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Product Overview
• Durable flexibility to withstand repeated bending and twisting.
• High-speed printing up to 200 mm/s.
• Reliable shock absorption and surface grip for protective parts.
• Optimized formula for fine details and clean surfaces.
• Exclusive RFID auto-loading for Snapmaker U1.
Applicability
• 3D Printing
Printer Support & Settings:
• Snapmaker U1: Optimized profiles built into Snapmaker Orca.
• Other Snapmaker printers: Official profiles not yet available; manual tuning required.
• Third-party FDM printers: Compatible with most printers using 1.75 mm filament; manual tuning required.
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TPU 95A HF Filament (RFID) - 1kg
$39.99 USD
Unit price /
Unavailable
Featured RFID Filament
As low as $17.25/roll (4+ rolls) | $16.10/roll (6+ rolls) | $14.95/roll (10+ rolls)
Featured RFID Filament
As low as $17.25/roll (4+ rolls) | $16.10/roll (6+ rolls) | $14.95/roll (10+ rolls)
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$19.99
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Payment Methods
Delivery
Orders will be shipped In 1-3 business days.
We Value Customers.
Fast Shipping
Fast Shipping
Orders for CA, AU, UK, NO & CH will be shipped form local warehouse. Orders for other regions will be shipped from China warehouse.
1-Year Warranty
1-Year Warranty
Covers for machines and modules, excluding limited warranty items and consumable parts.
Easy Returns
Easy Returns
14 Days Easy Return & Refund.
30-Day Price Match
30-Day Price Match
Get a refund if the price drops within 30 days.
Snapmaker TPU 95A HF
Flexible yet Tough
Snapmaker TPU 95A HF is flexible enough to bend and twist, yet tough enough to retain durability over repeated use. Ideal for printing phone cases, protective covers, and other pliable yet durable accessories.
High-speed Printing
Featuring a high-flow formula that enables significantly faster printing than regular TPU, this filament supports speeds of up to 200 mm/s—helping you finish flexible prints in less time while maintaining clean, consistent results.
Cushioning and Shock Absorption
Snapmaker TPU 95A HF combines flexibility with reliable shock absorption, making it ideal for anti-slip pads, gaskets, and other protective parts that need cushioning, grip, and long-term durability.
Clean Surface, Less Stringing
Featuring an optimized formula, Snapmaker TPU 95A HF reduces stringing compared with regular TPU 95A, helping deliver smoother surfaces and cleaner details.
Versatile Colors for Everyday Use
From understated neutrals to eye-catching accents, Snapmaker TPU 95A HF offers practical color options for everyday flexible printing.
RFID Recognition[2]
When used with the Snapmaker U1, the printer automatically loads preset filament information so you don’t need to adjust settings manually, making printing easier than ever.
Quality in Every Detail
Sustainability, Without Compromise
Both filament and spool are crafted from 100% recyclable materials, balancing eco-friendly values with superior print reliability.
Printing Tips
1. Drying, Storage & Protection
• Pre-Drying: TPU is extremely hygroscopic and must be dried before use. The recommended drying settings are 70°C for 6 hours.
• Storage & Protection: During both daily storage and the printing process, the filament should always be kept in a sealed container with desiccant. For optimal print quality, we recommend using the SnapDryer while printing.
2. Printing
• Feeding: Due to its flexibility, TPU requires precise control during feeding and retraction. To minimize the risk of print failure, we strongly recommend watching our video guide before your first print.
• Surface Quality Tip: For bubbles or stringing, please dry the filament thoroughly. If stringing persists, try adjusting your settings by reducing the retraction distance.
• Removal: TPU tends to over-adhere to the build plate, which may damage the model surface during removal. It is recommended to apply a glue stick to the platform before printing to act as a release layer for easier removal.
Specifications
Recommended Printing Conditions
* Based on 0.4 mm nozzle. Printing conditions may vary with different nozzle diameters.
Nozzle Temperature
200–250°C
Bed Temperature
25–50°C
Cooling Fan
10%–50%
Printing Speed
40–200 mm/s
Drying Settings Before Printing
70°C for 6 h
Physical Properties
Density
1.216 g/cm³ (23°C)
Melt Index
28.5 g/10 min (210°C, 2.16 kg)
Melting Temperature
177.29°C (DSC, 10°C/min)
Glass Transition Temperature
-18.56°C (DSC, 10°C/min)
Saturated Water Absorption Rate
0.686% (25°C, 55% RH)
Shore Hardness
95A
Mechanical Properties
Tensile Strength (Z)
18.64 ± 0.64 MPa
Breaking Elongation Rate (Z)
459.25 ± 18.09%
Bending Modulus (X-Y)
64.19 ± 3.17 MPa
Bending Strength (X-Y)
3.20 ± 0.07 MPa
Recommended Printing Conditions
*Based on a 0.4mm nozzle. Printing conditions may vary with different nozzle diameters.
Nozzle temperature
200–250°C
Bed Temperature
25–50°C
Cooling Fan
10%–50%
Printing speed
40–200 mm/s
Drying Settings Before Printing
70°C for 6 h
Physical Properties
Density
1.216 g/cm³ (23°C)
Melt index
28.5 g/10 min (210°C, 2.16 kg)
Melting Temperature
177.29°C (DSC, 10°C/min)
Glass Transition Temperature
-18.56°C (DSC, 10°C/min)
Saturated Water Absorption Rate
0.686% (25°C, 55% RH)
Shore Hardness
95A
Mechanical Properties
Tensile Strength (Z)
459.25 ± 18.09%
Breaking Elongation Rate (Z)
459.25 ± 18.09%
Bending Modulus (X-Y)
64.19 ± 3.17 MPa
Bending Modulus (Z)
3.20 ± 0.07 MPa
In the Box
Sealed Spool Filament × 1
Desiccant × 1
Paper Packaging Box × 1
Sealed Spool Filament × 1
Desiccant × 1
Paper Packaging Box × 1
Note:
[1] Actual print speeds may vary depending on model complexity and settings. Model Dimensions: 66.5 × 63.5 × 98.5 mm³; Printer: Snapmaker U1; Nozzle Diameter: 0.4 mm; Nozzle Temperature: 230 °C; Layer Height: 0.2 mm; Infill Density: 15%
[2] RFID function is only available for the Snapmaker U1.
Frequently Asked Questions
1. Is a Top Cover required for TPU 95A HF?
No, it is not required.
2. Is a Hardened Steel Hot End required for TPU 95A HF?
No, it is not required.
3. Do I need to dry TPU 95A HF before printing or keep it continuously dried?
It is necessary to dry TPU 95A HF before printing. TPU is highly moisture-sensitive, and absorbed moisture can lead to issues such as stringing, bubbling, and inconsistent extrusion.
For optimal print quality, it is also necessary to keep the filament continuously dried during printing and storage.
For best results, it is recommended to use a filament dryer such as the SnapDryer throughout both pre-print drying and the printing process.
4. Build Plate Recommendation
| Build Plate | Recommendation |
| U1 Textured PEl Steel Plate | Recommended |
| U1 Smooth PEI Steel Plate | Clue is required for proper bed adhesion and reliable printing |
| U1 Graphic Effect Steel Plate | Not Recommended |
5. TPU Basic VS TPU 95A HF
| Comparison Dimensions | TPU Basic | TPU 95A HF |
| Flowability | Lower (soft & sticky) | Higher (easier extrusion) |
| Recommended Print Speed | 20–40 mm/s | 60–150 mm/s |
| Feeding Quality | Prone to slipping/jamming | More stable |
| Stringing | Pronounced | Improved |
| Retraction Response | Poor (typical for soft materials) | More controllable |
| Printing Difficulty | High (especially for beginners) | Significantly reduced |
| Equipment Requirement | High (direct drive recommended) | More compatible and user-friendly |
| Elastic Performance | Standard TPU elasticity | Similar (smoother in some cases) |
6. How can I reduce stringing?
To reduce stringing effectively, you can optimize the following:
• Dry the filament thoroughly and ensure it remains moisture-free during use, as moisture is a key cause of stringing
• Slightly reduce the printing temperature to minimize material oozing
• Slightly increase the retraction distance to improve control of filament flow during travel moves
7. How can I reduce nozzle clogging issues?
To reduce the risk of nozzle clogging, you can optimize the following:
• Reduce the retraction distance (or disable it if necessary), as excessive retraction may cause heat creep and filament softening
• Use a hanging spool setup to minimize feeding resistance and ensure smoother filament delivery
• Ensure stable and consistent filament feeding to avoid unnecessary strain on the extrusion system
