Core Viewpoint - The company is redefining industry protection standards with its innovative long-thin wall nuclear radiation protective gloves, showcasing China's manufacturing strength in the nuclear industry [1][7]. Group 1: Technological Innovation - The gloves are a result of collaboration between the company, Guilin University of Technology, and Southwest University of Science and Technology, integrating resources from materials science, nuclear radiation protection, and engineering [2]. - The innovative use of micro-nano radiation shielding materials combined with high-strength rubber matrix has overcome technical challenges related to compatibility, protective performance, and operational flexibility [2][4]. - The gloves feature a thickness of only 0.2mmPb, effectively attenuating soft gamma rays while maintaining excellent uniformity [4]. Group 2: Product Features - The product line includes five high-performance gloves designed to meet the rigorous demands of the nuclear industry and radiochemical operations, emphasizing material differentiation and scenario customization [3]. - All products share three common advantages: exceptional protective performance against common chemicals and strong corrosive agents, durability and comfort through layered impregnation processes, and high adaptability to nuclear industry glove box designs [3]. Group 3: Industry Impact - The launch of these gloves fills a gap in the domestic high-end nuclear radiation protective glove market and promotes an upgrade in industry standards, achieving chemical corrosion resistance metrics that meet international leading levels [5]. - The company aims to address the core challenges in nuclear industry protection, such as balancing heavy protection with operational sensitivity and meeting diverse protective needs across various scenarios [5]. Group 4: Future Development - The company plans to enhance its research and development efforts, focusing on material innovation and the integration of smart technology, such as embedding sensors in gloves for real-time radiation monitoring and damage alerts [6]. - The commitment to overcoming key core technologies aims to establish a solid foundation for technological independence in the nuclear radiation protection field [6][7].