combined machining

简明释义

复合加工

英英释义

例句

1.In aerospace manufacturing, combined machining is essential for creating complex parts.

在航空制造中，复合加工对制造复杂部件至关重要。

2.The new CNC machine is capable of combined machining, allowing for multiple processes in one setup.

这台新的数控机床能够进行复合加工，允许在一个设置中完成多种工艺。

3.By implementing combined machining, we can achieve higher precision in our components.

通过实施复合加工，我们可以在组件中实现更高的精度。

4.We are investing in combined machining technology to stay competitive in the market.

我们正在投资于复合加工技术，以保持市场竞争力。

5.The factory uses combined machining to enhance productivity and reduce production time.

工厂使用复合加工来提高生产力并减少生产时间。

作文

In the modern manufacturing industry, efficiency and precision are paramount. One of the most innovative approaches to achieving these goals is through the technique known as combined machining. This method integrates multiple machining processes into a single operation, allowing manufacturers to produce complex parts with high accuracy and reduced lead times. The concept of combined machining is not only revolutionary but also essential in meeting the demands of today's fast-paced production environments.The traditional approach to machining often involves several distinct operations, such as turning, milling, and drilling, each performed separately. This can be time-consuming and may lead to inconsistencies between different stages of production. In contrast, combined machining streamlines this process by allowing multiple operations to occur simultaneously. For instance, a single machine tool can perform both milling and drilling tasks, which minimizes the need for multiple setups and reduces the overall processing time.One of the significant advantages of combined machining is its ability to enhance precision. By reducing the number of times a workpiece is handled and repositioned, the risk of errors and misalignments is significantly lowered. This is particularly beneficial in industries where tolerances are critical, such as aerospace and automotive manufacturing. With combined machining, manufacturers can achieve tighter tolerances and improve the overall quality of their products.Moreover, combined machining contributes to cost savings. The reduction in setup times and the need for fewer machines directly translates to lower operational costs. Manufacturers can allocate resources more efficiently, allowing them to increase their production capacity without a proportional increase in expenses. This economic advantage is especially crucial in a competitive market where profit margins are continually under pressure.Another aspect worth mentioning is the versatility of combined machining. This technique can be adapted to various materials and part geometries, making it suitable for a wide range of applications. Whether it’s creating intricate components for medical devices or robust parts for heavy machinery, combined machining offers the flexibility needed to meet diverse manufacturing requirements.As technology continues to evolve, the future of combined machining looks promising. Advancements in CNC (Computer Numerical Control) technology and automation are likely to enhance the capabilities of combined machining even further. Manufacturers are increasingly investing in smart manufacturing solutions that incorporate artificial intelligence and machine learning, which can optimize machining processes in real time. This integration will not only improve efficiency but also enable predictive maintenance, reducing downtime and enhancing productivity.In conclusion, combined machining represents a significant leap forward in manufacturing technology. By integrating multiple machining processes into a single operation, it enhances precision, reduces costs, and increases versatility. As industries continue to demand higher quality and faster production times, combined machining will undoubtedly play a crucial role in shaping the future of manufacturing. Embracing this innovative approach will allow manufacturers to stay competitive in an ever-evolving marketplace, ensuring that they can meet the challenges of tomorrow head-on.

在现代制造业中，效率和精确性至关重要。实现这些目标的最具创新性的方法之一是通过被称为组合加工的技术。这种方法将多个加工过程集成到一个操作中，使制造商能够以高精度和缩短的交货时间生产复杂零件。组合加工的概念不仅具有革命性，而且在满足当今快速生产环境的需求中至关重要。传统的加工方法通常涉及多个独立操作，例如车削、铣削和钻孔，每个操作都是单独进行的。这可能耗时，并可能导致生产不同阶段之间的不一致。相比之下，组合加工通过允许多个操作同时进行来简化这一过程。例如，一台机器工具可以同时执行铣削和钻孔任务，从而减少了多次设置的需要，降低了整体加工时间。组合加工的一个显著优势是它能够提高精度。通过减少工件处理和重新定位的次数，显著降低了错误和错位的风险。这在航空航天和汽车制造等对公差要求严格的行业中尤为有利。通过组合加工，制造商可以实现更严格的公差，提高产品的整体质量。此外，组合加工有助于节省成本。设置时间的减少和对更少机器的需求直接转化为较低的运营成本。制造商可以更有效地分配资源，使他们能够在不成比例增加费用的情况下提高生产能力。这一经济优势在竞争激烈的市场中尤为重要，因为利润率持续受到压力。值得一提的另一个方面是组合加工的多样性。这种技术可以适应各种材料和零件几何形状，使其适用于广泛的应用。无论是为医疗设备制造复杂组件，还是为重型机械制造坚固零件，组合加工都提供了满足多样化制造需求所需的灵活性。随着技术的不断发展，组合加工的未来看起来充满希望。CNC（计算机数控）技术和自动化的进步可能会进一步增强组合加工的能力。制造商越来越多地投资于智能制造解决方案，这些解决方案结合了人工智能和机器学习，可以实时优化加工过程。这种集成不仅将提高效率，还将实现预测性维护，减少停机时间，提高生产力。总之，组合加工代表了制造技术的重大飞跃。通过将多个加工过程集成到一个操作中，它提高了精度，降低了成本，并增加了多样性。随着行业对更高质量和更快生产时间的需求不断增加，组合加工无疑将在塑造制造业的未来中发挥关键作用。采用这种创新的方法将使制造商能够在不断演变的市场中保持竞争力，确保他们能够迎接明天的挑战。