swaging

简明释义

英['sweɪdʒɪŋ]美[ˈsweɪdʒɪŋ]

n. 模锻；挤锻，型锻；挤锻压加工

英英释义

单词用法

同义词

反义词

例句

1.There are two ways of producing molybdenum wires, rolling-drawing and swaging-drawing.

目前国内钼线材加工方式有两种：轧制-拉伸加工与旋锻-拉伸加工。

2.We provide custom tube fabrication utilizing piercing, flaring, expanding, flattening, forming, swaging and machining operations.

通过冲孔、扩孔、扩展、压扁、成型、模锻和机械技工操作生产定制管。

3.The rotary swaging processes effect on molybdenum rod was good.

旋锻对钼棒具有较好的致密化效果。

4.When swaging vinyl-sheathed wire rope, always retract sheathing to reveal wire rope before proceeding to swage.

当锻乙烯护套钢丝绳，始终收回护套透露，然后再进行扣压钢丝绳。

5.Advancement of the outer ring over the inner ring radially compresses the latter thereby resulting in swaging of the pipe.

外环在内环上的推进径向地压缩内环，由此导致管的型锻。

6.Set the Swaging Machine as stated in the operating manual.

根据操作指南安装扣压机。

7.The technology and equipment characteristics of the chip less precision rotary swaging are introduced.

介绍了精密旋揉的工艺和设备特点。

8.We provide custom tube fabrication utilizing piercing, flaring, expanding, flattening, forming, swaging and machining operations.

通过冲孔、扩孔、扩展、压扁、成型、模锻和机械技工操作生产定制管。

9.Complete a swaging assembly within the range of an appropriate die set.

在某一适宜的模具范围内完成一次扣压总成。

10.The jeweler used swaging techniques to form intricate designs in the metal.

珠宝商使用 swaging 技术在金属中形成复杂的设计。

11.During swaging, the material is deformed to achieve the desired dimensions and shape.

在 swaging 过程中，材料被变形以达到所需的尺寸和形状。

12.The process of swaging is often used to shape metal components in manufacturing.

在制造过程中，swaging 工艺通常用于成型金属部件。

13.We utilized swaging to create a strong connection between the cable and the fitting.

我们利用 swaging 创建了电缆与配件之间的牢固连接。

14.In automotive manufacturing, swaging is essential for producing high-quality parts.

在汽车制造中，swaging 对于生产高质量零件至关重要。

作文

Swaging is a metalworking process that involves shaping or forming metal by applying pressure. This technique is often used in various industries, including manufacturing, automotive, and aerospace. The term 'swaging' comes from the Old English word 'swage,' which means to press or shape. In essence, swaging (挤压成型) is a method that allows for the creation of complex shapes and designs without the need for extensive machining or cutting. One of the key advantages of swaging (挤压成型) is its ability to produce parts with high precision and tight tolerances. This is especially important in industries where the performance of components is critical. For instance, in the aerospace sector, even the slightest deviation in a component's dimensions can lead to catastrophic failures. Therefore, the use of swaging (挤压成型) ensures that parts are manufactured to exact specifications, enhancing safety and reliability.Another benefit of swaging (挤压成型) is its efficiency. The process typically requires less material than traditional machining methods, as it often involves reshaping existing metal rather than cutting away excess material. This not only reduces waste but also lowers production costs. Additionally, swaging (挤压成型) can be performed at high speeds, making it suitable for mass production. In terms of applications, swaging (挤压成型) is commonly used to create a variety of products, including wire, tubes, and fittings. For example, in the electrical industry, swaging (挤压成型) is used to form connectors and terminals that are essential for wiring systems. Similarly, in the automotive industry, swaging (挤压成型) is utilized to manufacture components such as drive shafts and suspension parts, which require both strength and lightweight properties.The process of swaging (挤压成型) can be performed using different techniques, including rotary swaging, linear swaging, and impact swaging. Each method has its own set of advantages and is chosen based on the specific requirements of the project. For instance, rotary swaging is ideal for producing symmetrical parts, while linear swaging is often used for elongating and reducing the diameter of materials. Despite its many benefits, swaging (挤压成型) is not without challenges. One of the primary concerns is the potential for material fatigue, especially when dealing with high-strength alloys. It is crucial for manufacturers to carefully monitor the swaging (挤压成型) process to ensure that the material does not become compromised during shaping. Additionally, proper tooling and machine maintenance are essential to maintaining the quality of the finished product. In conclusion, swaging (挤压成型) is a vital metalworking process that plays a significant role in modern manufacturing. Its ability to produce high-precision components efficiently makes it an attractive option for various industries. As technology advances, the techniques and applications of swaging (挤压成型) will continue to evolve, further enhancing its importance in the world of metal fabrication.

挤压成型是一种金属加工工艺，通过施加压力来塑形或成型金属。这种技术常用于制造、汽车和航空航天等各个行业。术语“swaging”源自古英语单词“swage”，意为压制或成型。实质上，swaging（挤压成型）是一种允许在不需要广泛机械加工或切割的情况下创造复杂形状和设计的方法。swaging（挤压成型）的一个主要优点是能够以高精度和严格公差生产零件。这在性能至关重要的行业中尤其重要。例如，在航空航天领域，组件尺寸的微小偏差可能会导致灾难性的故障。因此，使用swaging（挤压成型）确保零件按照确切规格制造，提高了安全性和可靠性。swaging（挤压成型）的另一个好处是其效率。该过程通常比传统的机械加工方法所需的材料更少，因为它通常涉及重新塑形现有金属，而不是切除多余的材料。这不仅减少了浪费，还降低了生产成本。此外，swaging（挤压成型）可以高速进行，使其适合大规模生产。在应用方面，swaging（挤压成型）常用于制造各种产品，包括电线、管道和配件。例如，在电气行业，swaging（挤压成型）用于形成连接器和终端，这些都是电线系统必不可少的。同样，在汽车行业，swaging（挤压成型）用于制造驱动轴和悬挂部件等组件，这些组件需要强度和轻量化特性。swaging（挤压成型）的过程可以通过不同的技术进行，包括旋转挤压、线性挤压和冲击挤压。每种方法都有其自身的优点，通常根据项目的具体要求进行选择。例如，旋转挤压非常适合生产对称零件，而线性挤压通常用于延长和减少材料直径。尽管有许多优点，swaging（挤压成型）也面临挑战。主要问题之一是材料疲劳的潜在风险，尤其是在处理高强度合金时。制造商必须仔细监控swaging（挤压成型）过程，以确保在成型过程中材料不会受到损害。此外，适当的工具和机器维护对于保持成品质量至关重要。总之，swaging（挤压成型）是一种重要的金属加工工艺，在现代制造业中发挥着重要作用。其高精度、高效率的零件生产能力使其成为各个行业的理想选择。随着技术的进步，swaging（挤压成型）的技术和应用将继续发展，进一步增强其在金属加工世界中的重要性。