geometry error

简明释义

几何结构误差

英英释义

例句

1.To avoid geometry error, always validate your models before exporting them.

为了避免几何错误，在导出模型之前请始终进行验证。

2.The engineer explained that a geometry error could lead to structural failures.

工程师解释说，几何错误可能导致结构故障。

3.The 3D printer stopped working due to a geometry error in the design file.

由于设计文件中的几何错误，3D打印机停止工作。

4.After checking the file, we found several instances of geometry error that needed to be fixed.

检查文件后，我们发现有几个需要修复的几何错误。

5.The CAD software reported a geometry error when I tried to render the model.

当我尝试渲染模型时，CAD软件报告了一个几何错误。

作文

In the world of technology and engineering, precision is key. One term that often arises in discussions about design and manufacturing is geometry error. This phrase refers to discrepancies between the intended geometric design of an object and its actual physical dimensions or shape. Understanding geometry error is crucial for engineers and designers as it can significantly impact the performance and functionality of a product.For instance, consider the automotive industry, where every component of a vehicle must fit together perfectly to ensure safety and efficiency. If there is a geometry error in the manufacturing of a part, it could lead to misalignment, increased wear and tear, or even catastrophic failures. Engineers use various tools and techniques to measure and minimize these errors during the design and production processes.One common method to address geometry error is through the use of Computer-Aided Design (CAD) software. CAD allows designers to create precise digital models of their products. However, even with advanced technology, errors can still occur due to factors like material shrinkage during cooling or inaccuracies in machining processes. Therefore, engineers must continually validate their designs against physical prototypes to identify and correct any geometry errors before mass production begins.Another aspect to consider is the impact of geometry error on quality control. During the inspection phase, quality assurance teams often employ techniques such as laser scanning or coordinate measuring machines (CMM) to detect any deviations from the specified geometry. These inspections are vital because they help ensure that the final product meets the required standards and specifications. If a geometry error is detected, corrective actions must be taken, which may include reworking the part or adjusting the manufacturing process to prevent future occurrences.Moreover, geometry error is not limited to physical products; it can also apply to digital representations in simulations. For example, in computer graphics and virtual reality, a geometry error can lead to visual artifacts or glitches that detract from the user experience. Developers must pay close attention to the geometry of 3D models to avoid such issues, ensuring that the virtual environment accurately reflects the intended design.In conclusion, the concept of geometry error is integral to various fields, especially in engineering and design. By understanding and mitigating these errors, professionals can enhance the quality and functionality of their products. Continuous advancements in technology, such as improved CAD systems and more sophisticated inspection techniques, play a pivotal role in reducing geometry error and ensuring that the final output aligns closely with the original design intent. As industries strive for higher precision and quality, the importance of addressing geometry error will only continue to grow, highlighting the need for ongoing education and innovation in this area.

在技术和工程的世界中，精确性是关键。一个常常出现在设计和制造讨论中的术语是几何误差。这个短语指的是物体的预期几何设计与其实际物理尺寸或形状之间的差异。理解几何误差对工程师和设计师至关重要，因为它会显著影响产品的性能和功能。例如，考虑汽车工业，车辆的每个组件必须完美契合，以确保安全和效率。如果在某个部件的制造过程中出现了几何误差，可能会导致不对齐、磨损增加，甚至灾难性故障。工程师使用各种工具和技术来测量和最小化这些错误，在设计和生产过程中。解决几何误差的一个常见方法是使用计算机辅助设计（CAD）软件。CAD允许设计师创建其产品的精确数字模型。然而，即使有先进的技术，错误仍然可能发生，原因可能包括材料在冷却过程中的收缩或加工过程中的不准确。因此，工程师必须不断验证其设计与物理原型的一致性，以识别并纠正任何几何误差，以便在大规模生产开始之前进行修正。另一个需要考虑的方面是几何误差对质量控制的影响。在检查阶段，质量保证团队通常采用激光扫描或坐标测量机（CMM）等技术来检测任何与指定几何形状的偏差。这些检查至关重要，因为它们帮助确保最终产品符合所需的标准和规格。如果发现几何误差，则必须采取纠正措施，这可能包括返工部件或调整制造过程以防止未来的发生。此外，几何误差不仅限于物理产品；它也可以应用于模拟中的数字表示。例如，在计算机图形学和虚拟现实中，几何误差可能导致视觉伪影或故障，从而影响用户体验。开发人员必须密切关注3D模型的几何形状，以避免此类问题，确保虚拟环境准确反映预期设计。总之，几何误差的概念在各个领域中都是不可或缺的，尤其是在工程和设计中。通过理解和减轻这些错误，专业人员可以提高其产品的质量和功能。技术的持续进步，如改进的CAD系统和更复杂的检查技术，在减少几何误差和确保最终输出与原始设计意图紧密一致方面发挥着关键作用。随着各行业对更高精度和质量的追求，解决几何误差的重要性只会继续增长，突显出在这一领域持续教育和创新的必要性。