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As one of the key areas of future development, new energy Batteries are more and more widely used in the manufacturing industry. However, due to its high energy density and special working environment, new energy batteries also have certain safety risks. In order to ensure the safety and stability of the Battery, it is particularly important to select a suitable explosion-proof valve during the manufacturing process. CTT provides a range of services including precision machining, laser cutting, laser welding, laser engraving, automatic welding, precision sheet metal stamping and fabrication, and these advanced processing technologies provide strong support for the manufacture of explosion-proof valves.
First of all, the pressure range is one of the important considerations in the selection of new energy battery explosion-proof valves. Different types of batteries produce different pressure ranges during the working process, so it is necessary to choose the appropriate explosion-proof valve according to the pressure characteristics of the battery. The precision machining capability of Zhuhai Totian ensures that the explosion-proof valve can precisely meet these pressure requirements, and its pressure range should be able to cover the pressure range of normal operation of the battery, and has a certain safety margin.
Secondly,we need to understand the basic principle of new energy battery explosion-proof valves. The new energy battery explosion-proof valve is a safety device used to prevent the explosion of overheating or excessive pressure inside the battery. It can release the internal pressure in time to protect the safety of the battery. When selecting an explosion-proof valve, the following factors need to be considered: pressure range, temperature range, flow requirements and material selection.
Flow requirements are another factor to consider when selecting explosion-proof valves for new energy batteries. Different types of batteries have different discharge rates and charging rates during operation, so it is necessary to choose an explosion-proof valve that can meet the requirements of battery flow. CTT's precision sheet metal stamping and fabrication technology ensures that the flow characteristics of the explosion-proof valve match the discharge and charge rates of the battery to ensure that the explosion-proof valve can release internal pressure in a timely manner.
Against the backdrop of manufacturing transformation, the precision flexible intelligent manufacturing platform has become a core support in high-end fields. This article details its definition, pain point solutions, and industry applications, helping enterprises understand the platform's value.
In the manufacturing of life science components and medical equipment parts, welding is a key factor in quality. Traditional manual welding struggles to meet high-precision requirements, and robotic arm welding, with its automation advantages, has become a core solution in the industry.
Precision planing and slotting use digital control to improve accuracy and consistency, and are widely used in medical and life science manufacturing.
Life science and medical device manufacturing often suffers from slow changeovers and low utilization in mixed-product lines. Flexible intelligent platforms with smart scheduling enable multi-product production on one line, boosting efficiency and utilization.
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