Plastic Nylon Powder – Dev

GF TPU 23 – High-Performance FDM & SLS 3D Printing Resin

Alena Kalininskaya — Thu, 15 Aug 2024 23:22:51 +0000

Please note: Cost per kg: $75

Cost per pound: $34

The plastic nylon powder is supplied in packaging of 20 kg/44.1 lbs.

Cost per package: $1500

Material Overview

Thermoplastic polyurethane (TPU), a member of the thermoplastic elastomer (TPE) family, combines the elasticity of rubber with the strength of plastic. Chemically, TPU is a block copolymer consisting of alternating hard segments (isocyanates) and soft segments (reacted polyol), and the manufacturer determines their ratio. More soft
segments enhance flexibility, leading to a shore hardness ranging from 60A (similar to mild silicones) to 80D (comparable to nylons or rigid PVC). TPU is versatile, available in various forms tailored to different manufacturing technologies, including filament for FDM and powder for SLS in 3D printing.

46 MPa

Tensile Strength

1600 MPa

Tensile Modulus

20%

Elongation at break

50 MPa

Flexural strength

1400 MPa

Flexural modulus

key properties

GF TPU 23 is a high-performance thermoplastic polyurethane (TPU) 3D printing resin, offering the perfect balance of elasticity, durability, and versatility. As a member of the thermoplastic elastomer (TPE) family, TPU combines the flexibility of rubber with the strength of plastic. Chemically, it is a block copolymer with alternating hard segments (isocyanates) and soft segments (reacted polyol), and the ratio of these segments determines its properties. The increased ratio of soft segments enhances flexibility, allowing for a shore hardness range from 60A (similar to mild silicones) to 80D (similar to nylons or rigid PVC). This 3D printer resin material is available in various forms, including filament for FDM and powder for SLS, making it highly versatile for 3D printing applications.

Key Properties:

Elasticity
High elongation and tensile strength
Low-temperature performance
Abrasion resistance
Chemical resistance

GF TPU 23 is a perfect choice for 3D printing flexible and durable parts.

100% compatible with any SLS System

application

KSPA12 is primarily used in SLS technology, where it is selectively melted by a laser to create parts layer by layer. This process allows for complex geometries that are difficult or impossible to achieve with traditional manufacturing methods.

Shock-absorbing shoe soles
Insoles
Medical organ models
Flexible robots
Smart wearable devices
Biological scaffolds
Lining for apparel prosthetics

FAQs

Application cases of nylon materials on EOS machines — are all EOS models compatible?

KSPA12BK Nylon Powder – High-Performance Black SLS Printing Material for Durable Parts

Alena Kalininskaya — Wed, 14 Aug 2024 01:57:26 +0000

Please note: Cost per kg: $75

Cost per pound: $34

The plastic nylon powder is supplied in packaging of 20 kg/44.1 lbs.

Cost per package: $1500

Material Overview

KSPA12BK is a black nylon powder with a particle size D50 of about 50 microns and a narrow and uniform distribution. It can be sintered using fiber laser or carbon dioxide laser, and the powder has high sphericity and extremely high fluidity. The powder reusability rate can be close to 100%, and the 3D printed parts can maintain excellent mechanical properties and excellent surface finish.

46 MPa

Tensile Strength

1600 MPa

Tensile Modulus

20%

Elongation at break

50 MPa

Flexural strength

1400 MPa

Flexural modulus

key properties

key properties
1. Sphericity and Fluidity:
The powder exhibits superior sphericity, which enhances flowability during processing. This characteristic is crucial for ensuring uniform layer deposition in 3D printing and consistent mixing in powder coatings.

2. Particle Size Distribution:
KSPA12BK has a narrow particle size distribution with a D50 of approximately 50 microns. This uniformity contributes to better packing density and improved performance in additive manufacturing processes.

3. Mechanical Strength:
Parts produced using KSPA12BK demonstrate excellent tensile strength, impact resistance, and durability. This makes it suitable for functional prototypes and end-use parts that require robustness.

4. Thermal Properties:
The material has a high melting point and good thermal stability, allowing it to withstand elevated temperatures during processing and in end-use applications.

5. Chemical Resistance:
KSPA12BK exhibits resistance to a variety of chemicals, oils, and solvents, making it ideal for applications in automotive, aerospace, and industrial sectors where exposure to harsh environments is common.

100% compatible with any SLS System

application

KSPA12BK is primarily used in SLS technology, where it is selectively melted by a laser to create parts layer by layer. This process allows for complex geometries that are difficult or impossible to achieve with traditional manufacturing methods.

Prototyping: Designers and engineers use KSPA12 for rapid prototyping due to its excellent mechanical properties and surface finish. It enables the quick turnaround of functional prototypes for testing and validation.
Customization: The material’s versatility allows for the production of customized parts tailored to specific applications, such as bespoke medical devices or personalized consumer products.

Automotive Industry
Lightweight Components: KSPA12BK is ideal for producing lighweight automotive parts, such as brackets, housings, and interior components. The reduced weight contributes to improved fuel efficiency and performance.
Functional Prototypes: Automotive manufacturers use KSPA12BK for creating prototypes of parts such as dashboards and exterior body panels to test fit, form, and function before mass production.
End-Use Parts: The durability and chemical resistance of KSPA12 make it suitable for end-use components that may be exposed to oils, fuels, and other automotive fluids.

Industrial Applications
Manufacturing Tools: KSPA12BK can be used to create custom manufacturing tools, jigs, and fixtures that enhance production efficiency and accuracy.
Spare Parts: The ability to produce spare parts on-demand reduces downtime in industrial settings, allowing businesses to maintain operations without waiting for long lead times.
Equipment Housing: Its chemical resistance makes KSPA12BK suitable for producing housings and enclosures for industrial equipment that may be exposed to harsh chemicals.

Electronics
Enclosures: KSPA12BK can be utilized to create durable enclosures for electronic devices that require protection from environmental factors while maintaining a lightweight profile.
Connectors and Components: The precision of 3D printing with KSPA12BK enables the production of intricate connectors and electronic components that meet strict dimensional tolerances.

Aerospace Applications
Complex Structures: The aerospace industry benefits from KSPA12’s ability to produce lightweight yet strong parts that can withstand harsh conditions. This includes brackets, clips, and other structural components.
Rapid Prototyping: Aerospace engineers can quickly prototype components for testing in wind tunnels or simulations, allowing for faster design iterations and reduced time to market.
Replacement Parts: KSPA12BK can be used to manufacture replacement parts on-demand, reducing inventory costs and lead times.

Consumer Products
Sporting Goods: The flexibility and strength of KSPA12BK make it suitable for sporting equipment such as bicycle components, protective gear, and accessories that require durability under stress.
Household Items: Products like kitchen gadgets, tools, and decorative items can be produced with KSPA12BK, benefiting from its aesthetic quality and functional performance.
Wearables: The material’s comfort and flexibility allow for the creation of wearable technology components that are both functional and comfortable for users.

FAQs

Application cases of nylon materials on EOS machines — are all EOS models compatible?

KSPA12GB Nylon Powder – High-Performance SLS 3D Printing Material for Precision Applications

Alena Kalininskaya — Tue, 13 Aug 2024 14:02:30 +0000

Please note: Cost per kg: $75

Cost per pound: $34

The plastic nylon powder is supplied in packaging of 20 kg/44.1 lbs.

Cost per package: $1500

Material Overview

KSPA12GB is a high-performance blue-gray color nylon powder, specifically formulated to meet the demands of advanced manufacturing and 3D printing applications. It is primarily composed of polyamide (PA) 12, which is known for its excellent mechanical properties, flexibility, and chemical resistance.

KSPA12GB is a composite nylon powder containing 30% glass beads. The printed parts are with high stiffness, high temperature resistance. And powder reuse rate can reach up to 100%.

46 MPa

Tensile Strength

3000 MPa

Tensile Modulus

9%

Elongation at break

70 MPa

Flexural strength

2800 MPa

Flexural modulus

key properties

1. Sphericity and Fluidity:
The powder exhibits superior sphericity, which enhances flowability during processing. This characteristic is crucial for ensuring uniform layer deposition in 3D printing and consistent mixing in powder coatings.

2. Particle Size Distribution:
KSPA12GB has a narrow particle size distribution with a D50 of approximately 50 microns. This uniformity contributes to better packing density and improved performance in additive manufacturing processes.

3. Mechanical Strength:
Parts produced using KSPA12GB demonstrate excellent tensile strength, impact resistance, and durability. This makes it suitable for functional prototypes and end-use parts that require robustness.

4. Thermal Properties:
The material has a high melting point and good thermal stability, allowing it to withstand elevated temperatures during processing and in end-use applications.

5. Chemical Resistance:
KSPA12GB exhibits resistance to a variety of chemicals, oils, and solvents, making it ideal for applications in automotive, aerospace, and industrial sectors where exposure to harsh environments is common.

100% compatible with any SLS System

application

KSPA12GB is primarily used in SLS technology, where it is selectively melted by a laser to create parts layer by layer. This process allows for complex geometries that are difficult or impossible to achieve with traditional manufacturing methods.

Prototyping: Designers and engineers use KSPA12GB for rapid prototyping due to its excellent mechanical properties and surface finish. It enables the quick turnaround of functional prototypes for testing and validation.
Customization: The material’s versatility allows for the production of customized parts tailored to specific applications, such as bespoke medical devices or personalized consumer products.

Automotive Industry
Lightweight Components: KSPA12GB is ideal for producing lighweight automotive parts, such as brackets, housings, and interior components. The reduced weight contributes to improved fuel efficiency and performance.
Functional Prototypes: Automotive manufacturers use KSPA12GB for creating prototypes of parts such as dashboards and exterior body panels to test fit, form, and function before mass production.
End-Use Parts: The durability and chemical resistance of KSPA12GB make it suitable for end-use components that may be exposed to oils, fuels, and other automotive fluids.

Industrial Applications
Manufacturing Tools: KSPA12GB can be used to create custom manufacturing tools, jigs, and fixtures that enhance production efficiency and accuracy.
Spare Parts: The ability to produce spare parts on-demand reduces downtime in industrial settings, allowing businesses to maintain operations without waiting for long lead times.
Equipment Housing: Its chemical resistance makes KSPA12GB suitable for producing housings and enclosures for industrial equipment that may be exposed to harsh chemicals.

Electronics
Enclosures: KSPA12GB can be utilized to create durable enclosures for electronic devices that require protection from environmental factors while maintaining a lightweight profile.
Connectors and Components: The precision of 3D printing with KSPA12GB enables the production of intricate connectors and electronic components that meet strict dimensional tolerances.

Aerospace Applications
Complex Structures: The aerospace industry benefits from KSPA12’s ability to produce lightweight yet strong parts that can withstand harsh conditions. This includes brackets, clips, and other structural components.
Rapid Prototyping: Aerospace engineers can quickly prototype components for testing in wind tunnels or simulations, allowing for faster design iterations and reduced time to market.
Replacement Parts: KSPA12GB can be used to manufacture replacement parts on-demand, reducing inventory costs and lead times.

Consumer Products
Sporting Goods: The flexibility and strength of KSPA12GB make it suitable for sporting equipment such as bicycle components, protective gear, and accessories that require durability under stress.
Household Items: Products like kitchen gadgets, tools, and decorative items can be produced with KSPA12GB, benefiting from its aesthetic quality and functional performance.
Wearables: The material’s comfort and flexibility allow for the creation of wearable technology components that are both functional and comfortable for users.

FAQs

Application cases of nylon materials on EOS machines — are all EOS models compatible?

High-Quality SLS Material – $34/lb – 20 kg package – Ships from Los Angeles

Ashkhen — Wed, 07 Aug 2024 10:08:09 +0000

✅ Key Features
Premium white PA12 powder
Exceptional print quality & flowability
Ideal for functional prototypes, jigs, and anatomical models
Compatible with most open SLS systems
Stocked & shipped from Los Angeles, CA

📦 Packaging & Pricing
20 kg / 44.1 lbs per unit
$75 per kg / $34 per pound
In-stock and ready to ship

🔒 Trusted By
Dental labs, engineering firms, and 3D printing service providers across the U.S.

🔧 Want to test before buying?
Request a sample or ask for our Material Data Sheet (TDS) — we’ll respond quickly.

📍 Local. Reliable. Affordable. Premium Nylon Powder — when performance matters.

Material Overview

KSPA12ST is a white nylon powder with a particle size D50 of about 50 microns and a narrow and uniform distribution. The powder has high sphericity and extremely high fluidity. It completely adopts the synthesis technology self-developed by the Kings team, which reduces costs while maintaining good surface quality and mechanical properties. The powder has a high reusability rate and can approach 100% utilization.

46 MPa

Tensile Strength

1600 MPa

Tensile Modulus

20%

Elongation at break

50 MPa

Flexural strength

1400 MPa

Flexural modulus

key properties

2. Particle Size Distribution:
KSPA12 has a narrow particle size distribution with a D50 of approximately 50 microns. This uniformity contributes to better packing density and improved performance in additive manufacturing processes.

3. Mechanical Strength:
Parts produced using KSPA12 demonstrate excellent tensile strength, impact resistance, and durability. This makes it suitable for functional prototypes and end-use parts that require robustness.

4. Thermal Properties:
The material has a high melting point and good thermal stability, allowing it to withstand elevated temperatures during processing and in end-use applications.

5. Chemical Resistance:
KSPA12 exhibits resistance to a variety of chemicals, oils, and solvents, making it ideal for applications in automotive, aerospace, and industrial sectors where exposure to harsh environments is common.

100% compatible with any SLS System

application

Automotive Industry
Lightweight Components: KSPA12 is ideal for producing lighweight automotive parts, such as brackets, housings, and interior components. The reduced weight contributes to improved fuel efficiency and performance.
Functional Prototypes: Automotive manufacturers use KSPA12 for creating prototypes of parts such as dashboards and exterior body panels to test fit, form, and function before mass production.
End-Use Parts: The durability and chemical resistance of KSPA12 make it suitable for end-use components that may be exposed to oils, fuels, and other automotive fluids.

Industrial Applications
Manufacturing Tools: KSPA12 can be used to create custom manufacturing tools, jigs, and fixtures that enhance production efficiency and accuracy.
Spare Parts: The ability to produce spare parts on-demand reduces downtime in industrial settings, allowing businesses to maintain operations without waiting for long lead times.
Equipment Housing: Its chemical resistance makes KSPA12 suitable for producing housings and enclosures for industrial equipment that may be exposed to harsh chemicals.

Electronics
Enclosures: KSPA12 can be utilized to create durable enclosures for electronic devices that require protection from environmental factors while maintaining a lightweight profile.
Connectors and Components: The precision of 3D printing with KSPA12 enables the production of intricate connectors and electronic components that meet strict dimensional tolerances.

Aerospace Applications
Complex Structures: The aerospace industry benefits from KSPA12’s ability to produce lightweight yet strong parts that can withstand harsh conditions. This includes brackets, clips, and other structural components.
Rapid Prototyping: Aerospace engineers can quickly prototype components for testing in wind tunnels or simulations, allowing for faster design iterations and reduced time to market.
Replacement Parts: KSPA12 can be used to manufacture replacement parts on-demand, reducing inventory costs and lead times.

Consumer Products
Sporting Goods: The flexibility and strength of KSPA12 make it suitable for sporting equipment such as bicycle components, protective gear, and accessories that require durability under stress.
Household Items: Products like kitchen gadgets, tools, and decorative items can be produced with KSPA12, benefiting from its aesthetic quality and functional performance.
Wearables: The material’s comfort and flexibility allow for the creation of wearable technology components that are both functional and comfortable for users.

FAQs

Application cases of nylon materials on EOS machines — are all EOS models compatible?