Why Fluidic Flow Dynamics Are Critical to the Design of High- Performance Electronics Fluid selection and components’ interactions will have an impact on heat transfer. This new tech guide reminds engineers of the fluid dynamics basics while also highlighting advanced considerations.
Chemical Compatibility in Liquid Cooling Solutions Chemical compatibility within a liquid cooling loop helps the system performs to specification. With ongoing advances in fluid options and materials, it is important to think holistically when specifying coolant and components, taking into consideration potential interactions.
Fluidic Flow Considerations for Liquid Cooling Proper flow within a liquid cooling system helps ensure it performs to specification. While flow for liquid cooling thermal management seems simple enough, there is a lot to consider including: cooling load, Cv, specific gravity, and coolant selection.
Liquid Cooling Terminations for HPC As liquid cooling grows in high performance computers use, so does the need for knowledge on how to properly design robust, leak-free cooling systems. The right combination of tubing, terminations and connectors will allow for system integrity and optimal performance through years of use.
操作条件(流体传输) 压力: 真空至 120 psi, 8.3 bar 工作温度: 2°C to 75°C 运输/存储温度: -40°C to 75°C 材料 主体部分: 303 不锈钢 阀门和指锁按钮: 高性能聚合物 阀弹簧(接液): 不锈钢 外簧: 不锈钢 密封圈: EPDM 符合标准: RoHS, REACH 其他 颜色: 金属 螺纹规格: SAE-8 润滑剂: Krytox® PFPE 泄漏量: 在 0 psi 的压力下,每次断开连接少于 0.025 cc 在 120 psi 的压力下,每次断开连接少于 0.055 cc Cv 值 Cv ~1.3 最大 (1.12 Kv) Cv 值基于 gpm 和 psi,以及 Ipm 和 bar(显示在括号中)
4509800 ¼″ Flow Everis® UQD with SAE-8 Thread Valved In-Line Cooling Coupling Blindmate Socket, UQDB04