In the high pressure applications, safety and handling of the design parts are crucial and essentially required. If the design parameters are not properly optimized, sometimes it leads to fatal accidents or huge money loss. With the advent of modern computational tools, the simulation based design analysis is now a day’s address above issues amicably to ultimately helping to improve development process and final product. The paper describes the step by step design process and simulation analysis of the pressure chamber. The theoretical FEA studies carried out on the designed pressure cell show that the chamber is working smoothly within the desired pressure range from atmospherics pressure to 200 MPa based on safety factor of the material used. Such devices are mostly imported and not available indigenously. Thus, the fabrication of simulated device is one step forward to develop an import substitute item and promote ‘Make in India’ product. Simulated results are found to quite encouraging. The actual experiments on the fabricated pressure cell would be performed in due course of time.

中文翻译：

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基于仿真的200 MPa以下计量应用压力室设计分析

在高压应用中，设计零件的安全性和处理至关重要，并且是必不可少的。如果没有适当优化设计参数，有时会导致致命事故或巨额金钱损失。随着现代计算工具的出现，基于仿真的设计分析现已成为解决上述问题的一天，可以最终帮助改善开发过程和最终产品。本文介绍了压力室的逐步设计过程和仿真分析。在设计的压力传感器上进行的理论FEA研究表明，根据所用材料的安全系数，该腔室在从大气压到200 MPa的所需压力范围内均能正常工作。此类设备大部分是进口的，本地无法获得。因此，模拟设备的制造是开发进口替代品和推广“印度制造”产品的第一步。发现模拟结果非常令人鼓舞。在所制造的压力传感器上的实际实验将在适当的时间范围内进行。