cylindrical grinding

简明释义

圆筒面研磨

英英释义

例句

1.The cylindrical grinding machine requires regular maintenance to function properly.

为了正常运作，圆柱磨削机需要定期维护。

2.The engineer explained the process of cylindrical grinding to ensure the parts were machined accurately.

工程师解释了圆柱磨削的过程，以确保零件的加工精度。

3.We need to perform cylindrical grinding on these shafts to achieve the required surface finish.

我们需要对这些轴进行圆柱磨削以达到所需的表面光洁度。

4.He specializes in cylindrical grinding for high-precision applications.

他专注于高精度应用的圆柱磨削。

5.After cylindrical grinding, the dimensions of the component were within tolerance.

经过圆柱磨削后，组件的尺寸在公差范围内。

作文

Cylindrical grinding is a vital machining process that plays a significant role in modern manufacturing. This technique involves the use of a grinding wheel to remove material from the outer surface of a cylindrical workpiece, resulting in precise dimensions and a smooth finish. The process is widely used in various industries, including automotive, aerospace, and manufacturing of precision tools. Understanding cylindrical grinding (圆柱磨削) is essential for engineers and machinists who aim to produce high-quality components that meet stringent specifications.The primary objective of cylindrical grinding (圆柱磨削) is to achieve a high level of accuracy and surface finish. During the process, the workpiece is mounted on a rotating spindle while the grinding wheel moves along its length. This setup enables the grinding wheel to remove material evenly, resulting in a cylindrical shape. The precision of this process is crucial, as even minor deviations can lead to significant issues in the functionality of the final product.One of the key advantages of cylindrical grinding (圆柱磨削) is its ability to produce tight tolerances. Tolerances refer to the allowable limits of variation in a physical dimension. In industries like aerospace, where components must fit together perfectly, maintaining tight tolerances is critical. Cylindrical grinding (圆柱磨削) can achieve tolerances as tight as a few micrometers, making it an indispensable process in the production of high-precision parts.Moreover, the versatility of cylindrical grinding (圆柱磨削) allows it to be used on various materials, including metals, plastics, and ceramics. Different types of grinding wheels can be employed depending on the material being machined. For instance, diamond or CBN (cubic boron nitride) wheels are often used for hard materials due to their superior hardness and wear resistance. This adaptability makes cylindrical grinding (圆柱磨削) suitable for a wide range of applications, from manufacturing engine components to producing medical devices.In addition to its precision and versatility, cylindrical grinding (圆柱磨削) also contributes to cost-effectiveness in manufacturing. By enabling the production of complex shapes and features in a single setup, it reduces the need for multiple machining operations. This streamlining of the manufacturing process not only saves time but also minimizes labor costs, making it an attractive option for manufacturers aiming to improve their bottom line.However, mastering cylindrical grinding (圆柱磨削) requires a deep understanding of several factors, including wheel selection, feed rates, and coolant application. Each of these elements can significantly influence the outcome of the grinding process. For instance, using the wrong type of wheel can lead to excessive wear and tear or poor surface finish. Similarly, improper feed rates can result in overheating or inefficient material removal. Therefore, continuous training and experience are essential for operators to ensure optimal results.In conclusion, cylindrical grinding (圆柱磨削) is an essential process in the manufacturing industry, known for its precision, versatility, and cost-effectiveness. As technology continues to advance, the techniques and equipment used in cylindrical grinding (圆柱磨削) will likely evolve, further enhancing its capabilities. For those involved in engineering and machining, a thorough understanding of this process is crucial for producing high-quality components that meet the demands of today's competitive market.

圆柱磨削是一种重要的加工工艺，在现代制造业中发挥着重要作用。这种技术涉及使用磨轮去除圆柱工件外表面的材料，从而实现精确的尺寸和光滑的表面。该过程广泛应用于汽车、航空航天以及精密工具制造等各个行业。理解圆柱磨削（cylindrical grinding）对那些旨在生产符合严格规格的高质量组件的工程师和机械师来说至关重要。圆柱磨削（cylindrical grinding）的主要目标是实现高水平的准确性和表面光洁度。在此过程中，工件被安装在旋转主轴上，同时磨轮沿其长度移动。这种设置使磨轮能够均匀去除材料，从而形成圆柱形状。该过程的精度至关重要，因为即使是微小的偏差也可能导致最终产品功能出现重大问题。圆柱磨削（cylindrical grinding）的一个主要优点是其能够生产紧密公差。公差是指物理尺寸中允许的变化范围。在航空航天等行业中，组件必须完美契合，因此保持紧密公差至关重要。圆柱磨削（cylindrical grinding）可以达到几微米的公差，使其成为高精度部件生产中不可或缺的过程。此外，圆柱磨削（cylindrical grinding）的多功能性使其能够用于各种材料，包括金属、塑料和陶瓷。根据被加工材料的不同，可以采用不同类型的磨轮。例如，金刚石或CBN（立方氮化硼）磨轮通常用于硬质材料，因为它们具有优越的硬度和耐磨性。这种适应性使得圆柱磨削（cylindrical grinding）适合广泛的应用，从发动机组件制造到医疗设备生产。除了精确性和多功能性外，圆柱磨削（cylindrical grinding）还为制造业带来了成本效益。通过使复杂形状和特征在一次设置中生产，它减少了多次加工操作的需要。这种制造过程的简化不仅节省了时间，还降低了人工成本，使其成为希望改善盈利能力的制造商的有吸引力的选择。然而，掌握圆柱磨削（cylindrical grinding）需要深入了解多个因素，包括磨轮选择、进给速度和冷却液应用。这些因素中的每一个都可能显著影响磨削过程的结果。例如，使用错误类型的磨轮可能导致过度磨损或表面光洁度差。同样，不当的进给速度可能导致过热或材料去除效率低下。因此，操作人员需要不断培训和积累经验，以确保最佳结果。总之，圆柱磨削（cylindrical grinding）是制造业中的一种基本工艺，以其精确性、多功能性和成本效益而闻名。随着技术的不断进步，圆柱磨削（cylindrical grinding）中使用的技术和设备可能会不断演变，进一步增强其能力。对于从事工程和机械的人员来说，深入理解这一过程对生产符合当今竞争市场要求的高质量组件至关重要。