swaged
简明释义
adj. 型锻的;陷型的
vt. 锻造;用型铁打成(swage 的过去分词)
英英释义
Swaged refers to a process in manufacturing where a material is deformed or shaped by applying pressure, typically using a die or tool. | swaged指的是一种制造过程中,通过施加压力(通常使用模具或工具)使材料变形或成型的过程。 |
单词用法
压制端 | |
压制配件 | |
压制管道 | |
压制接头 |
同义词
| 成型的 | 金属被成型为特定的设计。 | ||
| 形成的 | 管道使用高压技术形成。 | ||
| 模制的 | 塑料被模制以符合所需的规格。 | ||
| 压缩的 | 材料被压缩以增加其密度。 |
反义词
| 扩展的 | 金属被扩展以适应新设计。 | ||
| 未成形的 | 未成形的材料可以稍后成型。 |
例句
1.Results the prosthetic effective rate of casting full crown was higher than that of swaged full crown.
结果铸造全冠修复的成功率高于锤造全冠修复。
2.Produce a trial swaged assembly and check the size.
试扣压一个总成检测尺寸。
3.The investigation was made on microstructure, mechanical property and recrystallization behavior of tungsten alloy with different amount of swaged deformation.
对不同锻造变形量的钨合金材料组织、性能及其再结晶行为进行了研究。
4.The investigation was made on microstructure, mechanical property and recrystallization behavior of tungsten alloy with different amount of swaged deformation.
对不同锻造变形量的钨合金材料组织、性能及其再结晶行为进行了研究。
5.This article depicted briefly about cold-swaged joining technique for rebars, equipment and test data.
本文简要叙述钢筋冷压连接的工艺、设备及冷压接头性能试验的结果。
6.Position the assembly to be swaged within the dies of the swaging head.
在机头模具范围内进行扣压总成。
7.Set the calibrator to a new setting and produce a swaged assembly.
在校准器上设置新的目标数据,进行扣压总成。
8.The metal rod was swaged to fit perfectly into the connector.
金属杆被压制成型以完美适配连接器。
9.After being swaged, the ends of the wire were much stronger.
在被压制成型后,电线的两端变得更强壮。
10.Using a hydraulic press, we swaged the aluminum pieces together.
我们使用液压机将铝件压制成型在一起。
11.The ends of the cable were swaged to prevent fraying.
电缆的两端被压制成型以防止磨损。
12.The technician swaged the tubing to ensure a tight seal.
技术员压制成型了管道以确保紧密密封。
作文
In the world of manufacturing and engineering, various techniques are employed to shape and form materials into desired configurations. One such technique is known as swaged, which refers to a process where metal is shaped by compressive forces. This method is particularly useful in creating components with specific dimensions and properties, making it an essential technique in industries ranging from aerospace to automotive. The swaged process involves the use of a tool that applies pressure to the metal, causing it to deform and take on the shape of the die. This not only enhances the mechanical properties of the metal but also ensures that the final product meets stringent specifications.The advantages of using swaged techniques are numerous. First and foremost, this method allows for precise control over the dimensions of the finished product. For instance, when producing parts for aircraft, engineers must ensure that every component is made to exact specifications to maintain safety and performance standards. The swaged process achieves this by allowing for fine adjustments during production, which can be critical in high-stakes applications.Moreover, swaged components often exhibit improved strength and durability compared to those made through traditional machining processes. The compression involved in swaged shaping enhances the material's grain structure, resulting in a product that can withstand greater stress and wear. This is particularly beneficial in industries where components are subject to extreme conditions, such as high temperatures or heavy loads.Another significant benefit of the swaged process is its efficiency. Unlike other forming methods that may require multiple steps or additional materials, swaged production can often be completed in a single operation. This not only reduces production time but also minimizes waste, making it a more sustainable option. As manufacturers strive to reduce their environmental impact, the efficiency of the swaged process becomes increasingly appealing.However, like any manufacturing technique, swaged processes come with their challenges. One of the primary concerns is the need for specialized equipment and tooling, which can represent a significant investment for companies. Additionally, the skill level required to operate swaged machinery effectively means that training and expertise are vital. Companies must ensure that their workforce is adequately trained to handle these advanced technologies to maximize the benefits of the swaged process.In conclusion, the swaged technique is a vital part of modern manufacturing, offering precision, strength, and efficiency. As industries continue to evolve and demand higher-quality components, the importance of understanding and implementing swaged processes will only grow. By embracing this technology, manufacturers can produce superior products that meet the rigorous demands of today’s marketplace, ultimately leading to innovation and advancement across various sectors.
在制造和工程的世界中,各种技术被用于将材料塑造成所需的形状和形式。其中一种技术被称为swaged,它指的是通过压缩力对金属进行成型的过程。这种方法在创建具有特定尺寸和性能的组件方面特别有用,使其成为航空航天到汽车等行业中的一种重要技术。swaged过程涉及使用工具对金属施加压力,导致其变形并采用模具的形状。这不仅增强了金属的机械性能,还确保最终产品符合严格的规格。使用swaged技术的优点是众多的。首先,这种方法允许对成品的尺寸进行精确控制。例如,在生产飞机零件时,工程师必须确保每个组件都按照精确的规格制造,以维持安全和性能标准。swaged过程通过在生产过程中允许细微调整来实现这一点,这在高风险应用中可能至关重要。此外,与传统的机械加工过程相比,swaged组件通常表现出更高的强度和耐用性。swaged成型过程中所涉及的压缩增强了材料的晶粒结构,从而生成能够承受更大应力和磨损的产品。这在组件面临极端条件(如高温或重负荷)的行业中尤其有利。swaged过程的另一个显著好处是其效率。与其他可能需要多个步骤或额外材料的成型方法不同,swaged生产通常可以在一次操作中完成。这不仅减少了生产时间,还最小化了浪费,使其成为一种更可持续的选择。随着制造商努力减少环境影响,swaged过程的效率变得越来越吸引人。然而,与任何制造技术一样,swaged过程也面临挑战。主要问题之一是对专业设备和工具的需求,这可能代表着公司的一项重大投资。此外,有效操作swaged机械所需的技能水平意味着培训和专业知识至关重要。企业必须确保其员工经过充分培训,以有效处理这些先进技术,从而最大限度地发挥swaged过程的优势。总之,swaged技术是现代制造的重要组成部分,提供了精确、强度和效率。随着各行业不断发展并对高质量组件的需求增加,理解和实施swaged过程的重要性只会增长。通过采用这项技术,制造商可以生产出满足当今市场严格要求的优质产品,最终推动各个领域的创新和进步。
