machining
简明释义
v. (用机器)加工,操作;用缝纫机缝制(machine 的现在分词)
英英释义
单词用法
加工中心;多工序自动数控机床 | |
精密加工;精密机械加工 |
同义词
反义词
| 铸造 | 金属通过铸造成型到模具中。 | ||
| 锻造 | Forging is often used to create stronger components than machining. | 锻造通常用于制造比机械加工更强的部件。 |
例句
1.All machine components requiring precision machining shall be part of SELLER's scope of supply.
所有要求精密加工的机器部件应该是卖方供应范围的一部分。
2.Therefore, machining technics is complex and requirement is high, which cause the cost of machining is high.
因此,传统栅式位移传感器制造工艺复杂,加工要求很高,相应地制造成本也很高。
3.The quality and efficiency of nc machining mainly depend on the selection of machining strategy and parameters.
数控加工的质量和效率在很大程度上依赖于加工方案和加工参数的选取。
4.Vibratory tapping is a new kind of machining method.
振动攻丝是一种新型的加工方法。
5.The main objective of virtual machining process is to predict and improve machining accuracy.
虚拟加工的主要任务是预测和改进被加工件的加工精度。
6.Though small, this part required a number of different machining operations.
虽然小,这部分需要一些不同的加工工序。
7.David: What is a machining center, Lisa?
大卫:加工中心是什么,丽莎?
8.We don't do any fabricating, building or machining.
我们不会做任何编造、建筑或加工。
9.The adjustment, clamping and machining method in finish machining are summarized.
总结了精加工时的调整、装夹和加工方法。
10.CNC machining has revolutionized the manufacturing industry.
数控机械加工彻底改变了制造业。
11.The engineer is designing a new machining tool.
工程师正在设计一种新的机械加工工具。
12.Advanced machining techniques can enhance product quality.
先进的机械加工技术可以提高产品质量。
13.We need to improve our machining processes to reduce waste.
我们需要改进我们的机械加工流程以减少浪费。
14.The factory specializes in precision machining.
这家工厂专注于精密机械加工。
作文
Machining is a crucial process in the manufacturing industry, where raw materials are shaped and refined into precise components. This process involves removing material from a workpiece to achieve desired dimensions and surface finishes. The term machining (加工) encompasses various techniques, including turning, milling, drilling, and grinding, each serving different purposes and applications.In modern manufacturing, machining (加工) plays an essential role in producing parts for various industries, including automotive, aerospace, and electronics. For instance, in the automotive sector, precision-engineered components such as engine blocks and transmission housings are often produced through machining (加工) processes. These components must meet strict tolerances to ensure performance and safety, which is why machining (加工) is so vital.One of the most common forms of machining (加工) is turning, where a workpiece is rotated against a cutting tool to remove material. This technique is particularly useful for creating cylindrical shapes and is widely used in the production of shafts, pins, and bushings. Another prevalent method is milling, which involves moving a cutting tool across a stationary workpiece. Milling can produce complex shapes and features, making it ideal for creating intricate parts such as brackets and housings.Drilling is yet another important aspect of machining (加工). It involves creating holes in a workpiece using a rotating drill bit. This process is fundamental in many applications, from assembling components to creating fastening points. Lastly, grinding is used to achieve high-precision finishes on surfaces by using an abrasive wheel. This method is essential when tight tolerances and smooth finishes are required.The advancements in technology have significantly impacted machining (加工) processes. Computer Numerical Control (CNC) machines have revolutionized the industry by allowing for automated and highly accurate machining (加工). CNC machines can execute complex designs with minimal human intervention, increasing efficiency and reducing the risk of errors. This automation has made machining (加工) not only faster but also more consistent in quality.Furthermore, the integration of computer-aided design (CAD) software with machining (加工) processes has enabled engineers to create detailed models that can be directly translated into machining instructions. This synergy between design and manufacturing is critical for developing innovative products that meet consumer demands.However, despite the advancements in technology, machining (加工) still requires a skilled workforce. Operators must understand the intricacies of different materials and machining techniques to select the appropriate tools and settings. Furthermore, knowledge of quality control measures is essential to ensure that the finished products meet industry standards.In conclusion, machining (加工) is an indispensable part of modern manufacturing, enabling the production of high-precision components across various industries. As technology continues to evolve, the methods and techniques associated with machining (加工) will undoubtedly advance, leading to even greater efficiencies and capabilities. Understanding the significance of machining (加工) is vital for anyone interested in pursuing a career in engineering or manufacturing, as it lays the foundation for creating the complex products that drive our economy.
加工是制造业中的一个关键过程,在这个过程中,原材料被塑造和精炼成精确的组件。这个过程涉及从工件中去除材料,以达到所需的尺寸和表面光洁度。术语machining(加工)涵盖了多种技术,包括车削、铣削、钻孔和磨削,每种技术都有不同的目的和应用。在现代制造中,machining(加工)在生产各个行业的零部件中发挥着至关重要的作用,包括汽车、航空航天和电子产品。例如,在汽车行业,经过精密工程设计的组件,如发动机缸体和变速箱外壳,通常通过machining(加工)过程生产。这些组件必须满足严格的公差要求,以确保性能和安全,这就是为什么machining(加工)如此重要。最常见的machining(加工)形式之一是车削,其中工件被旋转并与切削工具接触以去除材料。这种技术特别适用于创建圆柱形状,广泛用于生产轴、销和衬套等部件。另一种流行的方法是铣削,它涉及将切削工具移动到静止的工件上。铣削可以生产复杂的形状和特征,非常适合于创建支架和外壳等精细部件。钻孔是machining(加工)的另一个重要方面。它涉及使用旋转钻头在工件上打孔。这个过程在许多应用中都是基础,从组装组件到创建紧固点。最后,磨削用于通过使用磨料轮来实现高精度的表面光洁度。当需要严格的公差和光滑的表面时,这种方法至关重要。技术的进步对machining(加工)过程产生了重大影响。计算机数控(CNC)机床通过允许自动化和高度准确的machining(加工)而彻底改变了这一行业。CNC机床能够以最小的人为干预执行复杂的设计,提高了效率并减少了错误的风险。这种自动化使得machining(加工)不仅更快,而且在质量上更加一致。此外,计算机辅助设计(CAD)软件与machining(加工)过程的结合使工程师能够创建详细的模型,这些模型可以直接转化为加工指令。这种设计与制造之间的协同作用对于开发满足消费者需求的创新产品至关重要。然而,尽管技术不断进步,machining(加工)仍然需要熟练的劳动力。操作员必须了解不同材料和加工技术的复杂性,以选择适当的工具和设置。此外,了解质量控制措施对于确保成品符合行业标准至关重要。总之,machining(加工)是现代制造中不可或缺的一部分,使得各个行业能够生产高精度的组件。随着技术的不断发展,与machining(加工)相关的方法和技术无疑会不断进步,从而带来更大的效率和能力。理解machining(加工)的重要性对于任何有意追求工程或制造职业的人来说都是至关重要的,因为它为创造推动我们经济的复杂产品奠定了基础。
