Industrial TPU Resin | Durable and High-Performance TPU for Hoses, Belts, and Mechanical Parts
Industrial TPU Resin Overview
Industrial TPU systems organized by real service conditions. Start from the dominant constraint and go to the right application page:
Conveyor Belts, Rollers / Wheels, Hoses / Tubes, or Industrial Parts.
For multi-constraint projects (e.g., abrasion + oil, hydrolysis + heat aging, low temperature + dynamic fatigue), route to Advanced Functional Industrial TPU.
Oil / Grease Resistance
Hydrolysis Resistance
Low-Temperature Flex
Dynamic Fatigue
Heat Aging
Dimensional Stability
Choose Your Path (Go to the Right Subpage)
Start with the dominant constraint. If your application has multiple interacting constraints (abrasion + oil + heat, hydrolysis + pressure + long run time), start from the closest path and request a combined shortlist via Advanced Functional Industrial TPU.
TPU Conveyor Belt Material
For conveyor belt components where abrasion, cut resistance, and long-life wear stability dominate selection under continuous contact and load.
Cut / Tear Resistance
Dynamic Fatigue
Heat Build-Up Control
- Wear and micro-cracking under continuous friction
- Load-driven fatigue and edge damage risk
- Stable performance over long runs (project-dependent)
TPU Roller / Wheel Material
For rollers and wheels where rolling wear, rebound behavior, and mechanical durability must remain stable under load, speed, and repeated contact.
Load Bearing
Rebound Control
Noise / Vibration (Project)
- Flat-spotting risk under static load and intermittent operation
- Wear, chipping, and edge damage under harsh contact
- Dimensional stability and repeatable molding performance
TPU Hose / Tube Material
For hoses and tubes where pressure resistance, flexibility, and media exposure durability define selection, including hydrolysis, oils, and temperature cycling.
Hydrolysis Resistance
Oil / Grease Resistance
Low-Temp Flex
- Kink resistance and long-term flex durability
- Media exposure: water, oils, greases, mild chemicals (project-dependent)
- Extrusion stability and dimensional repeatability
TPU Industrial Parts Material
For general industrial parts (covers, guards, seals, bumpers, protective components) where impact, wear, and aging stability must be balanced with processability.
Abrasion
Heat Aging
Molding Stability
- Mechanical reliability under repeated impacts and contact
- Dimensional stability after aging and thermal cycling
- Injection / extrusion compatibility (project-dependent)
Typical Data (Reference Only)
Values vary by formulation and package. Always confirm on finished parts under your real load/pressure, media exposure, and service temperature.
| System | Typical Positioning | Density (g/cm³) | Hardness | Tensile (MPa) | Elongation (%) | Abrasion (mg) | Processing |
|---|---|---|---|---|---|---|---|
| TPU-IND ABR | Abrasion-focused for wear parts | 1.12–1.22 | 90A–60D | 30–55 | 350–650 | 15–70 | Injection / extrusion |
| TPU-IND OIL | Oil/grease exposure durability | 1.13–1.25 | 85A–60D | 28–55 | 350–650 | 20–90 | Injection / extrusion |
| TPU-IND HYD | Hydrolysis-resistant for wet service | 1.12–1.22 | 80A–55D | 28–50 | 400–700 | 25–100 | Extrusion / blow / injection |
| TPU-IND LT | Low-temperature flexible systems | 1.11–1.20 | 80A–95A | 25–45 | 450–750 | 30–120 | Extrusion / injection |
| TPU-IND FAT | Dynamic fatigue + flex durability | 1.12–1.22 | 85A–55D | 30–55 | 400–700 | 20–90 | Extrusion / injection |
| TPU-IND AG | Heat aging & dimensional stability | 1.13–1.25 | 90A–60D | 30–55 | 350–650 | 20–100 | Injection / extrusion |
Note: Data for reference only. Final performance depends on part design, wall thickness, processing window, and verification method.
Customization Options (Project-Focused)
Beyond standard grade families, industrial TPU compounds can be tuned around real failure risks, load conditions, and exposure routes. Typical customization directions include:
Wear & Contact
- High abrasion and cut/tear resistance for continuous contact
- Rolling wear optimization for wheels and rollers
- Surface stability under friction and load
Media Exposure
- Oil / grease resistance routes (project-dependent)
- Hydrolysis resistance for wet environments
- Chemical resistance positioning based on actual media
Low-Temperature Durability
- Cold-flex packages to reduce stiffness increase in winter handling
- Crack resistance at low temperature
- Balance between flexibility and abrasion
Heat Aging & Stability
- Heat aging resistance and property retention
- Dimensional stability after aging and cycling
- Stabilizer strategy (project-dependent)
Process Window
- Extrusion stability for hoses/tubes (output, sizing, surface)
- Injection molding stability (flow, demolding, shrink control)
- Moisture sensitivity management and drying discipline
Functional Stacking
- Combined requirements (e.g., abrasion + oil + low-temp; hydrolysis + pressure + aging)
- Processing window tuning for stable production runs
- Project-based formulation and verification support
Note: Customization scope depends on part design, service condition, and verification plan. For multi-constraint projects, we recommend starting from Advanced Functional Industrial TPU.
Request Samples / TDS
Share your application, load/pressure, temperature range, exposure media, and target process. We will recommend a shortlist and provide TDS/SDS for trials.
What should you do next?
If your project fits clearly into one category above, jump to the relevant subpage.
If you face multiple constraints or repeated trial failures, start from Advanced Functional.
