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High B10 B4C material- Boron carbide materials for nuclear power reactor cores

The technology developed by the company produces high B10 boron carbide powder, with a B10 content of up to 98%. Then, the powder is processed to the customized size. This powder can be used for the production of nuclear reactor core blocks and other purposes. Huayi can also directly turn the powder into ceramic blocks for sale.

    Product Details

    After years of research and development, the company has successfully prepared boron carbide materials with B10 content ≥ 98%, mastered the technology of mass production, and provided products to customers in countries such as China, Russia, and the United States. 

    In addition, the technology possessed by the company has improved the purity of the materials. The company has also improved its sintering process and reduced the loss rate of high B10 boron carbide materials.

    Product Technical Parameters

    Product Technical Parameters
    Type Parameter value
    B-10 abundance, at.% 98
    Total Boron 75~81.0%
    Free boron ≤0.5%
    Free carbon ≤0.5%
    Iron ≤0.1%
    Total B+C ≥99%
    Indicators can be customized

    Product Advantage


    1. High-purity 
    2. Customizable indicators
    3. Stable quality
    4. High B10 content
    5. Flexible production plan

    Company Introduction

    Shandong Huayi Tech New Materials Co., Ltd. is located in China and was established in 2018. The company is committed to the development and application of materials such as silicon carbide and boron carbide in multiple industries.

    The company's main products are silicon carbide powder and ceramics, boron carbide powder and ceramics, silicon carbide ceramic films, nuclear power boron carbide materials, etc. These products are widely used in the nuclear power industry, military industry, environmental protection, new energy, chemical industry and other fields.

    Regarding the production of ceramics, the company has two processes: pressureless sintering and hot pressing sintering. Products with different processes have different advantages and are suitable for different scenarios. Pressureless sintered ceramics have high cost-effectiveness and are suitable for mass production. They are suitable for use as bulletproof materials, seals, nozzles, wear-resistant and temperature resistant materials, as well as common nuclear power materials. Ceramics produced by hot pressing sintering are suitable for small-scale production, can be made into larger sizes, and are suitable for use as nuclear power core materials, semiconductor materials, target materials, and bulletproof materials.

    Product Application