workpiece; work

简明释义

工件

英英释义

A workpiece is a piece of material that is being worked on or has been processed in manufacturing or machining.

工件是指在制造或加工过程中正在处理或已被加工的材料。

Work refers to the physical or mental effort applied towards accomplishing a task or producing something.

工作指的是为完成任务或生产某物而付出的身体或精神努力。

例句

1.The machinist carefully inspected the workpiece 工件 before starting the milling process.

机械师在开始铣削过程之前仔细检查了工件

2.The CNC machine is programmed to cut the workpiece 工件 with high precision.

数控机床被编程以高精度切割工件

3.After several iterations, the engineer finalized the design of the workpiece 工件 for optimal performance.

经过几次迭代,工程师最终确定了工件的设计,以达到最佳性能。

4.Each workpiece 工件 must meet strict quality control standards before it can be shipped.

每个工件必须符合严格的质量控制标准才能发货。

5.The technician placed the workpiece 工件 into the lathe for shaping.

技术员将工件放入车床进行成型。

作文

In the realm of manufacturing and engineering, the terms workpiece (工件) and work (工作) play crucial roles in defining processes and outcomes. A workpiece refers to any material or object that is being processed or worked on during a manufacturing operation. It can be a metal part, a wooden block, or even a plastic component. Understanding the characteristics of the workpiece is essential for engineers and machinists as it directly influences the choice of tools, techniques, and machinery used in production.On the other hand, work encompasses the entire process involved in transforming the workpiece into a finished product. This includes planning, designing, and executing various operations such as cutting, shaping, and assembling. The efficiency of the work performed on the workpiece determines the quality and precision of the final output. Therefore, mastering these concepts is vital for anyone involved in the manufacturing industry.For instance, consider a scenario where a machinist is tasked with creating a complex gear from a block of steel. The block of steel is the workpiece, and the machinist must carefully select the appropriate tools and methods to shape it into the desired gear. This involves various types of work, including milling, drilling, and finishing. Each step requires meticulous attention to detail, as any mistake can lead to defects in the workpiece, ultimately affecting the performance of the gear in its intended application.Moreover, advancements in technology have significantly impacted how workpieces are handled. With the introduction of computer numerical control (CNC) machines, the precision and efficiency of work have reached new heights. These machines can automate the processing of workpieces, allowing for greater consistency and reducing the likelihood of human error. Consequently, the role of the machinist has evolved from manual labor to overseeing complex machinery and ensuring that the work is executed flawlessly.In addition to manufacturing, the concept of workpiece and work also extends to other fields such as woodworking, electronics, and even software development. For example, in woodworking, a piece of lumber is the workpiece, while the various tasks involved in crafting furniture represent the work. Similarly, in software development, the code being written can be considered a workpiece, and the programming efforts to create functional applications constitute the work.Overall, the relationship between workpiece and work is fundamental in various industries. A clear understanding of both terms enables professionals to optimize their processes, enhance productivity, and produce high-quality products. As technology continues to evolve, the definitions and applications of workpiece and work will likely expand, presenting new opportunities and challenges for those in the field. Embracing these concepts is essential for success in the modern manufacturing landscape, where precision and efficiency are paramount.

在制造和工程领域,术语工件工作在定义过程和结果方面发挥着至关重要的作用。工件指的是在制造操作中被加工或处理的任何材料或物体。它可以是金属零件、木块,甚至是塑料组件。理解工件的特性对于工程师和机械师至关重要,因为它直接影响所选择的工具、技术和机器设备。另一方面,工作包括将工件转变为成品的整个过程。这包括规划、设计和执行各种操作,如切割、成形和组装。在工件上进行的工作的效率决定了最终输出的质量和精度。因此,掌握这些概念对任何参与制造行业的人来说都是至关重要的。例如,考虑一个场景,机械师的任务是从一块钢块中制造出一个复杂的齿轮。这块钢块是工件,机械师必须仔细选择合适的工具和方法,将其加工成所需的齿轮。这涉及到各种类型的工作,包括铣削、钻孔和精加工。每一步都需要细致入微的关注,因为任何错误都可能导致工件的缺陷,最终影响齿轮在其预期应用中的性能。此外,技术的进步显著影响了工件的处理方式。随着计算机数控(CNC)机器的引入,工作的精度和效率达到了新的高度。这些机器可以自动化工件的加工,允许更大的一致性,并减少人为错误的可能性。因此,机械师的角色已经从手动劳动演变为监督复杂的机械设备,并确保工作的完美执行。除了制造,工件工作的概念还扩展到其他领域,如木工、电子和软件开发。例如,在木工中,一块木材是工件,而制作家具的各种任务则代表了工作。类似地,在软件开发中,正在编写的代码可以视为工件,而创建功能性应用程序的编程工作构成了工作。总体而言,工件工作之间的关系在各个行业中都是基础性的。清晰理解这两个术语使专业人士能够优化他们的流程,提高生产力,并生产出高质量的产品。随着技术的不断发展,工件工作的定义和应用可能会扩展,为该领域的从业者带来新的机遇和挑战。拥抱这些概念对于在现代制造环境中取得成功至关重要,在这里,精度和效率是首要任务。