Today, with the rapid development of virtual reality technology, 3D printing technology has gradually gained people's attention. Copper alloy parts have a wide range of uses in our lives, but due to the high technology required, production is more difficult. In order to make copper alloy parts more widely used, this paper uses 3D printing technology to print copper alloy parts, and through comparative experiments, the printed copper alloy parts are analyzed in detail. In the printing process, by adjusting the printing parameters, different parts are printed, and the printing results are analyzed for different parameters. The experimental results show that the experimental 3D printing technology can successfully print copper alloy parts. During the printing process, the input parameters have an extremely important effect on the results. The experimental results show that there are related parameters in the printing process, such as layer height, length, density, etc., which will cause deviations in the printing results. Among them, the layer height and length have the most important effect on the results, accounting for more than 50% of the deviation value. This shows that based on virtual reality technology, the use of 3D printing copper alloy parts is achievable.

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基于虚拟现实技术的3D打印铜合金零件测试项目

在虚拟现实技术飞速发展的今天，3D打印技术逐渐受到人们的关注。铜合金零件在我们的生活中有着广泛的用途，但由于技术要求高，生产难度较大。为了让铜合金零件得到更广泛的应用，本文采用3D打印技术打印铜合金零件，并通过对比实验，对打印出来的铜合金零件进行详细分析。在打印过程中，通过调整打印参数，打印不同的部分，针对不同的参数分析打印结果。实验结果表明，实验性3D打印技术可以成功打印铜合金零件。在打印过程中，输入的参数对结果有极其重要的影响。实验结果表明，打印过程中存在相关参数，如层高、长度、密度等，会导致打印结果出现偏差。其中，层高和层长对结果的影响最大，占偏差值的50%以上。这说明基于虚拟现实技术，3D打印铜合金零件的使用是可以实现的。