eSUN 3D Printing Filaments: Comprehensive Product Catalog and Technical Specifications

About eSUN

eSUN is an internationally renowned 3D printing material brand founded by Shenzhen Esun Industrial Co., Ltd. Established in 2002 and successfully listed on the NEEQ (stock code: 836514) since 2016, eSUN is dedicated to the research, development, production, and sales of 3D printing materials, driving the industry's advancement. The company has mastered the production technology for materials like PLA, PCL, ABS, and PETG, catering to diverse customer needs. eSUN 3D printing materials offer a comprehensive range, excellent performance, and wide applications across product design, industrial manufacturing, surgical medical treatment, culture and art, education, and scientific research.

Global Presence:

Shenzhen, CN Headquarters
Wuhan, CN Office
Xiaogan, CN Factory
Ho Chi Minh, VN Factory
Russian transit warehouse
German transit warehouse
Dutch transit warehouse
Spanish transit warehouse
Houston, US Office
US transit warehouse

eSUN's products are recognized globally, sold in nearly 100 countries and regions, building a strong international reputation.

Product Catalog Overview

eSUN offers a wide array of 3D printing materials categorized by their functional properties:

Basic Engineering: ABS, ABS+, ASA+, PC, PA
Electro-Static Discharge (ESD): ABS-ESD, PETG-ESD
Carbon Fiber (CF): PLA-CF, PETG-CF, PET-CF, ABS-CF, PA-CF, PA12+CF
High Temperature: ABS-HT, PC-HT
Glass Fiber (GF): PLA-GF, ABS-GF
Flame Retardant: ABS-FR, PET-FR
Flexible: TPU-95A, TPU-87A, TPU-64D, TPU-HS, TPE-83A
Lightweight (LW): PLA-LW, TPU-LW, ASA-LW
Super Tough (ST): PLA-ST
Special Engineering: PEEK-Industrial
Others: PVA, HIPS, Clean

Product Advantages

Excellent Performance, Stable and Reliable

eSUN's engineering-grade 3D printing materials feature superior mechanical properties and outstanding printing stability, ensuring a high-quality and dependable user experience.

Widely Applied, Verified by Its Strength

With over 20 years of industry experience, eSUN accurately understands market needs, assisting global enterprises and individuals in creating high-quality 3D printing solutions widely used in engineering manufacturing, industrial design, and other fields.

Strict Quality Control, Exquisite Manufacturing

From raw material screening to production and final inspection, eSUN maintains high-standard quality control, guaranteeing stable and reliable performance for every batch of engineering materials in industrial applications.

Handle Professionally, Deliver Rigorously

Before packaging, eSUN engineering materials undergo strict drying and vacuum sealing processes to preserve their performance during storage and transportation, enhancing the user experience.

Application Cases

eSUN materials are utilized across diverse industries and applications:

Prototype Design: Used by @MonashNovaRover, @ktm_official, @Peter Nilsson.
Industrial Components: Featured in applications by @ecpa3d, @isun3d.
Footwear: Applications shown.
Aerospace: Applications shown.
Electromechanics: Applications shown by @RZtronics.
Orthopedic Appliances: Applications shown.
Architectural Model: Applications shown by @ecpa3d.

01 Engineering/Basic

ABS

Key Features: Impact Resistance, High Strength, Heat Resistance.

ABS material offers excellent toughness, impact resistance, and heat resistance, making it suitable for printing products that require high strength and durability.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Architectural Models, Industrial Parts, Mechanical Teaching Aids.

02 Engineering/Basic

ABS+

Key Features: Low Odor, Low Shrinkage, High Strength.

ABS+ is a reinforced upgrade of traditional ABS. It retains high strength and impact resistance, while having lower odor and less shrinkage. This advanced material offers durability and better performance for demanding uses.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Architectural models, Industrial parts, Mechanical teaching aids.

03 Engineering/Basic

ASA+

Key Features: UV Resistant, Impact Resistant, Durable.

ASA+ boasts exceptional weather resistance and UV protection, standing resilient against wind and sun, ensuring that the colors of printed products remain consistent over time.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Outdoor applications, Industrial parts, Automotive components.

04 Engineering/Basic

PC

Key Features: High Toughness, Impact Resistant, Heat Resistant.

This is a superior 3D printing material with excellent mechanical properties, featuring high toughness and impact resistance, ensuring stable and durable performance.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Prototype Design, Translucent Model, Architectural Decoration.

05 Engineering/Basic

PA

Key Features: High Toughness, Impact Resistance, Low Shrinkage.

This material offers robust strength and impact resistance, ideal for printing high-toughness engineering components. Its low shrinkage rate minimizes warping and cracking during the printing process.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Prototype Design, Translucent Model, Architectural Decoration.

06 Functional/Carbon Fiber

PLA-CF

Key Features: Wear Resistance, Eco-Friendly, Biodegradable.

This is an eco-friendly, biodegradable PLA carbon fiber material. Imported German short-cut carbon fibers are added to PLA, making the material strong and highly wear-resistant. It offers great printing results and enables high-speed printing.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Drone Components, Model Making, Tool Fixtures.

07 Functional/Carbon Fiber

PETG-CF

Key Features: Heat Resistance, Strong Chemical Resistance.

This is a high-strength, high-rigidity carbon fiber material that is heat-resistant and chemical-resistant, offering stable printing with minimal warping.

Properties: Impact Resistance, Rigidity, Toughness, Printing Performance, Heat Resistance, Interlayer Bonding Strength.

Applications: Outdoor Gear, Mechanical Components, Aerospace.

08 Functional/Carbon Fiber

PET-CF

Key Features: Heat Resistance, Strong Chemical Resistance.

This is an exceptionally strong carbon fiber material, featuring heat resistance, chemical resistance, and stable printing with minimal warping. Additionally, printed products can be used in humid environments.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Aerospace, Mechanical Components, Sports Equipment.

09 Functional/Carbon Fiber

ABS-CF

Key Features: Wear Resistance, High-Temperature Resistance.

This is a high-temperature-resistant carbon fiber material, offering enhanced strength, rigidity, and wear resistance, along with stable printing and minimal warping.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Mechanical Components, Aerospace, Electronic Enclosures.

10 Functional/Carbon Fiber

PA-CF

Key Features: High-Temperature Resistance, Wear and Impact Resistance.

This self-lubricating carbon fiber material is wear, heat, and impact resistant. It has stable printing performance, strong interlayer bonding, and a matte surface, making it great for printing wear-resistant parts.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Aerospace, Mechanical Components, functional prototype.

11 Functional/Carbon Fiber

PA12+CF

Key Features: Excellent Toughness, Low Moisture Absorption.

This high-strength carbon fiber material boosts PA's rigidity and toughness. It's self-lubricating, wear-resistant, heat-resistant, and impact-resistant, fit for replacing metal in many applications.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Gear Transmission Parts, Durable Components, Electronic Enclosures.

12 Functional/Glass Fiber

PLA-GF

Key Features: Biodegradable, High Strength, Wear Resistance.

This eco-friendly, biodegradable glass fiber material boosts PLA's strength, rigidity, heat and wear resistance. It keeps good dimensional stability, fitting high-performance needs.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Mechanical Components, Aerospace, functional prototype.

13 Functional/Glass Fiber

ABS-GF

Key Features: Wear Resistance, High-Temperature Resistance.

This is a glass fiber material with ABS-like high-temperature resistance, featuring high strength, heat resistance, wear resistance, and dimensional stability.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Mechanical Components, Aerospace, Electronic Equipment.

14 Functional/Flexible

TPU-95A

Key Features: Moderate Hardness, Durable, High Elasticity.

This material offers excellent flexibility with a hardness of 95A, making it easy to print, sturdy, and durable. Its moderate hardness and good resilience make it suitable for applications such as shoe insoles.

Properties: Impact Resistance, Flexibility, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Medical Equipment, Shoe Materials, Sports Goods.

15 Functional/Flexible

TPU-87A

Key Features: Flexible and Soft, Good Elasticity, Tough.

This material strikes a balance between flexibility and durability, with a hardness of 87A, making it an ideal choice for consumer goods and functional components.

Properties: Impact Resistance, Flexibility, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Wearable Device Enclosure, Shoe Insoles, Flexible Protective Gear.

16 Functional/Flexible

TPU-64D

Key Features: Moderate Hardness, High Wear Resistance.

With a hardness of 64D, this material is harder than 95A and offers a certain level of support, making it suitable for applications requiring support, compression resistance, and structural stability.

Properties: Impact Resistance, Flexibility, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Mechanical Parts, Conveyor Belt, Industrial Pulleys.

17 Functional/Flexible

TPU-HS

Key Features: Antibacterial, Sturdy and Durable, Fast Printing.

This material offers long-lasting antibacterial properties, supports high-speed printing, and combines the durability of TPU 95A.

Properties: Impact Resistance, Flexibility, Toughness, Printing Performance, Heat Resistance, Interlayer Bonding Strength.

Applications: Wearable device casings, Shoe insoles, Medical equipment.

18 Functional/Flexible

TPE-83A

Key Features: High Elasticity and Toughness, Wear-Resistant.

TPE 83A printing filament is flexible and soft, combining high elasticity and wear resistance, easy to print, and environmentally friendly.

Properties: Impact Resistance, Flexibility, Toughness, Printing Performance, Heat Resistance, Interlayer Bonding Strength.

Applications: Wearable Devices, Sealing Components, Human Organ Models.

19 Functional/Light-weight

PLA-LW

Key Features: Low Density, Controllable High Foaming Ratio.

Lightweight PLA uses active foaming tech. Its density can be as low as 0.54 g/cm³ with a foaming ratio up to 220%, cutting weight greatly. It has a matte, smooth surface. The foaming rate is adjustable to enhance model aircraft performance, lessening wing loading and stall speed.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Drone, Aeromodel, Model Making.

20 Functional/Light-weight

TPU-LW

Key Features: Low Density, Controllable High Foaming Ratio.

Foamed TPU can control foaming by adjusting print temp and speed. This allows customizing strength and density. It has a fine matte surface with few layer lines, plus good flexibility, resilience and is skin friendly, fitting many flexible uses.

Properties: Impact Resistance, Printing Performance, Flexibility, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Wearable devices, Medical assistance, Industrial buffer components.

21 Functional/Light-weight

ASA-LW

Key Features: Controllable High Foaming Ratio, UV Resistance.

Lightweight ASA uses foaming tech, cutting printed part weight to 50% of standard ASA. It has a fine matte surface with nearly invisible layer lines. With high heat and UV resistance, it's a top-performing lightweight material for high-temp and outdoor use.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Drone, Outdoor applications, Architectural Model.

22 Functional/ESD

ABS-ESD

Key Features: High Toughness, Dust and Static Resistance.

An anti-static ABS material with a surface resistance as low as 10⁷ Ω, it not only prevents electrostatic breakdown and dust adhesion but also has good heat resistance and impact resistance.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Electronic components, Medical equipment, Household appliances.

23 Functional/ESD

PETG-ESD

Key Features: High Toughness, Dust and Static Resistance.

This is an anti-static PETG material with a resistivity as low as 10⁷ Ω, capable of preventing electrostatic discharge and dust accumulation, while retaining the toughness and ease of printing characteristic.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Electronic components, Medical equipment, Household appliances.

24 Functional/High Temperature

ABS-HT

Key Features: High-Temperature Resistance, High Interlayer Strength.

This heat-resistant material has ABS's toughness and impact resistance. It suits temps up to 100°C and has better heat resistance, interlayer strength, and printing stability.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Mechanical parts, Heat-resistant containers, Electronic enclosures.

25 Functional/High Temperature

PC-HT

Key Features: High-Temperature Resistance, Excellent Impact Resistance.

This heat-resistant material has PC's toughness and impact resistance. It has better heat resistance, interlayer strength, and printing stability. It suits temps over 100°C, with low warping and anti-stringing.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Electronic appliances, Medical equipment, Enclosure.

26 Functional/Flame-Retardant

ABS-FR

Key Features: Flame Retardant, Electrical Insulation.

This ABS material has outstanding flame retardancy, meeting UL94 V-0 standard. It suits temps up to 100°C, keeps ABS's original strength, and has good heat resistance and electrical insulation.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Fire-prevention equipment, Ventilation ducts, Household appliances.

27 Functional/Flame-Retardant

PET-FR

Key Features: Flame Retardant, Heat Resistance, Electrical Insulation.

This PET material has great flame retardancy, meeting UL 94 V-0. It suits temps over 100°C, stops fire spread, and has high rigidity, heat resistance, and good electrical insulation.

Properties: Impact Resistance, Rigidity, Printing Performance, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Fire-prevention equipment, Industrial manufacturing, Equipment enclosure.

28 Functional/Super-Tough

PLA-ST

Key Features: High Impact Resistance, High Toughness.

PLA Super Tough is a highly durable PLA material that significantly enhances the toughness and impact resistance of standard PLA.

Properties: Impact Resistance, Rigidity, Toughness, Printing Performance, Heat Resistance, Interlayer Bonding Strength.

Applications: Tool Fixtures, Medical Equipment, Mechanical Parts and Components.

29 Functional/Special

PEEK-Industrial

Key Features: High Strength, Impact Resistance, Flame Resistance.

PEEK-Industrial is a special plastic. It has high strength, toughness, and impact resistance. It's self-lubricating, wear-resistant (good for printing gears), flame retardant, and chemical-resistant. With a heat deflection temp up to 205°C, it's great for heat-resistant parts.

Properties: Impact Resistance, Printing Performance, Rigidity, Heat Resistance, Toughness, Interlayer Bonding Strength.

Applications: Aerospace, Medical equipment, Industrial manufacturing.

30 Functional/Others

PVA

Description: Support materials, Water-soluble, Easy to peel.

HIPS

Description: Support materials, Soluble in limonene, Heat-resistant and highly tough.

Clean

Description: Cleaning nozzles, Highly compatible.

Performance Comparison

Carbon Fiber Series

Features	PLA-CF	PETG-CF	PET-CF	ABS-CF	PA-CF	PA12+CF
Heat Resistance	●	●	●	●	●	●
Interlayer Bonding Degree	●	●	●	●	●	●
Toughness	●	●	●	●	●	●
Rigidity	●	●	●	●	●	●
Impact Resistance	●	●	●	●	●	●
Printing Performance	●	●	●	●	●	●
Features Description	Environment-friendly carbon fiber materials with excellent printing performance, enabling easy printing.	Carbon fiber materials with excellent chemical resistance, widely used in various scenarios.	High-strength, chemical-resistant and low-moisture-absorbing carbon fiber materials, suitable for humid environments.	High-strength and high-temperature-resistant carbon fiber materials, stable at high temperatures.	Self-lubricating, high-temperature-resistant and impact-resistant carbon fiber materials, suitable for high-temperature and high-load scenarios.	With excellent overall performance, they are suitable for a variety of professional scenarios.

Glass Fiber Series

Features	PLA-GF	ABS-GF
Heat Resistance	●	●
Interlayer Bonding Degree	●	●
Toughness	●	●
Rigidity	●	●
Impact Resistance	●	●
Printing Performance	●	●
Features Description	Environment-friendly and high-strength glass fiber materials.	Glass fiber materials with both strength and high-temperature resistance, showing stable and reliable performance at high temperatures.

Flexible Series

Features	TPU-95A	TPU-87A	TPU-64D	TPU-HS	TPE-83A
Heat Resistance	●	●	●	●	●
Interlayer Bonding Degree	●	●	●	●	●
Toughness	●	●	●	●	●
Flexibility	●	●	●	●	●
Impact Resistance	●	●	●	●	●
Printing Performance	●	●	●	●	●
Features Description	The top-choice flexible material for beginners, recommended for medical shoe materials.	Flexible materials that balance elasticity and comfort, recommended for consumer goods and functional parts.	Engineering-grade flexible materials, recommended for structural applications.	Functional flexible materials that support high-speed printing and have long-lasting antibacterial properties.	Soft and highly elastic flexible materials, recommended for bionic applications.

Light-weight Series

Features	PLA-LW	TPU-LW	ASA-LW
Heat Resistance	●	●	●
Interlayer Bonding Degree	●	●	●
Toughness	●	●	●
Rigidity	●		●
Impact Resistance	●	●	●
Printing Performance	●	●	●
Features Description	Preferred foaming materials for model aircraft.	Flexible foaming materials.	Durable foaming materials for outdoor use.

Performance Comparison (Continued)

ESD Series

Features	PETG-ESD	ABS-ESD
Heat Resistance	●	●
Interlayer Bonding Degree	●	●
Toughness	●	●
Rigidity	●	●
Impact Resistance	●	●
Printing Performance	●	●
Features Description	An antistatic material with excellent printing performance and toughness.	An antistatic material with excellent heat resistance and impact resistance.

High Temperature Series

Features	ABS-HT	PC-HT
Heat Resistance	●	●
Interlayer Bonding Degree	●	●
Toughness	●	●
Rigidity	●	●
Impact Resistance	●	●
Printing Performance	●	●
Features Description	A cost-effective heat-resistant material suitable for medium-high temperature (<100°C) scenarios.	A high-performance heat-resistant material suitable for high-temperature (>100°C) scenarios.

Flame-retardant Series

Features	ABS-FR	PET-FR
Heat Resistance	●	●
Interlayer Bonding Degree	●	●
Toughness	●	●
Rigidity	●	●
Impact Resistance	●	●
Printing Performance	●	●
Features Description	A flame-retardant material suitable for medium-high temperature (<100°C) environments.	A flame-retardant material suitable for high-temperature (>100°C) environments.

Special Engineering

Features	PEEK-Industrial
Heat Resistance	●
Interlayer Bonding Degree	●
Toughness	●
Rigidity	●
Impact Resistance	●
Printing Performance	●
Features Description	High-strength, high-toughness, impact-resistant, heat-resistant and flame-retardant.

Super Tough Series

Features	PLA-ST
Heat Resistance	●
Interlayer Bonding Degree	●
Toughness	●
Rigidity	●
Impact Resistance	●
Printing Performance	●
Features Description	PLA material with extremely good toughness.

Performance Parameters

Filaments - Basic Engineering & Carbon Fiber

Filament	Density (g/cm³)	Melt Flow Index	Heat Deflection Temperature (°C)	Tensile Strength in Z-axis (MPa)	Elongation at Break in Z-axis (%)	Flexural Strength in XY-axis (MPa)	Flexural Modulus in XY-axis (MPa)	Izod Impact Strength in XY-axis (kJ/m³)	Extrusion Temperature (°C)	Printing Bed Temperature (°C)	Fan Speed (%)	Printing Speed (mm/s)
ABS	1.04	12	78	43	4.27	29	230-270	95-110	0%	200	Sealed-box Printing	70/>6h
ABS+	1.06	15	73	40	3.6	22	230-270	95-110	0%	200	Sealed-box Printing	70/>6h
ASA+	1	10-15	88	33.6	2.11	12.2	240-270	90-110	0-30	150	Sealed-box Printing with a 0.4/0.6 hardened nozzle	50/>8h
PC	1.06	16	89.3	45.5	5.7	14.9	250-280	90-110	0%	150	Use a hardened nozzle	65/>8h
PA	1.12	19.5	80	54.88	10.61	18.4	240-270	80-120	0-30	150	Sealed-box Printing	70/>8h
PLA-CF	1.12	12.3	50	52.45	18.2	4.1	190-230	45-60	100	200	Sealed-box Printing with a 0.4/0.6 hardened nozzle	70/>12h
PETG-CF	1.21	5.37	53	28	66	7.16	240-260	75-90	0%	150	Use a hardened nozzle	70/>12h
PET-CF	1.26	18	70	28	68	80.8	250-300	60-90	0%	200	Sealed-box Printing	70/>12h
ABS-CF	1.42	14.2	75	29.9	135.6	3.5	260-300	100-110	0%	150	Sealed-box Printing	65/>8h
PA-CF	1.06	11.46	97.2	22	76.2	18.67	250-290	60-90	0%	150	Sealed-box Printing	65/>8h
PA12+CF	1.24	2.8	155	29	140	7	250-290	60-100	0%	200	Sealed-box Printing	65/>8h

Filaments - Glass Fiber, High Temperature, Lightweight, Flexible, Super Tough, ESD, Flame Retardant

Filament	Density (g/cm³)	Melt Flow Index	Heat Deflection Temperature (°C)	Tensile Strength in Z-axis (MPa)	Elongation at Break in Z-axis (%)	Flexural Strength in XY-axis (MPa)	Flexural Modulus in XY-axis (MPa)	Izod Impact Strength in XY-axis (kJ/m³)	Extrusion Temperature (°C)	Printing Bed Temperature (°C)	Fan Speed (%)	Printing Speed (mm/s)	Auxiliary Printing Conditions	Drying
PLA-GF	1.31	6.36	56	59.27	7.99	85.01	4414.89	10.16	190-230	45-60	100%	150	Use a hardened nozzle	70/>8h
ABS-GF	1.07	13.2	70	60.7	8.1	96.1	104.4	113.6	240-270	95-105	0	200	Use a 0.4/0.6 hardened nozzle for sealed box printing.	70/>8h
ABS-HT	1.04	7	97.2	41.31	2459.6	5.6	210-270	70-90	100	200	Sealed-box Printing
PC-HT	1.23	3.78	113	48	1701	1.2	290-300	95-110	100	50	Sealed-box Printing
PLA-LW	1.2	4.9	68.9	32	800	3.2	220-250	45-60	100	100	Disable retraction.		55/>4h
TPU-LW	1.15	6	76.4	35	500	1.2	220-250	45-60	100	100	Don't print multiple models together.
TPU-95A	1.21	5.4	60.7	34.3	43	19.34	240-260	70-90	100	50	Use a near-end extruder.		65/>6h
TPU-87A	1.12	5.2	97.2	45	420	4.95	240-260	95-110	100	50	Use a near-end extruder and print slowly.		65/>4h
TPE-83A	1.14	5.4	58	32	48	2.52	200-230	40-60	100	200	Use a near end extruder.
TPU-HS	1.21	5.4	63	35	43	2.52	240-260	95-110	100	200
PLA-ST	1.22	5.2	63	35	43	2.52	240-260	95-110	100	200
PETG-ESD	1.25	5.4	68	32	48	2.52	240-270	70-90	100	200
ABS-FR	1.22	5.4	58	32	48	2.52	240-270	70-90	100	200

PEEK-Industrial

Filament	Density (g/cm³)	Melt Flow Index	Heat Deflection Temperature (°C)	Tensile Strength in Z-axis (MPa)	Elongation at Break in Z-axis (%)	Flexural Strength in XY-axis (MPa)	Flexural Modulus in XY-axis (MPa)	Izod Impact Strength in XY-axis (kJ/m³)	Extrusion Temperature (°C)	Printing Bed Temperature (°C)	Fan Speed (%)	Printing Speed (mm/s)	Heating Bed	Auxiliary Printing Conditions	Drying
PEEK-Industrial	1.31	6.36	205	59.27	7.99	85.01	4414.89	10.16	350-400	100-120	0%	50-100	Sealed-box Printing	Use a hardened nozzle	120/>8h

Certifications

FDA CERTIFICATION
DIN CERTIFICATION
SGS CERTIFICATION
IOS9001 CERTIFICATION
UL94-V0 CERTIFICATION
ROHS CERTIFICATION
EN71-3 CERTIFICATION
Reach CERTIFICATION
FCC CERTIFICATION
EMC CERTIFICATION

Product Certifications of eSUN

	eSUN 3D Printing Materials: Comprehensive Catalog of Filaments and Resins Explore eSUN's extensive range of 3D printing filaments and resins, including high-speed, aesthetic, engineering, and general purpose materials. Discover innovative solutions for all your 3D printing needs, from advanced filaments to specialized resins for various applications.
	eSUN 3D Printing Materials: Comprehensive Product Catalog and Guide Explore eSUN's extensive range of 3D printing filaments, including PLA, PETG, ABS, and specialty materials. Discover product advantages, applications, and certifications for all your 3D printing needs.
	eSUN 3D Printer Filament User Guide: Printing Parameters and Troubleshooting Comprehensive user guide for eSUN 3D printer filaments, detailing printing parameters for various materials like PLA, ABS, PETG, ePEEK, and troubleshooting tips for common printing issues. Includes guidelines for optimal results.
	eSUN eBOX Lite User Guide for 3D Printer Filament Dry Box Comprehensive user guide for the eSUN eBOX Lite, a filament dry box designed to keep 3D printer filaments in optimal condition. Learn about its features, specifications, operation, and parameter settings for various filament types.
	ESUN TPU-HS 3D Printing Filament Technical Data Sheet ESUN TPU-HS is a high-performance 3D printing filament offering excellent flexibility, elasticity, and durability. Ideal for prototyping elastomer parts, it features high tear and wear resistance, suitable for applications like shoe materials, automotive components, and sporting goods. This technical data sheet provides detailed properties and printing recommendations.
	eSUN ABS-Like OdorLite Resin Technical Data Sheet Technical specifications and properties for eSUN's ABS-Like OdorLite Resin, highlighting its toughness, impact resistance, low odor, and applications in miniature models and prototype design.
	eSUN Brand Affiliation Certificate - Shenzhen eSUN Industrial Co., Ltd. Official Certificate of Affiliation for the eSUN brand, issued by Shenzhen eSUN Industrial Co., Ltd. This document confirms brand ownership and authorization for sales channels like Amazon.
	eSUN 3D Printer Filament Safety Warnings and Usage Guidelines Essential safety information and usage guidelines for eSUN 3D printer filament, covering high temperature warnings, fire prevention, and proper handling.