wiredrawing

简明释义

英[ˈwaɪəˌdrɔːɪŋ]美[ˈwaɪərˌdrɔɪŋ]

n. [机] 拉丝，拖长；制造铁丝

英英释义

单词用法

同义词

反义词

例句

1.Productivity and technology ability and product quality of mirror aluminum and wiredrawing aluminum is in the domestic leading position.

镜面铝板和拉丝铝卷的生产技术能力及产品质量居国内领先地位。

2.Production process: after casting, extrusion, tinting, electrophoresis, powder coating, fluorine carbon spraying, mould, polishing, wood, metal wiredrawing, such extrusion.

生产工艺：经过熔铸、挤压、氧化着色、电泳、粉末喷涂、氟碳喷涂、模具、抛光、木纹、拉丝、钣金等挤压而成。

3.The equipment has wiredrawing machine, rope-making machine, knitting machine, etc.

设备有拉丝机、制绳机、编织机等。

4.Since our inception, has formed a deep processing, surface polished and wiredrawing processing, oxidized processing, one-stop assembly production system.

本厂自成立以来，已形成了深加工，表面抛光拉丝，氧化，装配等一条龙生产体系。

5.Applies to the copper aluminum wire high speed wiredrawing.

应用于铜铝线高速拉丝。

6.Production process: after casting, extrusion, tinting, electrophoresis, powder coating, fluorine carbon spraying, mould, polishing, wood, metal wiredrawing, such extrusion.

生产工艺：经过熔铸、挤压、氧化着色、电泳、粉末喷涂、氟碳喷涂、模具、抛光、木纹、拉丝、钣金等挤压而成。

7.Use: This aircraft is suitable for the middle and small scale bread flour machine factory to the pulverizer roll polish, the wiredrawing special purpose equipment.

用途：本机适用于中小型面粉机厂对磨粉机磨辊磨光，拉丝的专用设备。

8.Engineers are constantly looking for ways to improve the wiredrawing process.

工程师们不断寻求改善拉丝过程的方法。

9.The process of wiredrawing is essential in manufacturing fine wires.

在制造细线的过程中，拉丝工艺是至关重要的。

10.During wiredrawing, the metal is pulled through a die to reduce its diameter.

在拉丝过程中，金属被拉过模具以减小其直径。

11.The quality of the final product relies heavily on the wiredrawing technique used.

最终产品的质量在很大程度上依赖于所使用的拉丝技术。

12.Innovations in wiredrawing have led to stronger and more flexible wires.

在拉丝技术方面的创新使得电线更加坚固和灵活。

作文

In the world of manufacturing and engineering, various processes are employed to create products that meet specific requirements. One such process is wiredrawing, which plays a crucial role in the production of metal wires. The term wiredrawing refers to the method of reducing the diameter of a wire by pulling it through a series of dies. This technique not only shapes the wire but also enhances its mechanical properties, making it stronger and more durable. Understanding the intricacies of wiredrawing is essential for those involved in industries that rely on high-quality wire products.The process begins with a thicker wire rod, which is usually made of materials like copper, aluminum, or steel. Once the rod is prepared, it is fed into the drawing machine. The first step in wiredrawing involves heating the wire to make it more malleable. This heating process is critical as it allows the wire to be stretched without breaking. After heating, the wire is pulled through a die, which is a specially shaped tool that determines the final diameter of the wire. As the wire passes through the die, it experiences tensile stress, which reduces its diameter and increases its length.One of the significant advantages of wiredrawing is that it can produce wires with very precise dimensions. This precision is vital for applications where the wire must fit perfectly into connectors or other components. Moreover, wiredrawing can also improve the wire's surface finish, resulting in a smoother product that is less prone to corrosion and wear.Another important aspect of wiredrawing is its ability to enhance the mechanical properties of the wire. During the drawing process, the wire undergoes a phenomenon known as work hardening. This process increases the strength of the wire, making it suitable for various applications, including construction, electronics, and automotive industries. For example, the wires used in electrical cables must have high tensile strength to withstand the stresses they encounter during installation and use.However, wiredrawing is not without its challenges. The process requires careful control of various parameters, such as temperature, speed, and die design. If any of these factors are not optimized, it can lead to defects in the wire, such as uneven thickness, surface imperfections, or even breakage during drawing. Therefore, manufacturers invest in advanced technologies and equipment to ensure that the wiredrawing process is efficient and produces high-quality wires.In conclusion, wiredrawing is a fundamental process in the wire manufacturing industry that significantly impacts the quality and performance of wire products. By understanding the principles and techniques involved in wiredrawing, engineers and manufacturers can create wires that meet the stringent demands of modern applications. As technology continues to advance, the methods and equipment used in wiredrawing will likely evolve, further enhancing the capabilities of this essential manufacturing process.

在制造和工程的世界中，采用各种工艺来制造符合特定要求的产品。其中一个重要的工艺是wiredrawing，它在金属线材的生产中发挥着至关重要的作用。术语wiredrawing指的是通过将金属线拉过一系列模具来减少线材直径的方法。这种技术不仅塑造了线材，还提高了其机械性能，使其更强大、更耐用。理解wiredrawing的复杂性对于那些参与依赖高质量线材产品的行业的人来说至关重要。该过程始于较厚的线材棒，通常由铜、铝或钢等材料制成。一旦准备好线材棒，它就会被送入拉丝机。wiredrawing的第一步涉及加热线材，以使其更具可塑性。这个加热过程至关重要，因为它允许线材在不破裂的情况下被拉伸。加热后，线材被拉过一个模具，这是一种特殊形状的工具，决定了线材的最终直径。当线材通过模具时，它会经历拉伸应力，从而减少其直径并增加其长度。wiredrawing的一个显著优势是能够生产具有非常精确尺寸的线材。这种精度对需要完美适配连接器或其他组件的应用至关重要。此外，wiredrawing还可以改善线材的表面光洁度，产生更光滑的产品，降低腐蚀和磨损的风险。wiredrawing的另一个重要方面是其增强线材机械性能的能力。在拉制过程中，线材经历了一种称为加工硬化的现象。这个过程增加了线材的强度，使其适用于建筑、电子和汽车等各种应用。例如，用于电缆的线材必须具有高拉伸强度，以承受安装和使用过程中遇到的压力。然而，wiredrawing并非没有挑战。该过程需要对温度、速度和模具设计等各种参数进行仔细控制。如果这些因素中的任何一个没有得到优化，可能会导致线材缺陷，如厚度不均匀、表面缺陷，甚至在拉制过程中断裂。因此，制造商在先进技术和设备上进行投资，以确保wiredrawing过程高效并生产出高质量的线材。总之，wiredrawing是线材制造行业的一项基本工艺，对线材产品的质量和性能有着重大影响。通过理解wiredrawing中涉及的原理和技术，工程师和制造商可以创造出满足现代应用严格要求的线材。随着技术的不断进步，wiredrawing中使用的方法和设备可能会不断演变，进一步提升这一关键制造工艺的能力。