wiredraw
简明释义
vt. 拉长;抽成铁丝
第 三 人 称 单 数 w i r e d r a w s
现 在 分 词 w i r e d r a w i n g
过 去 式 w i r e d r e w
过 去 分 词 w i r e d r a w n
英英释义
To draw out into a wire, especially by pulling through a die. | 通过模具拉伸成线,尤其是指金属线的拉伸。 |
将某物均匀地拉伸或延展成细长的形状。 |
单词用法
拉制金属 | |
拉丝过程 | |
拉制电线 | |
拉丝方法 | |
拉丝机 | |
拉丝技术 |
同义词
| 拉伸 | The artist decided to draw the wire into a more intricate shape. | 艺术家决定将电线拉成更复杂的形状。 | |
| 延长 | They used a machine to elongate the metal wire for their project. | 他们使用机器将金属线延长以用于他们的项目。 | |
| 拉伸 | 她必须小心地拉伸电线,以免将其弄断。 |
反义词
| 粗糙的 | The fabric has a coarse texture, making it suitable for heavy-duty use. | 这种面料质地粗糙,适合重型使用。 | |
| 厚的 | He prefers thick ropes for climbing because they provide better grip. | 他更喜欢粗绳子攀爬,因为这样能提供更好的抓握力。 |
例句
1.The engineer explained that they need to wiredraw 拉丝 the material to meet the project specifications.
工程师解释说,他们需要wiredraw 拉丝材料以满足项目规格。
2.To create a delicate wire sculpture, she had to wiredraw 拉丝 the metal into thin strands.
为了制作一个精致的金属雕塑,她不得不wiredraw 拉丝金属成细丝。
3.The artist decided to wiredraw 细致描绘 the intricate patterns of the fabric.
这位艺术家决定wiredraw 细致描绘织物的复杂图案。
4.He learned how to wiredraw 拉丝 different metals for his jewelry-making hobby.
他学习了如何wiredraw 拉丝不同的金属来制作首饰。
5.In the manufacturing process, they often wiredraw 拉丝 copper to produce electrical wires.
在制造过程中,他们经常wiredraw 拉丝铜以生产电线。
作文
In the world of manufacturing and engineering, the term wiredraw refers to a process that involves reducing the diameter of a wire by pulling it through a series of dies. This technique is essential for creating wires of various sizes and is widely used in industries ranging from electronics to construction. The wiredraw process not only alters the size of the wire but also enhances its mechanical properties, making it stronger and more flexible. Understanding how wiredraw works is crucial for anyone involved in metalworking or wire production.The wiredraw process begins with a raw metal rod, usually made of materials like copper or aluminum, which is heated to improve its malleability. Once the rod is prepared, it is inserted into a machine equipped with multiple drawing dies. Each die has a specific opening that is smaller than the previous one, allowing the wire to be gradually reduced in size as it passes through. This sequential reduction helps maintain the integrity of the material, preventing it from breaking or becoming too brittle during the process.One of the significant advantages of wiredraw is the ability to produce long lengths of wire with a consistent diameter. This uniformity is vital for applications where precision is key, such as in electrical wiring or in the production of fine jewelry. Additionally, the wiredraw process can be adjusted to create various wire shapes, including round, square, or flat profiles, depending on the end-use requirements.Moreover, the wiredraw process can also influence the surface finish of the wire. Depending on the type of die used and the speed of drawing, the wire can have a smooth or textured surface. This characteristic can be important for aesthetic purposes in decorative applications or for functional reasons in industrial uses.However, the wiredraw process is not without its challenges. One of the primary concerns is the heat generated during the drawing process. Excessive heat can lead to oxidation of the wire, which can compromise its quality and performance. To mitigate this issue, manufacturers often use lubricants during the drawing process to reduce friction and heat buildup. These lubricants help ensure a smoother drawing operation and improve the overall quality of the finished wire.In conclusion, the wiredraw process is a fundamental technique in the wire manufacturing industry. Its ability to produce high-quality wires with precise dimensions makes it indispensable for various applications. Whether in electronics, construction, or jewelry making, understanding the intricacies of wiredraw can significantly impact the quality and performance of the final product. As technology advances, we can expect further innovations in the wiredraw process, leading to even better materials and products in the future.
在制造和工程的世界中,术语wiredraw指的是一种通过将金属线拉过一系列模具来减小其直径的过程。这种技术对于制造各种尺寸的电线至关重要,广泛应用于从电子产品到建筑等多个行业。wiredraw过程不仅改变了电线的尺寸,还增强了其机械性能,使其更强大、更灵活。理解wiredraw的工作原理对于任何参与金属加工或电线生产的人来说都是至关重要的。wiredraw过程始于一根原材料金属杆,通常由铜或铝等材料制成,首先加热以提高其可塑性。一旦杆准备好,就会被插入配备有多个拉拔模具的机器中。每个模具的开口都比前一个小,这样电线在通过时可以逐渐减小尺寸。这种顺序减少有助于保持材料的完整性,防止其在过程中断裂或变得过脆。wiredraw的一个显著优点是能够生产具有一致直径的长长度电线。这种均匀性对于电气线路或精美珠宝生产等对精度要求很高的应用至关重要。此外,wiredraw过程还可以调整以创建各种电线形状,包括圆形、方形或扁平型,具体取决于最终用途的要求。此外,wiredraw过程也会影响电线的表面处理。根据使用的模具类型和拉拔速度,电线可以具有光滑或纹理表面。这一特征对于装饰应用中的美观目的或工业用途中的功能原因可能非常重要。然而,wiredraw过程并非没有挑战。主要问题之一是拉拔过程中产生的热量。过多的热量可能导致电线氧化,从而影响其质量和性能。为了缓解这个问题,制造商通常在拉拔过程中使用润滑剂,以减少摩擦和热量积聚。这些润滑剂有助于确保更平滑的拉拔操作,并改善成品电线的整体质量。总之,wiredraw过程是电线制造行业的一项基础技术。其生产高质量、精准尺寸电线的能力使其在各种应用中不可或缺。无论是在电子、建筑还是珠宝制作中,理解wiredraw的复杂性都能显著影响最终产品的质量和性能。随着技术的进步,我们可以期待wiredraw过程中的进一步创新,从而在未来带来更好的材料和产品。
