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Transform your ideas into reality with our cutting-edge 3D printing solutions. Enjoy high precision, rapid prototyping, and a wide range of materials to meet all your custom manufacturing needs.

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3D Printing Plastics

Material

Key Features

Smooth surface finish with high detail resolution.
Ideal for visual models and design validation.
Easy to sand and paint for post-processing.
Cost-effective with a good balance of quality and price.

Exceptional detail resolution for intricate features.
Excellent surface smoothness.
Suitable for complex and miniature structures.
Ideal for precision models, jewelry, and character sculptures.

Good light transmission and translucency.
Suitable for visualizing internal structures or fluid channels.
Smooth surface; can be polished to improve clarity.
Commonly used for industrial validation, light covers, and medical visualization models.

High transparency with glass-like clarity.
Suitable for optical testing, lighting components, and fluid visualization.
Can be sanded, polished, and coated to enhance light transmission.
High printing precision and smooth surface, ideal for display-quality models.

Exceptional Heat Resistance.
Outstanding Dimensional Accuracy.
Superior Mechanical Strength.
Fine and Smooth Surface Finish.

Exceptional Mechanical Strength and Durability.
Low Moisture Absorption.
Superior Chemical Resistance.
Smooth Surface Finish and Fine Detail.

Enhanced Mechanical Strength and Stiffness.
Improved Thermal Stability.
Superior Dimensional Accuracy.
Excellent Wear and Chemical Resistance.

Outstanding Impact Resistance and Flexibility.
Biobased and Environmentally Friendly.
Excellent Chemical and Abrasion Resistance.
Superior Fatigue Resistance.

High Strength and Durability.
Consistent and Precise Quality.
Excellent Chemical and Thermal Resistance.
Lightweight with Good Flexibility.

Excellent Chemical Resistance.
High Flexibility and Fatigue Resistance.
Lightweight and Impact Resistant.
Good Moisture Resistance.

Biodegradable and Environmentally Friendly.
Easy to Print.
Good Surface Finish and Detail.
Low Odor and Minimal Toxicity.

High Impact Resistance and Toughness.
Good Heat Resistance.
Excellent Machinability and Post-Processing.
Lightweight Yet Strong.

Excellent Chemical and Impact Resistance.
Good Flexibility and Toughness.
Easy to Print with Minimal Warping.
Clear and Glossy Surface Finish.

Exceptional Flexibility and Elasticity.
High Abrasion and Impact Resistance.
Good Chemical Resistance.
Smooth Surface Finish with Elasticity .

3D Printing Metals

Material

Key Features

Lightweight and Strong – Ideal for Structural Optimization.
Exceptional Geometric Freedom for Complex Designs.
Fine Surface Quality with Excellent Post-Processing Compatibility.
Excellent Thermal Stability and Corrosion Resistance.

High Strength-to-Weight Ratio – Ideal for Structural Applications.
Good Machinability and Versatile Fabrication Options.
Smooth Surface Finish with Excellent Anodizing Response.
Outstanding Corrosion Resistance and Thermal Conductivity.

Excellent Strength and Toughness for Demanding Environments.
High Precision and Surface Detail for Complex Geometries.
Superior Corrosion Resistance – Ideal for Harsh Conditions.
Biocompatible and Sterilizable – Perfect for Medical Applications.

High Strength and Hardness – Ideal for Structural Components.
Excellent Mechanical Properties After Heat Treatment.
Good Corrosion Resistance in Tough Environments.
Dimensional Accuracy for Complex Industrial Parts.

Ultra-High Strength and Hardness After Heat Treatment.
Excellent Wear Resistance – Ideal for Tooling Applications.
Good Dimensional Stability for Precision Parts.
High Toughness and Fatigue Resistance Under Load.

Corrosion-Resistant Tool Steel with Excellent Hardness.
No Distortion After Aging – High Dimensional Stability.
Good Machinability and Polishing Properties.
Ideal for Molds and Tools Requiring Surface Finish and Strength.

Exceptional Strength-to-Weight Ratio – Perfect for Lightweight Structures.
Outstanding Corrosion Resistance in Extreme Environments.
High Biocompatibility – Widely Used in Medical Implants.
Excellent Performance at Elevated Temperatures.

Exceptional High-Temperature Strength and Creep Resistance.
Excellent Corrosion and Oxidation Resistance.
Outstanding Fatigue and Stress Corrosion Cracking Resistance.
Ideal for Aerospace, Energy, and High-Performance Applications.

CNC Metals

Material

Key Features

Excellent Strength-to-Weight Ratio – Lightweight Yet Durable.
Great Machinability for High-Speed, Precision CNC Work.
Smooth Surface Finish – Ideal for Anodizing and Polishing.
Versatile Applications Across Aerospace, Automotive, and Consumer Products.

Ultra-High Strength – Comparable to Some Steels.
Good Machinability for Precision CNC Manufacturing.
Excellent Fatigue Resistance – Ideal for Structural Parts.
Widely Used in Aerospace, Automotive, and High-Performance Components.

Excellent Corrosion Resistance – Ideal for Marine and Outdoor Use.
Good Formability and Weldability.
Moderate Strength with High Fatigue Resistance.
Smooth Surface Finish – Suitable for Decorative and Functional Parts.

High Strength with Excellent Corrosion Resistance.
Good Machinability for Precision CNC Applications.
Excellent Weldability and Surface Finish.
Widely Used in Structural and Transportation Components.

High Strength with Good Wear Resistance.
Excellent Machinability for Precision CNC Milling.
Good Surface Finish Suitable for Anodizing.
Commonly Used in Aerospace and Military Applications.

Good Strength and Toughness for General Structural Use.
Excellent Weldability and Formability.
Cost-Effective Material for CNC-Machined Steel Parts.
Widely Used in Construction, Machinery, and Fixtures.

High Strength and Good Toughness for Heavy-Duty Applications.
Excellent Weldability and Machinability.
Enhanced Load-Bearing Capacity Compared to Q235/A36.
Widely Used in Structural, Machinery, and Engineering Components.

High Strength and Hardness After Heat Treatment.
Good Machinability for Precision CNC Components.
Ideal for Shafts, Gears, and Mechanical Parts.
Cost-Effective Material for Wear-Resistant Applications.

Excellent Strength and Toughness After Heat Treatment.
Good Machinability and Dimensional Stability.
Ideal for Gears, Shafts, Bolts, and High-Stress Components.
Widely Used in Automotive, Machinery, and Mold Industries.

High Strength and Toughness for Demanding Applications.
Excellent Hardness and Wear Resistance After Heat Treatment.
Good Machinability and Dimensional Stability.
Widely Used in Aerospace, Automotive, and Heavy Machinery Components.

High Wear Resistance and Hardness – Ideal for Tooling.
Excellent Dimensional Stability After Heat Treatment.
Suitable for Precision CNC Machining of Dies and Punches.
Widely Used in Molds, Blades, and Cold-Working Applications.

Excellent Machinability – Ideal for High-Speed CNC Milling.
Good Weldability and Surface Finish Quality.
Low Carbon Content – Suitable for Case Hardening.
Cost-Effective Material for General-Purpose Components.

Excellent Machinability – Optimized for CNC Turning and Milling.
Good Corrosion Resistance for Mild Environments.
Attractive Surface Finish – Ideal for Aesthetic Components.
Perfect for Screws, Fittings, and High-Precision Parts.

Excellent Corrosion Resistance for a Wide Range of Environments.
Good Machinability with Stable CNC Performance.
Attractive Surface Finish – Suitable for Decorative and Functional Parts.
Widely Used in Food, Medical, and Consumer Products.

Superior Corrosion Resistance – Ideal for Marine and Chemical Environments.
Good Machinability for Precision CNC Parts.
Excellent Strength and Durability in Harsh Conditions.
Widely Used in Medical, Food, and High-End Industrial Applications.

Enhanced Corrosion Resistance with Low Carbon Content.
Excellent Weldability and Reduced Risk of Sensitization.
Good Machinability for Precision CNC Components.
Ideal for Medical, Food Processing, and Marine Applications.

High Hardness and Wear Resistance After Heat Treatment.
Good Corrosion Resistance for Martensitic Stainless Steel.
Excellent Dimensional Stability for Precision CNC Parts.
Ideal for Bearings, Valves, and Cutting Tools.

Good Hardness and Moderate Corrosion Resistance.
Excellent Wear Resistance for Martensitic Stainless Steel.
Suitable for Precision CNC Machining of Mechanical Components.
Widely Used in Valves, Pumps, and Automotive Parts.

High Strength and Hardness with Precipitation Hardening.
Excellent Corrosion Resistance, Including in Marine Environments.
Good Machinability for Precision CNC Components.
Widely Used in Aerospace, Chemical, and Nuclear Industries.

Exceptional Polishing Capability for Mirror-Like Surface Finish.
Excellent Corrosion Resistance Among Stainless Tool Steels.
High Hardness and Wear Resistance After Heat Treatment.
Ideal for High-Precision Molds and Plastic Injection Tools.

Excellent Machinability – Ideal for High-Precision CNC Turning and Milling.
Good Strength and Corrosion Resistance.
Attractive Surface Finish – Suitable for Decorative and Functional Parts.
Widely Used in Valves, Connectors, and Mechanical Components.

Outstanding Electrical and Thermal Conductivity.
Excellent Purity – Oxygen-Free for Critical Applications.
Good Machinability for Precision CNC Parts.
Ideal for Electronics, Heat Sinks, and Vacuum Components.

Excellent Machinability – Ideal for High-Speed CNC Turning.
Good Strength and Corrosion Resistance.
Clean Surface Finish for Decorative and Functional Parts.
Widely Used in Fittings, Valves, and Precision Connectors.

Good Electrical and Thermal Conductivity.
Improved Machinability Compared to Pure Copper.
Stable Dimensional Accuracy for CNC Precision Parts.
Suitable for Electrical, Mechanical, and Decorative Components.

Excellent Electrical and Thermal Conductivity.
High Purity – Ideal for Conductive and Heat Transfer Applications.
Challenging but Achievable Machinability with Proper Tooling.
Widely Used in Busbars, Electrodes, Heat Sinks, and RF Components.

CNC Plastics

Material

Key Features

High Transparency & Excellent Optical Clarity.
Outstanding Impact Resistance.
Good Heat & Weather Resistance.
High Dimensional Stability & Precision Machining.

Excellent Chemical Resistance.
Low Friction & Good Wear Resistance.
High Impact Strength & Toughness.
Lightweight & Easy to Machine.

Excellent Mechanical Strength & Toughness.
Good Wear Resistance & Low Friction.
Resistant to Chemicals and Heat.
Easily Machinable with Excellent Dimensional Stability.

High Dimensional Stability & Precision.
Low Friction & Excellent Wear Resistance.
Low Moisture Absorption & Good Chemical Resistance.
Easy to Machine & Excellent Surface Finish.

Exceptional Chemical Resistance.
Ultra-Low Friction & Non-Stick Properties.
Wide Operating Temperature Range.
Machinable but Requires Care.

High Performance Engineering Plastic.
Excellent Thermal Resistance.
Outstanding Chemical & Wear Resistance.
Precision Machining with Tight Tolerances.

Good Mechanical Strength & Impact Resistance.
Excellent Machinability.
Good Surface Finish & Paintability.
Cost-Effective for Prototyping.

High Optical Clarity.
Smooth Surface Finish & Polishing Capability.
Good Rigidity & Dimensional Stability.
Brittle Compared to Other Plastics.

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