In new energy manufacturing, copper busbar substrate performance hinges on purity, alloy composition, and fundamental states. States—hard temper (high-strength), soft temper (flexible forming), semi-hard temper (balanced properties), and special treatments—dictate processing adaptability, conductivity, and structural reliability. Understanding custom busbars' material state differences is key for cost-efficiency and competitiveness.
2025-05-30 15:28:46 Silin Wu 25
Though often overlooked, electrical busbars are the central link that ensures voltage balance within lithium battery systems. At RHI Electric, we specialize in high-conductivity, high-reliability, and high-safety custom busbar solutions tailored for the new energy sector. We are committed to supporting the next generation of electric systems with advanced connection technologies that enable both safety and performance upgrades.
2025-05-22 15:51:05 Silin Wu 54266
RHI's 2025 product catalog is now live, featuring our key products, core technologies, supporting equipment, and new energy battery connection solutions. The catalog details our capabilities and innovations in electrical connectivity, busbar manufacturing, and high-temperature insulation.
2025-05-17 13:56:20 Silin Wu 34
The new energy department of Zhejiang RHI Electric Co., Ltd. is dedicated to the production and sales of T2 copper busbars, copper foil flexible connectors, and braided copper connectors.
2025-04-21 15:10:23 admin 393
Zhejiang RHI Electric Co., Ltd.'s new energy department specializes in the production and sales of T2 copper busbars, copper foil flexible connectors, and braided copper connectors.
2025-04-21 15:10:01 admin 136
When bending copper busbars, the bending radius (R) is directly related to the busbar’s thickness. The bending radius must be proportionate to the electrical busbar's thickness to prevent cracking or damage during the bending process.
2025-04-15 10:50:39 Silin Wu 62141
Standard Copper Bar Current Capacity Estimation Method: Single copper bus bar current capacity= width(mm)*thickness coefficient. Double copper bus bar current capacity= width(mm)*thickness coefficient*1.5.
2025-04-15 10:47:00 admin 5980
Copper busbar twisting and lapping processes have distinct advantages for different environments. Twisting is ideal for applications with vibration and temperature changes, providing flexibility and vibration resistance. Lapping, suited for high-power applications, ensures reliable large-current transmission. When combined, these processes enhance system performance and reliability across various conditions.
2025-01-07 14:25:46 Silin Wu 138
