Jinghuang Technology Invited to Attend the 9th China Fusion Reactor Materials Conference

Release time:

2025-08-21

On August 20, 2025, Jinghuang Technology was invited to attend the 9th China Fusion Reactor Materials Conference, held in Xi'an, Shaanxi Province. The conference was hosted by Xi'an Jiaotong University and co-organized by the Northwest Institute of Nonferrous Metals, making it one of the highest-level academic events in China's fusion reactor materials field.

On August 20, 2025, Jinghuang Technology was invited to participate in the 9th China Fusion Reactor Materials Conference, held in Xi'an, Shaanxi Province. Hosted by Xi'an Jiaotong University and co-organized by the Northwest Institute of Nonferrous Metals, this conference is one of China's premier academic events in the field of fusion reactor materials.

Conference Background

The China Fusion Reactor Materials Conference serves as a vital platform for scientific research and technological exchange in nuclear fusion materials within China. Since China officially joined the International Thermonuclear Experimental Reactor (ITER) project in 2007, domestic fusion science and technology have experienced rapid advancements. Major facilities such as EAST and HL-3 have repeatedly achieved groundbreaking milestones, while the active participation of private enterprises and social capital has further catalyzed the emergence of a new collaborative model: "led by the national team, supported by innovation consortia, and driven by synergistic efforts from private companies." This year's conference will focus on cutting-edge research in fusion reactor materials, key technological breakthroughs, and practical engineering applications, aiming to accelerate China's independent R&D and systemic innovation in fusion energy materials.

Conference Theme
1. China's Strategic Development Plan for Materials in Magnetic Confinement Fusion Reactors;
2. Manufacturing/preparation, processing, and performance evaluation of fusion reactor blanket structural materials and components;
3. Plasma-facing materials and components for fusion reactors—covering manufacturing/preparation, processing, and performance;
4. Functional materials for the fusion reactor tritium breeding blanket (including tritium breeders, neutron multiplier materials, and barrier coatings, etc.);
5. Tritium-related process components, materials, and equipment for fusion reactor tritium plants;
6. Fusion reactor superconducting magnets, nuclear detection components, nuclear shielding, and related materials and components:
7. Experimental Study and Characterization & Inspection of Material Performance Under Fusion Reactor Conditions:
8. Computational Simulation of Irradiation Damage in Fusion Reactor Materials;
9. Structural and Functional Materials for Fusion Reactors Based on Non-Magnetic Confinement Concepts;
10. Other research, development, and education related to fusion reactor materials

As an invited representative of private enterprises, Jinghuang Technology has long been focused on the research and development of specialty materials as well as their engineering applications, accumulating extensive technical expertise in areas such as high-temperature corrosion-resistant materials, high-performance alloys, and advanced composite materials.

In recent years, the company has closely aligned with the nation’s energy strategy, actively investing in cutting-edge research on key materials for fusion reactors. Focusing on areas such as "optimizing material performance under extreme conditions," "innovating new material processing techniques," and "nano-material surface modification," the company is committed to pioneering innovative solutions that enable the domestic substitution and performance enhancement of fusion reactor materials. By participating in industry conferences, the company will further stay attuned to the latest trends in fusion reactor material development, while also expanding collaboration opportunities with research institutions and partners across the industrial chain. Additionally, it will engage in in-depth discussions with peers to address technical challenges, explore potential partnerships, and map out practical pathways for industrial implementation—continuously strengthening its R&D and engineering capabilities in the critical components and materials sector for fusion reactors.

Jinghuang Technology will continue to deeply cultivate the advanced materials field, leveraging technological innovation as its driving force, and relentlessly explore cutting-edge areas such as fusion reactor materials and high-end specialty materials, thereby providing robust material support for China’s energy transition and the upgrading of its high-tech manufacturing industry.

Key words:

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