Baizhuang New Materials: Engineering the Future with Advanced
Potting Solutions
Baizhuang New Materials is a leading Chinese manufacturer at the
forefront of high-performance material innovation, specializing in
two-component polyurethane and silicone potting compounds. Backed
by over two decades of technical expertise, the company has
established itself as a trusted name in providing durable,
reliable, and technologically advanced encapsulation solutions for
a wide array of industries.
State-of-the-Art Manufacturing Capabilities
Spanning a 20,000㎡ fully automated production base, Baizhuang’s
manufacturing infrastructure supports an annual capacity of 80,000
tons. This scalable and efficient production capability enables
consistent, high-volume output without compromising on precision or
quality—meeting the demands of both established and emerging
markets.
Broad Industry Applications
The company’s potting compounds are widely deployed in critical
applications across:
- Automotive Electronics: Ensuring reliability under extreme temperatures and vibrations.
- New Energy: Supporting the growth of renewable energy systems, including
electric vehicle (EV) power modules and energy storage units.
- LED Lighting: Delivering thermal management and environmental protection for
long-lasting performance.
Beyond these core sectors, Baizhuang is actively expanding its
material solutions into next-generation industries such as aerospace, robotics, and other advanced technology fields where performance under
extreme conditions is non-negotiable.
Commitment to Quality and Global Standards
Quality is embedded in every stage of Baizhuang’s operations. The
company maintains strict compliance with international management
systems, including:
- ISO9001 (Quality Management)
- ISO14001 (Environmental Management)
- IATF16949 (Automotive Industry Quality Standards)
Furthermore, all products meet key global regulatory and safety
standards, including RoHS, REACH, UL, and NSF, ensuring environmental safety, human health compliance, and
suitability for sensitive applications.
