Product Introduction

The Yiweisheng Nova HT200 Desktop Hot Press is a high-precision experimental hot pressing platform designed for applications such as 

fuel cell membrane electrode assembly (MEA) and automatic pressure-based processes. It employs a fully servo-electric drive system 

instead of traditional hydraulic structures, supporting manual/automatic modes and multi-stage speed curve control to achieve a

 smooth and gradual pressing process, with speed control accuracy as fine as 0.01 mm/s. The core configuration includes an HRC60 

chromium-molybdenum alloy mirror-finished platen, offering industrial-grade high-precision flatness to ensure excellent uniformity 

across the pressing area. The system delivers stable data output and high process reproducibility.

Technical Features

1. Specially designed for small-area MEA: Protects sensitive materials by avoiding the impact shocks typical of traditional hydraulic systems.

2. Precise process control: Enables segmented speed adjustment and accurately simulates complex pressing profiles.

3. Uniformity guarantee: Ensures even pressure distribution across the pressing area, significantly improving the consistency of MEA performance.

4. HRC60 chromium-molybdenum alloy platen: Offers high hardness, wear resistance, and corrosion resistance, ensuring a clean experimental environment.

5. High data reproducibility: Stabilizes the process window, delivering reliable and trustworthy experimental results.

6. Compact benchtop design: Provides full functionality in a small footprint, saving valuable laboratory space.

Typical Applications

The Nova HT200 Desktop Hot Press is widely used in fields such as materials science and engineering, new energy technologies, 

electronics and semiconductor manufacturing, biomedical and chemical engineering, aerospace, as well as education and scientific 

research. These applications benefit from the compact, precise, and flexible nature of the desktop hot press, enabling high-performance

 material forming and testing capabilities within limited laboratory spaces.