weldless

简明释义

英[ˈwɛldləs]美[ˈwɛldləs]

adj. 无焊缝的

英英释义

单词用法

同义词

反义词

例句

1.Please unload a part of the weldless steel tubes in Hatch No. 3 hatchway for the present so as to the stevedores can use the opening to fill in the lower hold.

请把三舱舱口位的无焊缝钢管暂时卸下一部分，以便工人们利用空位来装底舱。

2.Please unload a part of the weldless steel tubes in Hatch No. 3 hatchway for the present so as to the stevedores can use the opening to fill in the lower hold.

请把三舱舱口位的无焊缝钢管暂时卸下一部分，以便工人们利用空位来装底舱。

3.The new bike frame is made from a lightweight, weldless 无焊接的 design that enhances durability.

新的自行车框架采用轻量级的weldless 无焊接的设计，增强了耐用性。

4.Engineers are excited about the potential of weldless 无焊接的 materials in construction.

工程师们对建筑中使用weldless 无焊接的材料的潜力感到兴奋。

5.Our latest product features a weldless 无焊接的 joint technology that reduces manufacturing costs.

我们最新的产品采用weldless 无焊接的连接技术，降低了制造成本。

6.The weldless 无焊接的 connectors provide a strong bond without the need for heat.

这些weldless 无焊接的连接器提供了强大的结合，而无需加热。

7.The weldless 无焊接的 piping system is easier to install and maintain than traditional systems.

这种weldless 无焊接的管道系统比传统系统更容易安装和维护。

作文

In the field of engineering and manufacturing, the term weldless refers to a method of joining materials without the use of traditional welding techniques. This innovative approach has gained significant attention due to its numerous advantages over conventional welding. One of the primary benefits of weldless technology is that it reduces the risk of structural weaknesses that can arise from welding processes. When metals are welded, they undergo changes in their molecular structure, which can lead to vulnerabilities. In contrast, weldless methods maintain the integrity of the materials, ensuring a more reliable and durable connection.Moreover, weldless technologies often involve the use of advanced adhesives or mechanical fastening systems that provide strong bonds without the heat and stress associated with welding. This not only enhances the strength of the joint but also allows for greater flexibility in design and application. For instance, in industries such as aerospace and automotive, where weight reduction is crucial, weldless solutions can significantly contribute to lighter structures without compromising safety or performance.Another advantage of weldless techniques is the reduction of production time and costs. Traditional welding requires extensive preparation, execution, and post-weld treatment, which can be time-consuming and labor-intensive. On the other hand, weldless methods streamline the assembly process, allowing manufacturers to increase efficiency and reduce overhead expenses. This is particularly beneficial in high-volume production environments, where speed and cost-effectiveness are essential.Furthermore, weldless connections are often more environmentally friendly. The welding process can release harmful fumes and pollutants, whereas many weldless methods utilize adhesives that are less harmful to the environment. As industries continue to prioritize sustainability, the adoption of weldless technologies aligns with the goal of reducing the ecological footprint of manufacturing processes.Despite these advantages, it is important to note that weldless methods may not be suitable for all applications. Certain high-stress environments still require traditional welding to ensure maximum strength and durability. Therefore, engineers and designers must carefully evaluate the specific requirements of each project to determine whether weldless solutions are appropriate.In conclusion, the emergence of weldless technology represents a significant advancement in the way materials are joined in various industries. By providing stronger, more reliable connections while reducing costs and environmental impact, weldless methods are paving the way for a new era in manufacturing. As research and development continue to evolve, we can expect to see even more innovative applications of weldless technology in the future, further transforming the landscape of engineering and production.

在工程和制造领域，术语weldless指的是一种不使用传统焊接技术的材料连接方法。这种创新的方法因其相对于传统焊接的众多优点而受到广泛关注。weldless技术的主要好处之一是降低了焊接过程中可能出现的结构弱点风险。当金属被焊接时，它们的分子结构会发生变化，这可能导致脆弱性。相比之下，weldless方法保持了材料的完整性，确保了更可靠和耐用的连接。此外，weldless技术通常涉及使用先进的粘合剂或机械固定系统，这些系统提供强大的结合力，而不需要焊接过程中的热量和应力。这不仅增强了接头的强度，还允许在设计和应用中有更大的灵活性。例如，在航空航天和汽车等行业，重量减少至关重要，weldless解决方案可以显著贡献于更轻的结构，而不会妥协安全性或性能。weldless技术的另一个优势是降低了生产时间和成本。传统焊接需要大量的准备、执行和焊后处理，这可能耗时且劳动密集。而另一方面，weldless方法简化了组装过程，使制造商能够提高效率并降低间接费用。这在高产量生产环境中特别有利，其中速度和成本效益至关重要。此外，weldless连接通常更环保。焊接过程可能释放有害烟雾和污染物，而许多weldless方法利用的粘合剂对环境的危害较小。随着各行业继续优先考虑可持续性，采用weldless技术与减少制造过程生态足迹的目标一致。尽管有这些优势，但需要注意的是，weldless方法可能并不适用于所有应用。某些高应力环境仍然需要传统焊接以确保最大强度和耐用性。因此，工程师和设计师必须仔细评估每个项目的具体要求，以确定是否适合采用weldless解决方案。总之，weldless技术的出现代表了各种行业中材料连接方式的重要进步。通过提供更强、更可靠的连接，同时降低成本和环境影响，weldless方法正在为制造业的新纪元铺平道路。随着研究和开发的不断演进，我们可以期待在未来看到更多weldless技术的创新应用，进一步改变工程和生产的格局。