There are several advantages:
(1) Surface Quality at high speed:
When FDM is printing, the nozzle will continuously change between the min speed and max speed. The higher the max speed, the wider the range of speeds. The issue is with the printing temperature being the same, the extrusion temperature will vary dramatically making the adhesion between layers uneven. These differences are invisible to the naked eye, but they will be particularly obvious on the prints if they appear in each layer, thus making the surface quality of the prints worse. High Speed filament reduces these differences by improving the accuracy of inter-layer adhesion in a wide range of flow rates, allowing prints to have higher precision and more clear details.
(2) Mechanical Properties at high speed: 
High Speed filament will display far greater overall mechanical properties when printed at higher speed than regular filament because of the more consistent extrusion and the optimized cooling/melting rate of the polymer.
(3) Higher Printing Efficiency:
Thanks to (1) and (2), the production speed has increased exponentially, and 3D printing can output the same quality part at a much higher pace. This advantage makes 3D printing more suitable for producing products.

Materials products typically have no expiration date and can be used indefinitely. However, PLA filaments need to be sealed and stored after opening to prevent moisture.
If the material gets damp, bake it in a drying oven at 50-60°C for 6-8 hours before use. Please note that this method cannot restore the consumables to their optimal condition.

Materials products typically have no expiration date and can be used indefinitely. However, PLA filaments need to be sealed and stored after opening to prevent moisture.
If the material gets damp, bake it in a drying oven at 50-60°C for 6-8 hours before use. Please note that this method cannot restore the consumables to their optimal condition.

Yes, Matte PLA and PLA Pro can maintain their excellent performance even under high-speed printing.

Standard PLA features odorless, low volatility, safety, and environmental protection.

Printed parts with good stability, low shrinkage, smooth surface, and high-grade texture.

Compatible with most FDM printers. It is a basic material that supports high-speed printing, which is easy to print and prototype.

Standard PLA captures the features of high strength, high hardness, good toughness, and fast construction speed.

Good dimensional stability with low shrinkage, smooth and delicate surface, offering high quality.

Easy to print, allowing for quick prototyping; compatible with most FDM 3D printers on the market.

A high-temperature-resistant material that supports high-speed printing, suitable for a wider range of applications.

High strength, high hardness, good toughness, and fast build speed.

Compatible with most FDM 3D printers on the market.

High rigidity and bending resistance, high hardness and toughness, easy assembly, and strong mechanical performance.

Carbon fiber filament, with a carbon fiber content of 15%. The added carbon fiber, combined with a premium matte finish, significantly reduces visible layer lines and delivers an exceptionally smooth, refined surface appearance.

Supports high-speed printing with excellent melt flowability

High-dimensional accuracy; the contact surface on the build platform is not prone to warping or deformation

Printed parts have a delicate and smooth finish, and are easy to print

Silk-like texture with bright, lustrous colors

Compatible with most FDM 3D printers on the market, it offers broad compatibility and user-friendly print settings.

With exceptional dimensional stability, it is ideal for functional testing and printing high-performance parts.

Printed parts feature a smooth and refined surface finish, delivering a premium texture and impressive visual appeal.

The material combines excellent toughness and interlayer adhesion strength, enabling high-speed printing with outstanding building efficiency.

Compatible with most FDM 3D printers on the market.

Ideal for creating models with a matte appearance.

High strength and hardness, excellent dimensional stability, strong interlayer adhesion, certain flexibility, and fast build speed.

A high-speed 3D printing material with a matte finish, odorless during printing, offering a delicate texture and excellent visual appeal.

Compatible with 99.99% of FDM printers on the market.

Typical applications: shock-absorbing pads for machinery, buffer blocks for conveyor systems, flexible robotic joint covers, sports protective gear, etc.

High-speed printing capable, clog-resistant for improved print success rate.

Smooth surface finish with strong interlayer adhesion,Low shrinkage rate ensures accurate print dimensions.

Features excellent softness, elasticity, and toughness.

Typical applications: wear-resistant guide rails for industrial robots, cushioning components in automation equipment, high-load motion gear parts, and more.

Smooth surface texture capable of rendering sharp text and fine pattern details.

Outstanding wear resistance, ideal for moving/mechanical parts.

Ideal for printing complex parts and models, automotive components, appliance housings, and toys.

Supports high-speed printing with a maximum infill speed of up to 450 mm/s.

It offers outstanding impact strength and wear resistance, enables fast construction, and minimizes part deformation.

ABS is a high-toughness, durable, and heat-resistant 3D printing filament with excellent printer compatibility.

Compatible with most FDM 3D printers on the market, ideal for outdoor applications and general engineering parts.

Printed models show strong weather resistance, are less prone to damage, aging, or fading, and feature a fine, smooth surface texture.

It offers excellent UV resistance, high-temperature durability, superior toughness, and long-lasting performance.

ASA features high strength, hardness, and toughness, enabling fast construction.

PLA Pro features toughening technology which significantly increases its ductility, allowing PLA Pro to exhibit excellent plastic deformation before fracture.

There are several advantages:
(1) Surface Quality at high speed:
When FDM is printing, the nozzle will continuously change between the min speed and max speed. The higher the max speed, the wider the range of speeds. The issue is with the printing temperature being the same, the extrusion temperature will vary dramatically making the adhesion between layers uneven. These differences are invisible to the naked eye, but they will be particularly obvious on the prints if they appear in each layer, thus making the surface quality of the prints worse. High Speed filament reduces these differences by improving the accuracy of inter-layer adhesion in a wide range of flow rates, allowing prints to have higher precision and more clear details.
(2) Mechanical Properties at high speed: 
High Speed filament will display far greater overall mechanical properties when printed at higher speed than regular filament because of the more consistent extrusion and the optimized cooling/melting rate of the polymer.
(3) Higher Printing Efficiency:
Thanks to (1) and (2), the production speed has increased exponentially, and 3D printing can output the same quality part at a much higher pace. This advantage makes 3D printing more suitable for producing products.

PLA Pro adopts toughening technology, which makes its toughness exceed 90% of PLA materials on the market.
You can check the tensile modulus and impact strength data in its TDS, which represent its toughness, and compare it with other materials of our portfolio.

Yes, Matte PLA and PLA Pro can maintain their excellent performance even under high-speed printing. 

There are several advantages:
(1) Surface Quality at high speed:
When FDM is printing, the nozzle will continuously change between the min speed and max speed. The higher the max speed, the wider the range of speeds. The issue is with the printing temperature being the same, the extrusion temperature will vary dramatically making the adhesion between layers uneven. These differences are invisible to the naked eye, but they will be particularly obvious on the prints if they appear in each layer, thus making the surface quality of the prints worse. High Speed filament reduces these differences by improving the accuracy of inter-layer adhesion in a wide range of flow rates, allowing prints to have higher precision and more clear details.
(2) Mechanical Properties at high speed: 
High Speed filament will display far greater overall mechanical properties when printed at higher speed than regular filament because of the more consistent extrusion and the optimized cooling/melting rate of the polymer.
(3) Higher Printing Efficiency:
Thanks to (1) and (2), the production speed has increased exponentially, and 3D printing can output the same quality part at a much higher pace. This advantage makes 3D printing more suitable for producing products.

Materials products typically have no expiration date and can be used indefinitely. However, PLA filaments need to be sealed and stored after opening to prevent moisture.
If the material gets damp, bake it in a drying oven at 50-60°C for 6-8 hours before use. Please note that this method cannot restore the consumables to their optimal condition.

Materials products typically have no expiration date and can be used indefinitely. However, PLA filaments need to be sealed and stored after opening to prevent moisture.
If the material gets damp, bake it in a drying oven at 50-60°C for 6-8 hours before use. Please note that this method cannot restore the consumables to their optimal condition.

Yes, Matte PLA and PLA Pro can maintain their excellent performance even under high-speed printing.

Supports high-speed printing with excellent melt flowability

High-dimensional accuracy; the contact surface on the build platform is not prone to warping or deformation

Printed parts have a delicate and smooth finish, and are easy to print

Silk-like texture with bright, lustrous colors

Good dimensional stability with low shrinkage, smooth and delicate surface, offering high quality.

Easy to print, allowing for quick prototyping; compatible with most FDM 3D printers on the market.

A high-temperature-resistant material that supports high-speed printing, suitable for a wider range of applications.

High strength, high hardness, good toughness, and fast build speed.

Compatible with most FDM 3D printers on the market.

High rigidity and bending resistance, high hardness and toughness, easy assembly, and strong mechanical performance.

Carbon fiber filament, with a carbon fiber content of 15%. The added carbon fiber, combined with a premium matte finish, significantly reduces visible layer lines and delivers an exceptionally smooth, refined surface appearance.

Compatible with most FDM 3D printers on the market, it offers broad compatibility and user-friendly print settings.

With exceptional dimensional stability, it is ideal for functional testing and printing high-performance parts.

Printed parts feature a smooth and refined surface finish, delivering a premium texture and impressive visual appeal.

The material combines excellent toughness and interlayer adhesion strength, enabling high-speed printing with outstanding building efficiency.

Compatible with most FDM 3D printers on the market.

Ideal for creating models with a matte appearance.

High strength and hardness, excellent dimensional stability, strong interlayer adhesion, certain flexibility, and fast build speed.

A high-speed 3D printing material with a matte finish, odorless during printing, offering a delicate texture and excellent visual appeal.

Compatible with 99.99% of FDM printers on the market.

Typical applications: shock-absorbing pads for machinery, buffer blocks for conveyor systems, flexible robotic joint covers, sports protective gear, etc.

High-speed printing capable, clog-resistant for improved print success rate.

Smooth surface finish with strong interlayer adhesion,Low shrinkage rate ensures accurate print dimensions.

Features excellent softness, elasticity, and toughness.

Typical applications: wear-resistant guide rails for industrial robots, cushioning components in automation equipment, high-load motion gear parts, and more.

Smooth surface texture capable of rendering sharp text and fine pattern details.

Outstanding wear resistance, ideal for moving/mechanical parts.

Ideal for printing complex parts and models, automotive components, appliance housings, and toys.

Supports high-speed printing with a maximum infill speed of up to 450 mm/s.

It offers outstanding impact strength and wear resistance, enables fast construction, and minimizes part deformation.

ABS is a high-toughness, durable, and heat-resistant 3D printing filament with excellent printer compatibility.

Compatible with most FDM 3D printers on the market, ideal for outdoor applications and general engineering parts.

Printed models show strong weather resistance, are less prone to damage, aging, or fading, and feature a fine, smooth surface texture.

It offers excellent UV resistance, high-temperature durability, superior toughness, and long-lasting performance.

ASA features high strength, hardness, and toughness, enabling fast construction.