part to be machined

简明释义

工件

英英释义

例句

1.The CNC machine is set up to handle the part to be machined 待加工零件 efficiently.

数控机床已设置好，可以高效处理待加工零件。

2.Quality control will inspect every part to be machined 待加工零件 for defects.

质量控制将检查每个待加工零件是否有缺陷。

3.The design team finalized the dimensions of the part to be machined 待加工零件 yesterday.

设计团队昨天确定了待加工零件的尺寸。

4.We need to order materials for the part to be machined 待加工零件 this week.

我们需要在本周订购待加工零件的材料。

5.The engineer reviewed the specifications for the part to be machined 待加工零件 before starting the project.

工程师在开始项目之前审查了待加工零件的规格。

作文

In the world of manufacturing, precision and accuracy are paramount. One of the critical stages in the production process is the machining of various components. A key term often encountered in this field is the part to be machined, which refers to any component that requires shaping, cutting, or finishing to meet specific design specifications. Understanding this concept is essential for anyone involved in engineering, manufacturing, or quality control. Machining is a subtractive manufacturing process where material is removed from a part to be machined to achieve desired dimensions and surface finishes. This process can involve several techniques, including turning, milling, drilling, and grinding. Each technique serves different purposes and is chosen based on the material properties and the final requirements of the part to be machined. For instance, turning is typically used for cylindrical parts, while milling is more suited for flat surfaces or complex geometries. The choice of material for a part to be machined is also crucial. Different materials respond differently to machining processes. Metals like aluminum and steel are common choices due to their strength and machinability, while plastics may be selected for their lightweight properties and corrosion resistance. Understanding the characteristics of the material helps in selecting the appropriate machining parameters, such as speed, feed rate, and tool type. Quality control is another vital aspect when dealing with a part to be machined. After machining, parts must be inspected to ensure they meet the required tolerances and surface finishes. Techniques such as dimensional inspection, surface roughness measurement, and non-destructive testing are commonly employed. These quality checks are essential to prevent defects and ensure that the finished product functions as intended. Moreover, advancements in technology have significantly influenced how we understand and work with parts to be machined. Computer Numerical Control (CNC) machines have revolutionized the machining process by allowing for greater precision and automation. CNC technology enables manufacturers to produce complex shapes and designs that would be challenging to achieve manually. With software programs guiding the machining process, operators can create intricate designs while maintaining high levels of accuracy. In conclusion, the term part to be machined encapsulates a fundamental aspect of manufacturing. It signifies components that undergo various machining processes to achieve precise specifications. Understanding the intricacies of machining, including material selection, machining techniques, and quality control measures, is essential for producing high-quality parts. As technology continues to evolve, the methods and tools used in machining will also advance, further enhancing our ability to manufacture complex and precise components efficiently. The journey of a part to be machined from raw material to finished product is a testament to the skill and innovation present in the manufacturing industry.

在制造业中，精确和准确是至关重要的。生产过程中的关键阶段之一是对各种组件进行加工。在这个领域中，一个常见的术语是待加工部件，它指的是任何需要成型、切割或抛光以满足特定设计规格的组件。理解这一概念对任何参与工程、制造或质量控制的人来说都是至关重要的。 加工是一种减法制造过程，在此过程中，从待加工部件上去除材料，以实现所需的尺寸和表面光洁度。这个过程可以涉及几种技术，包括车削、铣削、钻孔和磨削。每种技术都有不同的用途，并根据材料特性和待加工部件的最终要求进行选择。例如，车削通常用于圆柱形零件，而铣削则更适合于平面或复杂几何形状。 对于待加工部件的材料选择也是至关重要的。不同材料对加工过程的反应各不相同。铝和钢等金属由于其强度和可加工性而成为常见选择，而塑料则可能因其轻便特性和耐腐蚀性而被选用。了解材料的特性有助于选择适当的加工参数，如速度、进给率和刀具类型。 质量控制是处理待加工部件时另一个重要方面。加工后，零件必须经过检查，以确保它们符合所需的公差和表面光洁度。常用的技术包括尺寸检查、表面粗糙度测量和无损检测。这些质量检查对于防止缺陷和确保成品按预期功能运行至关重要。 此外，技术的进步对我们理解和处理待加工部件产生了重大影响。计算机数控（CNC）机床通过允许更高的精度和自动化，彻底改变了加工过程。CNC技术使制造商能够生产复杂形状和设计，这些设计用手工方式难以实现。通过软件程序引导加工过程，操作员可以创建复杂的设计，同时保持高水平的准确性。 总之，待加工部件这一术语概括了制造业的基本方面。它标志着经历各种加工过程以达到精确规格的组件。理解加工的复杂性，包括材料选择、加工技术和质量控制措施，对于生产高质量零件至关重要。随着技术的不断发展，加工中使用的方法和工具也将不断进步，进一步增强我们高效制造复杂和精确组件的能力。从原材料到成品的待加工部件的旅程，是制造业中技能和创新的证明。