Production Update: KIDD-process Ear-mounted 316L Stainless Steel Cathode Plates and Copper-clad Conductive Rods Completed for Shipment
July 14, 2026 - The company has successfully completed the full production of supporting components for KIDD electrolytic plates. A batch of ear-mounted stainless steel cathode plates and matching stainless steel copper-clad conductive rods have finished refined manufacturing and internal quality inspection. All technical performances and dimensional accuracy meet relevant industrial standards and customer requirements. The finished products have been properly warehoused and are ready for official shipment.
A total of 438 pieces of ear-mounted KIDD-process stainless steel cathode plates have been produced in this batch. Fabricated from premium 316L stainless steel with a thickness of 3.25mm, the cathode plates are manufactured via mature and standardized KIDD process, including precision cutting, surface flattening and fine shaping. Featuring uniform flatness, controllable dimensional tolerance and outstanding resistance to acid, alkali and oxidation, the products are highly adaptable to long-term wet electrolysis working conditions with excellent structural stability and service life, fully complying with high-end project application standards.
The supporting stainless steel copper-clad conductive rods, sized 25×40×1315mm, are fabricated with advanced composite metallurgy technology. The outer layer adopts 3mm-thick 316L stainless steel pipe, which delivers high mechanical strength and superior corrosion resistance to withstand harsh operating environments and effectively protect the internal conductive structure. The inner core is made of solid C11000 high-purity copper rod with excellent electrical and thermal conductivity, ensuring stable and efficient operation of the electrolytic system.
In terms of core composite technology, the conductive rods achieve 100% metallurgical bonding between the stainless steel outer layer and copper core. The two materials are perfectly integrated without delamination, gaps or peeling risks. The integrated structure ensures stable and consistent electrical conductivity, effectively avoiding common defects of traditional composite conductive parts and meeting the requirements of continuous and high-intensity industrial long-term operation.
At present, all production, quality inspection and finished product protection procedures for the cathode plates and supporting copper-clad conductive rods have been fully completed. The company will actively coordinate customer final acceptance. Once approved, we will immediately arrange logistics resources to realize efficient batch shipment and on-time order delivery.
The successful completion of this batch of products further demonstrates the company's sophisticated technical strength and reliable quality control capability in the field of electrolytic plates and composite conductive components. In the future, we will continue to focus on the metallurgical and electrolytic supporting industry, adhere to high-precision manufacturing standards, and provide customers with high-quality, high-reliability industrial supporting products and professional customized services.
