Description
Model: ATM-PCBT-PP-3L
1. Basic Product Parameters
| Item | Specification |
| Product Name | Pouch Cell Battery Cycle Test Fixture (PP Three-Layer with Pressure Sensor Version) |
| Model | ATM-PCBT-PP-3L |
| Main Material | PP (Polypropylene) (food-grade/industrial-grade optional, full material customization available) |
| Structure Design | Three-layer structure (as shown in the figure), upgraded from the two-layer fixture with an additional pressure sensing layer (pressure sensor is an essential structural component), stable structure, uniform pressure distribution, and real-time pressure monitoring available; ultra-lightweight and fully electrolyte-resistant |
| Standard Working Pressure | 200kg (customizable up to 300kg, adapted to the load-bearing capacity of the PP three-layer structure) |
| Compatible Battery Thickness | 0.1–2 cm |
| Clamping Method | 4-corner screw locking + die spring buffer + three-layer synchronous clamping, uniform pressure, ultra-scratch-proof to protect battery cell films |
| Customization Service | Fixture size, three-layer spacing, and pressure level can be customized according to battery dimensions and test requirements; PP material thickness can be customized |
2. Fixture Size & Maximum Theoretical Load
Rule: Max. cell length & width = Fixture length & width − 30 mm; Three-layer spacing can be adjusted according to cell thickness
| Fixture Size
(mm) |
Max. Theoretical Load
(kg) |
Max. Compatible Cell Size
(mm) |
Description |
| 10*78*105 | 200 | ≤12*48*75 | Suitable for mini small cells, ultra-lightweight PP, three-layer structure, stable pressure, scratch-proof to protect cell films |
| 10*90*107 | 200 | ≤12*60*77 | Compact size, ultra-lightweight, three-layer synchronous clamping, suitable for low-pressure cycle testing, high stability |
| 10*100*130 | 200 | ≤12*70*100 | Suitable for standard medium-sized cells, universally used in laboratories, ultra-lightweight, uniform pressure of three layers |
| 10*120*160 | 300 | ≤28*90*130 | Standard high-pressure type (max 300kg), PP three-layer reinforced structure, fully electrolyte-resistant, no swelling |
| 12*120*160 | 300 | ≤26*90*130 | Reinforced high-pressure type, max load 300kg, wear-resistant, stable three-layer structure, ultra-lightweight and easy to carry |
| 10*150*180 | 300 | ≤28*120*150 | Suitable for large-capacity cells, PP three-layer structure, stable load-bearing, long-term stability, fully electrolyte-resistant |
| 12*150*180 | 300 | ≤26*120*150 | Top-level high-load version (max 300kg for PP three-layer), uniform pressure distribution, ultra-scratch-proof and lightweight |
3. Optional Materials & Core Advantages
| Material Category | Optional Material | Core Advantages
(Combined with Three-Layer Structure) |
| PP (Default) | Food-Grade PP | Ultra-lightweight; non-toxic and environmentally friendly; fully electrolyte-resistant (no swelling); high toughness; ultra-scratch-proof to protect battery cell films; three-layer structure with built-in pressure sensor for real-time pressure monitoring, suitable for food-grade or high-safety cycle testing |
| PP | Industrial-Grade PP | Ultra-lightweight; cost-effective; fully electrolyte-resistant (no swelling); high toughness; scratch-proof; three-layer structure ensures uniform pressure, suitable for general industrial low-pressure cycle testing scenarios |
| Aluminum Alloy | 7075-T6 Aluminum Alloy | Lightweight; high strength; good rigidity and precise positioning; insulated after anodizing; optional for high-precision, high-strength testing scenarios |
| Stainless Steel | 316 Stainless Steel | Optimal electrolyte corrosion resistance; suitable for leakage/immersion testing; non-magnetic; compatible with high pressure, optional for harsh testing scenarios |
| Engineering Plastic | PEEK (Polyetheretherketone) | Ultra-lightweight; optimal electrolyte resistance (no swelling); insulating and non-magnetic; wide temperature resistance range; extremely high precision, optional for three-layer precision testing |
| Carbon Steel | Carbon Steel | Lowest cost; strong load-bearing capacity; three-layer structure improves rigidity, optional for cost-sensitive three-layer high-pressure testing |
| Acrylic | Acrylic (PMMA) | Lightweight; high transparency for visual observation; insulating and non-magnetic; easy to process, optional for three-layer observation-type testing |
| HDPE | HDPE (High-Density Polyethylene) | Ultra-lightweight; good toughness; fully electrolyte-resistant; cost-effective, optional for low-pressure, high-toughness testing scenarios |
4. Important Notes
Size Rule: Cell length & width = Fixture length & width − 30 mm; Three-layer spacing can be adjusted according to cell thickness, providing safe clamping space and uniform pressure to ensure stable battery cycle test data.
The PP three-layer fixture is upgraded from the two-layer fixture. The core upgrade is the addition of a pressure sensing layer, where the pressure sensor is an essential structural component. The sensor data cable can be connected to external acquisition equipment to realize real-time monitoring of test pressure. Compared with stainless steel and aluminum alloy versions, it is more ultra-lightweight, fully electrolyte-resistant (no swelling), and scratch-proof, suitable for low-pressure cycle testing, no interference with test data.
Fixtue size, three-layer spacing, material and pressure level can be customized according to different battery cycle test requirements; food-grade PP is recommended for high-safety testing scenarios, while industrial-grade PP is suitable for general industrial low-pressure scenarios; the maximum load should not exceed 300kg to avoid structural damage.
For any questions or customization needs, please contact: inquiry@atomfair.com
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