Products Description
- The XW-DR-H150-200 Lab Roll Press Machine is a compact and precision-engineered Roll Heat Press Machine designed for advanced research applications. It features dual rollers with a diameter of 150mm and a width of 200mm, complemented by a dual-grade micrometer for precise adjustments. This machine is particularly well-suited for hot rolling processes in Li-Ion battery research, where it is used to fine-tune electrode thickness and enhance the density of active materials post-coating and drying.
- This Electric Calender model is specifically designed for processing small electrodes during the rolling phase. It is an excellent choice for both academic institutions and corporate research facilities, facilitating the compression molding of battery electrodes to achieve higher density.
- Equipped with a pair of robust steel rollers, each 200mm in width, this machine can heat the rollers up to 120℃, ensuring optimal conditions for electrode processing.
Technical Parameters
| Model | Φ150*200mm Roll Heat Press Machine XW-DR-H150-200 |
| Working Voltage | 110V / 220V AC single phase selectable |
| Power | 3000W Total |
| Warranty | One year limited manufacture warranty with lifetime support |
| Machine Size | L 950mm W 500mm H 1010mm |
| Roller Dimension | 150mm(Dia.) x 200mm(W) |
| Roller surface hardness | >HRC62 |
| Rolling press accuracy | ≤±0.005 |
| Roller surface finish | 0.8 |
| Roller surface | 5mm |
| hardening depth | |
| Rolling press thickness | 0-3 mm adjusted with Dial gauge |
| Rolling press width | Max 200mm, Customized |
| Rolling press speed | 0-6.5 m/min adjustable |
| Heating temperature | RT-120℃, can customized to 200C |
| Application Notes | This roller is specially designed for battery R&D in terms of its advantages |
| as affordable, compact and precise. | |
| 1 Must use acetone to clean and dry roller surface after each use to avoid rust | |
| 2 Coated Rust-proof oil if machine were to be unused for a long period of time | |
| 3 The minimum thickness of the rolled sheet should depend on the physical | |
| property of the materials. |
