Quick Answer
- 85A TPU → Very soft, rubber-like, best for soft-touch parts
- 90A TPU → Medium soft, balanced flexibility (less common, niche use)
- 95A TPU → Standard TPU, most popular, easier to print, good performance
- High Flow 95A (iSANMATE TPU 95A HF) → Same flexibility as stand one, but prints faster & more stable
If you’re unsure: Just start with 95A TPU filament, it offers the best balance between printability and flexibility for most users.
👉 If you’re new to TPU filament world, you can check TPU Filament Guide in the first place
What Does TPU Hardness Mean? (Shore A Explained)
TPU hardness is measured by using the Shore hardness scale, specifically Shore A for flexible materials.
- The A scale is used for soft elastomers (like rubber, TPU)
- Lower number = softer material
- Higher number = harder (but still flexible)
Typical Feel Reference
| Hardness | Flexibility | Application |
| 85A | Very soft | Wearables |
| 90A | Medium-soft | Functional rubber parts |
| 95A | Firm flexible | General engineering |
Why “Shore A” Instead of Other Scales?
Shore A and Shore D are the common two hardness scales in FDM 3d printing.
- Shore A = flexible materials (TPU, TPE, rubber)
- Shore D = rigid plastics (ABS, Nylon, PC)
Therefore, we usually use Shore A for TPU 3d printing material, and the lower the number, the softer the filament.
TPU 85A vs 90A vs 95A: Key Differences
| Feature | 85A TPU | 90A TPU | 95A TPU |
| Flexibility | ⭐⭐⭐⭐⭐ | ⭐⭐⭐⭐ | ⭐⭐⭐ |
| Ease of Printing | ⭐⭐ | ⭐⭐⭐ | ⭐⭐⭐⭐⭐ |
| Stringing Risk | High | Medium | Low |
| Speed of Printing | Slow | Medium | Fast |
TPU 95A: The Industry Standard (And Why It Dominates)
Most brands focus on 95A TPU, and the reasons are quite obvious:
- Compatible with most 3d printers on the markets
- Balanced flexibility & durability
- Easy to print, best choice for beginners
- Suit for wide range of applications
iSANMATE TPU 95A HF Advantage
Unlike standard TPU 95A, iSANMATE upgraded 3d filament – TPU 95A HF (High Flow) is optimized for:
- Higher print speeds (reach 200mm/s and even more)
- Better layer adhesion at speed
- Reduced clogging and stringing
With those advantages, HF TPU 95A is ideal for:
- Fast-printed functional prototyping
- Industrial seals and gaskets
- Impact-resistant components
👉 Related reading: TPU 95A HF Printing Test
TPU 85A: When You Need True Flexibility
85A TPU is significantly softer, but requires more precise settings and extensive experience.
Best Use Cases
- Wearables
- Soft contact surfaces
- Shock absorption parts
Challenges (Based on Real Testing)
- Requires direct drive extruder
- Very sensitive to retraction settings
- Requires slow print speed
What About TPU 90A? (Do You Really Need It?)
Between 85A and 95A, is 90A necessary?
- Limited availability across brands
- Overlaps heavily with tuned 95A prints
- Rarely necessary for most users
📍 In most real-world applications, 90A is not essential, 95A with suitable parameter (infill, wall, speed, etc.) can also achieve the results similar to it.
TPU vs Other Filaments (Quick Comparison)
| 3D Printing Filament | Flexibility | Ease of Printing | Durability | Typical Use |
| PLA | ❌ | ⭐⭐⭐⭐⭐ | ⭐⭐ | Decorative |
| ABS | ❌ | ⭐⭐ | ⭐⭐⭐⭐ | Mechanical parts |
| PETG | ❌ | ⭐⭐⭐⭐ | ⭐⭐⭐⭐ | Functional parts |
| TPU | ✅ | ⭐⭐⭐ | ⭐⭐⭐⭐⭐ | Flexible applications |
📍 TPU is one of the few filaments that combine flexibility with high durability.
How to Choose the Right Flexible TPU Filament?
📌 Choose 85A if:
- You need maximum flexibility
- The part requires bend, stretch, or compress easily
📌 Choose 95A if:
- You need reliable printing
- You’re new to flexible TPU filaments
- You need a balance: strength + elasticity
📌 Choose 95A HF (Recommended) if:
- You want faster printing without sacrificing quality
- You create content regularly and batch-wise
Real-World Recommendation (Based on Testing)
From real printing experience:
- 95A TPU works for 80%+ of users
- 85A is only recommended when true softness is required
- 90A is rarely necessary in most workflows
- 95A TPU HF is highly recommend for high speed printing
👉 For more on controlling TPU drying, check out Do You Need to Dry TPU Filament Before Printing
Pro Tip: Hardness Isn’t Everything
Many users overlook this: Print settings can change perceived flexibility
Here are some examples that change the printing settings to get different hardness levels of TPU:
- Lower infill → softer
- Thinner walls → more flexible
- Different patterns → different elasticity
So the feel of flexibility is determined not only by material hardness, but also by print model structure and slicing parameters.
FAQ: TPU Hardness Explained
🔎 Is 95A TPU flexible enough?
Yes. It bends easily but still holds shape—ideal for most applications.
🔎 Is 85A too soft for beginners?
Yes. And it requires more tuning and a capable printer setup, so not friendly for beginners.
🔎 Can I print 85A on a Bowden printer?
Not recommended. Direct drive systems perform much better than Bowden printer
🔎 Does higher hardness mean stronger parts?
Not always. 95A TPU is stiffer, but 85A TPU can absorb impact better.
Final Thoughts: Choose Based on Application, Not Just Numbers
Choosing the right TPU hardness isn’t about picking the best number, but about matching material features to your application.
- 95A remains the most practical choice
- 85A unlocks true flexibility (with more settings)
- 90A between in 85A and 95A, but isn’t always necessary
- 95A HF represents the next step: speed + reliability
👉 Start with 95A, then move softer only when your application truly requires it. If you’re scaling production or improving workflow, upgrading to a high-flow TPU can make a bigger difference than changing hardness.
