QTS TPU 95A 3D Printing Filament (1.75mm) - High-Speed, Tough & Impact-Resistant | Bambu Lab AMS Compatible | For Industrial Semi-Rigid Parts

"Flexible TPU 95A filament with superior elasticity and durability. Easy to print and perfect for creating large, complex flexible parts with high precision."

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QTS TPU 95A High-Speed Tough Flexible Filament | Professional 3D Printing Material

🚀 QTS TPU 95A High-Speed Tough Flexible Filament

Name: QTS TPU 95A 3D Printing Filament (1.75mm) - High-Speed, Tough & Impact-Resistant | Bambu Lab AMS Compatible | For Industrial Semi-Rigid Parts
SKU: 67e379a4fff16a0011c90c02
Price: 530.0 TWD
Availability: InStock

Professional Grade 3D Printing Material | High Fluidity | High-Speed Printing | Multi-Domain Applications

Product Introduction

QTS TPU 95A is a high-speed tough flexible filament with excellent elasticity and flexibility, capable of meeting the demands for printing large, complex, and precise elastic components on demand. With a Shore 95A hardness, this TPU not only provides excellent precision performance but also offers durability and toughness, making it an ideal choice for diverse applications.

Compared to TPU 90A, TPU 95A provides higher hardness and structural strength while maintaining excellent elasticity and wear resistance. With 400% elongation at break, it ensures component integrity even under extreme conditions. Its high fluidity design enables high-speed printing, making it an ideal choice for industrial applications.

🎯 6 Core Advantages

1️⃣ Flexibility and Elasticity

QTS TPU 95A possesses excellent elasticity, and products made from it resist deformation while providing superior durability. The material can withstand repeated bending, stretching, and compression while maintaining its original shape and performance. This makes TPU 95A particularly suitable for products requiring long-term use and frequent operation, such as athletic footwear, industrial components, and automotive parts. Whether for static or dynamic applications, TPU 95A delivers exceptional performance.

2️⃣ High Durability

QTS TPU 95A features low wear, cut resistance, and abrasion resistance, with excellent adaptability across a wide range of applications. The material's high surface hardness resists friction, scratching, and cutting, maintaining long-term service life even in harsh working environments. This makes TPU 95A the premier choice for manufacturing durable industrial components, mechanical parts, and protective products.

3️⃣ Optimized Hardness and Resilience

The 95A hardness is optimized for both static and dynamic applications, offering excellent resilience suitable for demanding operational and maintenance requirements. The material quickly recovers to its original state, maintaining stable performance even under high-frequency use. This optimized hardness and resilience make TPU 95A particularly suitable for manufacturing shock-absorbing components, support pads, and protective devices.

4️⃣ High Fluidity, High-Speed Printing

QTS TPU 95A possesses high fluidity, enabling continuous high-speed manufacturing while avoiding thermal degradation and operational issues. The high-fluidity design allows the material to flow smoothly through the 3D printer's extrusion system, maintaining stable print quality even at faster printing speeds. This significantly improves production efficiency, particularly suitable for applications requiring mass production.

5️⃣ Multi-Domain Application Adaptability

The multi-functional characteristics of QTS TPU 95A enable its application across footwear, mechanical components, automotive, electronics, and tubing industries. Whether for consumer or industrial products, TPU 95A delivers exceptional performance and reliability. Its versatility makes it the preferred choice for designers and engineers, capable of meeting various complex application requirements.

6️⃣ International Brand Manufacturing, Quality Assured

QTS has over 15 years of experience in manufacturing 3D printing materials and has earned the trust of more than 8,000 customers, including corporate clients, schools, and individual users. All products undergo rigorous quality testing to ensure every batch meets international standards. We are committed to providing global users with the highest quality 3D printing materials and professional technical support. Choosing QTS means choosing quality and trust.

📋 Complete Product Specifications

Specification Item	Value	Test Standard	Description
Hardness	Shore 95A	ASTM D2240	Harder than TPU 90A, providing better structural strength
Density	1.21 g/cm³	ASTM D792	Lightweight design, suitable for manufacturing light products
100% Modulus	14 Mpa	ASTM D412	Initial stress, reflecting the material's basic strength
300% Modulus	26 Mpa	ASTM D412	Stress at high elongation, reflecting material flexibility
Tensile Strength	34 Mpa	ASTM D412	Maximum tensile strength of the material
Elongation at Break	400%	ASTM D412	Material can stretch to 400% of original length, excellent elasticity
Tear Strength	140 N/mm	ASTM D624	Material's tear resistance, suitable for wear-resistant applications
Processing Temperature	190-210°C	-	Material processing temperature range
Glass Transition Temperature	-25°C	ASTM D3418	Excellent low-temperature performance, suitable for cold environments

⚙️ Recommended Printing Parameters

Parameter Item	Recommended Value	Description
Nozzle Temperature	200-230°C	Adjust based on printer model and nozzle type
Bed Temperature	60-80°C	Higher bed temp improves layer adhesion
Print Speed	20-50 mm/s	Bowden extruders recommended 20 mm/s or slower; direct drive can be slightly faster
Extrusion System	Direct Drive Dual-Wheel Reduction Extruder	Recommended for flexible material design; Bowden extruders difficult to print
Fan Speed	100%	Full-speed cooling ensures layer adhesion
Material Drying	55°C × 4+ hours	Recommended drying before printing for optimal results
Nozzle Size	≥0.4mm	Recommended 0.4mm or larger nozzle

🏭 Application Domains

👟 Footwear Applications

QTS TPU 95A is perfectly suited for footwear manufacturing with various colored or special surface treatment requirements. The material's high elasticity and wear resistance make it ideal for manufacturing athletic shoes, casual footwear, and professional work shoes. Whether for soles, insoles, or decorative elements, TPU 95A provides exceptional comfort and durability.

⚙️ Mechanical Components

Excellent abrasion and cut resistance enable application in various mechanical parts and components. TPU 95A is particularly suitable for manufacturing shock-absorbing pads, protective covers, drive belts, and other mechanical components requiring wear resistance. The material's high durability ensures long service life and reduces maintenance costs.

🚗 Automotive Industry

Suitable for automotive elastic components, including weatherstrips, trim strips, and protective strips. TPU 95A can withstand temperature variations, UV exposure, and chemical corrosion in automotive environments while maintaining long-term performance stability. The material's high resilience makes it particularly suitable for manufacturing shock-absorbing and sound-insulating components.

💡 Electronics and Electrical

Manufacturing high-quality cable jackets and protective materials with excellent abrasion resistance ensuring long-term use. TPU 95A is particularly suitable for manufacturing cable protection sleeves, connectors, and insulating components. The material's flexibility and wear resistance ensure long-term reliability and safety of electronic products.

🔌 Tubing and Hoses

Suitable for tubing transporting liquids and foams, ensuring enhanced durability. TPU 95A's chemical resistance and wear resistance make it ideal for manufacturing hoses, fittings, and seals. The material can withstand high pressure, high temperature, and chemical corrosion, ensuring long service life.

📖 Detailed Usage Guide

🔒 Material Storage and Drying

Vacuum Packaging Storage: This material uses vacuum packaging. Do not open the packaging bag before use to prevent moisture absorption. Excessive moisture will severely affect 3D printing quality. Store unused filament in a cool, dry environment.

Material Drying: Recommended drying before printing (55°C/4+ hours) for optimal results. Dry filament promptly after use and store in vacuum bags to prevent moisture absorption. TPU and similar hygroscopic materials require special attention to storage and drying.

🖨️ Extrusion System Selection

Recommended Extrusion System: Use a direct drive dual-wheel reduction extruder designed for flexible materials. TPU is difficult to print with standard Bowden extruders. If using a Bowden extruder, attempt slower printing speeds (20 mm/s or slower). For optimal results, strongly recommend using a direct drive dual-wheel reduction extruder.

Extruder Maintenance: Residue may accumulate in the nozzle during long printing sessions. Use cleaning filament and replace nozzles and heat breaks as needed. Regular cleaning ensures print quality.

🌡️ Printing Temperature Settings

Nozzle Temperature: Recommended printing temperature 200-230°C. Adjust based on specific printer model and nozzle type. Too low temperature causes extrusion difficulty; too high may cause material decomposition.

Bed Temperature: Recommended bed temperature 60-80°C. Higher bed temperature improves layer adhesion and reduces warping.

⚡ Print Speed and Quality

Print Speed: 20-50 mm/s (print quality varies by printer brand and model). For Bowden extruders, recommend 20 mm/s or slower. For direct drive dual-wheel reduction extruders, slightly faster speeds can be attempted.

Quality Optimization: Excessive speed reduces print quality. Adjust based on actual conditions. When first using, start with slower speeds and gradually increase to find optimal printing speed.

⚠️ Important Notes

1. Material Drying: Recommended drying before printing (55°C/4+ hours) for optimal results. Use with material box during printing. Moisture absorption severely affects print quality, causing popping sounds, surface bubbling, increased stringing, etc.

2. Extrusion System Selection: Recommended direct drive dual-wheel reduction extruder for flexible materials. TPU is difficult to print with standard Bowden extruders. Bowden extruders may attempt slower printing speeds (20 mm/s or slower).

3. Nozzle Maintenance: Residue may accumulate during long printing sessions. Use cleaning filament as needed. Replace nozzles and heat breaks when necessary. Regular cleaning ensures print quality.

4. Storage Environment: Avoid prolonged exposure to direct sunlight or high temperatures to prevent filament aging or deformation. Store filament in a dry box with humidity controlled below 20% RH.

❓ Frequently Asked Questions (FAQ)

Q1: What is the difference between TPU 95A and TPU 90A?

A: TPU 95A has higher hardness than TPU 90A (95A vs 90A), providing better structural strength and wear resistance. TPU 95A has 400% elongation at break, while TPU 90A has 800%+ elongation. TPU 95A is better for applications requiring higher hardness and durability, while TPU 90A is better for applications requiring higher elasticity. Choose based on your specific application needs.

Q2: Why is my TPU 95A print quality poor?

A: Common causes include: (1) Material moisture absorption - dry first; (2) Incompatible extrusion system - use direct drive dual-wheel reduction extruder; (3) Print speed too fast - reduce to 20-30 mm/s; (4) Improper nozzle temperature - adjust to 200-230°C; (5) Bed temperature too low - increase to 60-80°C. Check and adjust each factor.

Q3: Can TPU 95A be printed with a Bowden extruder?

A: Possible but not recommended. TPU is soft material, and Bowden extruders have difficulty precisely controlling extrusion. If using a Bowden extruder, use slower printing speeds (20 mm/s or slower) and ensure proper tension settings. For best results, strongly recommend using a direct drive dual-wheel reduction extruder.

Q4: How can I tell if TPU 95A has absorbed moisture?

A: Signs of moisture absorption include: (1) Popping sounds during printing; (2) Surface bubbling; (3) Increased stringing; (4) Poor layer adhesion; (5) Noticeably reduced print quality. If these occur, stop printing immediately, dry the material (55°C/4+ hours), then resume printing.

Q5: What is the shelf life of TPU 95A?

A: Under proper storage conditions (vacuum packaging, dry, cool environment, humidity <20% RH), TPU 95A can be stored for 2-3 years. Use soon after purchase. For long-term storage, regularly check packaging integrity and dry before use.

Q6: Does TPU 95A require post-processing after printing?

A: TPU 95A typically requires no special post-processing. For support removal or surface finishing, use tools or sandpaper manually. Due to TPU 95A's flexibility, use softer sandpaper (220-400 grit) for polishing. Avoid high temperature or chemical solvents that may damage the material.

💎 Why Choose QTS TPU 95A?

15+ Years Manufacturing Experience

QTS has over 15 years of 3D printing material manufacturing experience with deep understanding of material properties and printing processes.

8000+ Trusted Customers

Over 8000 customers trust QTS product quality, including enterprises, schools, and individual users.

Strict Quality Control

All products undergo rigorous quality testing to ensure every batch meets international standards.

Professional Technical Support

QTS provides professional technical support and consulting services to help solve printing issues.

Multiple Specification Options

Offers multiple TPU hardness options (85A, 90A, 95A, etc.) to meet different application requirements.

Competitive Pricing

Provides competitive pricing while maintaining quality, creating maximum value for customers.

🛡️ Safety and Storage

Storage Methods

Dry Storage: Filament is moisture-sensitive. Store in a dry, well-ventilated environment away from moisture.

Moisture Prevention: After opening, return filament to original packaging and store in a dry box or vacuum bag with desiccant; for long-term storage use dry box with humidity <20% RH.

Avoid High Temperature and Sunlight: Avoid prolonged exposure to direct sunlight or high temperatures to prevent filament aging or deformation.

Safe Use

Printing Environment: Ensure printer operates in a well-ventilated environment to avoid inhaling harmful gases.

Temperature Safety: Nozzle and bed temperatures are very high during printing. Avoid direct contact to prevent burns.

Waste Disposal: Properly dispose of printing waste to avoid environmental pollution.