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electronice filter aluminum encloser cnc machining
Our products include cooler, liquid cold plate, heat pipe heat sink, skived heatsink, extruded heatsink, soldered heatsink, swaged heat sink, bonded heatsink ,auto parts, aluminum structural parts, CNC machined parts, Precision CNC machining parts .
Used on power supply, drivers, soft starter, energy storage, inverter ,IGBT modules, fiber laser, smart driving,semiconductor cooling2022-11-19 -
electronical battery aluminum extrusion end plate and Side panel
2022-11-15 -
electronical battery end plate and Side panel
2022-11-15 -
new engergy vehicle battery end plate and Side panel
2022-11-15
Machined Parts Application (CNC precision machining)
Provide high-efficiency, high-precision, flexible and multifunctional precision machining solutions for parts, which are widely used in the processing of automobiles, electronics, medical equipment, and new energy products. It can manufacture various complex-shaped parts with a machining accuracy of up to 0.01mm to ensure the precise size of the product; with rich machining experience and technical accumulation, it is especially good at precision machining of large-size inner cavity products. It adopts the most optimized machining solutions and precise control technology to perfectly solve the processing problems such as material warping and deformation during the machining process, ensuring the quality and performance requirements of parts.
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Extrusion Profile + CNC Machining
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The role of battery end plates in battery modules mainly includes the following aspects:
Fix and protect batteries: The battery end plates can fix the batteries in the battery module through the design of mounting hole groups and protrusions, prevent the batteries from moving or falling off in the module, and protect the batteries from external impact and damage.
Resist battery expansion: The battery will expand due to internal chemical reactions during use. The design of the end plate can resist this expansion and prevent the battery from deformation or rupture.
Guidance and positioning: The mounting hole groups and protrusions on the end plate are not only used to fix the battery, but also provide guidance for the strapping straps through chamfer design to ensure that the strapping straps are correctly sleeved on the end plate, and at the same time position the side plate or strapping straps to ensure the stability and safety of the battery module.
Material and processing of battery end plates: Generally, battery end plates are made of high-strength 6063 T5 extrusion profile. How to design the processing fixture is the key to ensuring production efficiency.
Hydrogen energy battery stack shell: a key component to protect the future of energy
In the wave of modern energy transformation, hydrogen energy as a clean and efficient form of energy is attracting much attention. As an important component of the hydrogen energy battery stack, the stack shell plays a key role in protecting and supporting the operation of the stack.
The hydrogen energy battery stack shell refers to the external structure used to wrap and protect the hydrogen energy battery stack. Its main function is to provide mechanical support and protection, while also playing the role of heat insulation and sealing.
The design and manufacture of the stack shell need to consider the following key factors:
Mechanical support and protection: The stack shell must be able to withstand various forces and vibrations inside the stack to ensure the structural integrity and long-term reliability of the stack.
Heat insulation: Hydrogen energy battery stacks will generate a certain amount of heat when working. In order to improve energy efficiency and stability, the stack shell needs to have good heat insulation performance to reduce heat loss and the impact of external temperature on the stack.
Sealing: Hydrogen is a gas that is very easy to leak, so the stack shell needs to have good sealing performance to prevent hydrogen leakage and prevent foreign substances from entering the stack to avoid damage and safety risks to the stack.
Lightweight: Hydrogen energy battery stacks are often used in applications such as automobiles and mobile devices, so the weight of the stack shell is also an important consideration. Lightweight design can improve the efficiency and performance of the overall energy system.
The stack shell is usually made of metal, alloy or composite material to meet the above requirements. The process of designing and manufacturing the stack shell needs to take into account factors such as the stack's structural layout, thermal management system, gas flow and stack maintenance to ensure the reliability and performance of the stack.
Vansim hydrogen energy stack shell processing——precision production
0086 138 2691 1113 0086 139 2943 3157
No. 10, Minying West Road, Hengli Town, Dongguan City, China 523390
bill@vansim.com alin@vansim.com
0086 139 2943 3157
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