry engineers alike! Benefits of Tough PLA Include: Greatly improved impact resistance and ductility while still being among the easiest materials to 3D print with Ideal for printing without a heated bed, no enclosure required Low shrinkage, warping, and easy printability, Tough PLA prints great on practically any desktop 3D printer Very low odor, perfect for 3D printing in home and office environments Made from plants makes PLA a renewable biopolymer Gorgeous surface quality and low-gloss to make printed parts look beautiful and highly technical.   This product contains 750 grams of filament. 2.85mm Available on order only. (Lead time: <7 days) Tough PLA Tough PLA is a unique filament created to offer superior impact resistance, ductility, and lower gloss when compared to standard PLA. Developed for industrial-grade applications which require a more robust set of properties than what’s usually available from the typical PLA. Tough PLA is a biopolymer derived from plants. Our premium blend of ECOMAX® PLA is made right here in the USA from 100% virgin PLA Natureworks biopolymer resin and state-of-the-art compounding technologies to achieve its toughness. It’s famous for being perfectly suited to practically all desktop 3D printers, including the Makerbot, Prusa, Ender, Flashforge, Anet, Creality, Lulzbot, Makergear, Ultimaker, and many more printer families. Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 200-230°C Bed Temp: 23-60°C Bed Prep: Magigoo Bed Prep Adhesive gives us the best results Heated Chamber: Not required Supports: Water-soluble AquaTek X1 USM works great for complex parts. Drying Instructions: 65°C for 4 hours. Resources Technical Data Sheet  

Evolv3D™ OBC (Olefin Block Copolymer) is an engineering-grade polyethylene copolymer. OBC is state-of-the-art in polyethylene 3D printing and eliminates many of the problems associated with printing polypropylene-based materials. OBC Polyethylene is semi-crystalline and has excellent chemical resistance coupled with ease of printing and real-world functional properties. The reels contain 750g of filament, but based on the very low density of OBC Polyethylene, this is the same amount of filament that would typically be found on a 1kg reel of ABS. This allows you to print light-weight and exceptionally durable parts for medical, drones, watercraft, automotive, or any application which would benefit from a lightweight, chemically resistant material. Benefits of OBC Polyethylene Include: Superior chemical resistance Flexible and fatigue resistant Excellent layer bonding Very low density, 0.95 g/cm3 No moisture absorption, no need to dry! Virtually no odor emitted while printing This product contains 750 grams of filament. 2.85mm, Grey, Red, Blue Available on order only. (Lead time: <7 days) Specifications 1.75mm and 2.85mm +/- 0.05mm in diameter Recommended Print Settings: Extruder: 175-215°C Bed Temp: 60-100°C Bed Prep: Magigoo Bed Prep gives us the best results Heated Chamber: Not required, though an enclosure can help reduce warping and improves print success. 23-60°C if at all possible Supports: AquaTek™ water-soluble X1 USM Universal Support Material is designed to work with complex models Drying Instructions: 65°C for 4 hours Resouces Technical Datasheet