computer numerical control (CNC)

简明释义

计算机数控

英英释义

例句

1.The factory upgraded its machines to use computer numerical control (CNC) for enhanced precision.

工厂升级了其机器，以使用计算机数控 (CNC)以提高精度。

2.Learning computer numerical control (CNC) programming is essential for modern machinists.

学习计算机数控 (CNC)编程对现代机械师来说至关重要。

3.Many industries are adopting computer numerical control (CNC) to streamline their manufacturing processes.

许多行业正在采用计算机数控 (CNC)来简化其制造流程。

4.The design team relies on computer numerical control (CNC) technology to create prototypes.

设计团队依赖计算机数控 (CNC)技术来创建原型。

5.With computer numerical control (CNC), we can produce complex parts more efficiently.

利用计算机数控 (CNC)，我们可以更高效地生产复杂部件。

作文

In the realm of modern manufacturing, the term computer numerical control (CNC) has become increasingly significant. This technology revolutionizes the way products are designed and produced, offering unparalleled precision and efficiency. The essence of computer numerical control (CNC) lies in its ability to automate machine tools through the use of computer programming. This means that intricate designs can be translated into commands that guide machines to cut, shape, and finish materials with remarkable accuracy.One of the primary advantages of computer numerical control (CNC) is its ability to produce complex shapes that would be nearly impossible to achieve with manual machining. Traditional manufacturing methods often require skilled laborers to operate machines, which can lead to inconsistencies and human error. However, with computer numerical control (CNC), once the design is inputted into the software, the machine can replicate it flawlessly, ensuring uniformity across all produced items.The process begins with a computer-aided design (CAD) model, where engineers create a detailed blueprint of the desired product. This model is then converted into a format that the computer numerical control (CNC) machine can understand. The machine follows the programmed instructions to manipulate tools such as drills, lathes, and mills, allowing for a high degree of customization. As a result, industries ranging from aerospace to automotive have adopted computer numerical control (CNC) to streamline their production processes.Moreover, computer numerical control (CNC) enhances productivity by significantly reducing production times. In traditional methods, setting up machines for new tasks can take hours or even days. With computer numerical control (CNC), the transition between different tasks is seamless; once a program is written, it can be reused for future productions, minimizing downtime. This efficiency not only saves time but also reduces labor costs, making it an attractive option for manufacturers.Another important aspect of computer numerical control (CNC) is its impact on safety. Manual machining can pose risks to workers due to the potential for accidents when handling heavy machinery. By automating these processes, computer numerical control (CNC) minimizes human interaction with dangerous equipment, thereby enhancing workplace safety. Operators are required to oversee the machines rather than physically engage with them, which further reduces the risk of injury.Despite these advantages, there are challenges associated with computer numerical control (CNC). The initial investment in CNC machinery can be substantial, and companies must also invest in training employees to operate these advanced systems. Additionally, as technology evolves, businesses must keep their software and hardware updated to maintain competitiveness in the market.In conclusion, computer numerical control (CNC) represents a significant advancement in manufacturing technology. Its ability to enhance precision, efficiency, and safety makes it an invaluable tool for modern industries. As we move forward, the integration of computer numerical control (CNC) into various sectors will continue to drive innovation and reshape the landscape of manufacturing, ultimately leading to better products and improved production methodologies.

在现代制造领域，术语计算机数控（CNC）变得越来越重要。这项技术彻底改变了产品的设计和生产方式，提供了无与伦比的精确度和效率。计算机数控（CNC）的本质在于其通过计算机编程自动化机床的能力。这意味着复杂的设计可以转化为指令，指导机器以惊人的精度切割、塑形和加工材料。计算机数控（CNC）的主要优势之一是能够生产出手动加工几乎无法实现的复杂形状。传统的制造方法通常需要熟练工人操作机器，这可能导致不一致和人为错误。然而，通过计算机数控（CNC），一旦设计输入到软件中，机器就可以完美复制，确保所有生产项目的一致性。这个过程始于计算机辅助设计（CAD）模型，工程师在此创建所需产品的详细蓝图。然后，将该模型转换为计算机数控（CNC）机器可以理解的格式。机器遵循编程指令操作工具，如钻头、车床和铣床，从而允许高度定制。因此，从航空航天到汽车等行业已经采用计算机数控（CNC）来简化其生产过程。此外，计算机数控（CNC）通过显著减少生产时间来提高生产力。在传统方法中，为新任务设置机器可能需要几个小时甚至几天。而使用计算机数控（CNC），不同任务之间的过渡是无缝的；一旦程序编写完成，就可以在未来的生产中重复使用，从而最大限度地减少停机时间。这种效率不仅节省了时间，还降低了劳动力成本，使其成为制造商的一个有吸引力的选择。计算机数控（CNC）的另一个重要方面是其对安全的影响。手动加工可能对工人构成风险，因为在操作重型机械时可能发生事故。通过自动化这些过程，计算机数控（CNC）最小化了与危险设备的人为接触，从而提高了工作场所的安全性。操作员只需监督机器，而不必亲自与其接触，这进一步降低了受伤的风险。尽管有这些优势，但与计算机数控（CNC）相关的挑战也存在。CNC机械的初始投资可能相当可观，公司还必须投资于培训员工以操作这些先进的系统。此外，随着技术的发展，企业必须保持其软件和硬件的更新，以维持市场竞争力。总之，计算机数控（CNC）代表了制造技术的重要进步。它提高了精确度、效率和安全性，使其成为现代工业中不可或缺的工具。随着我们向前发展，计算机数控（CNC）在各个行业中的整合将继续推动创新，重塑制造业的格局，最终带来更好的产品和改进的生产方法。