Joining Techniques Like Welding in Lightweight Material Structures

Handbook of Research on Advancements in the Processing, Characterization, and Application of Lightweight Materials Pub Date : 1900-01-01 DOI:10.4018/978-1-7998-7864-3.ch006

Aytekin Ulutaş

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Abstract

In order to take more stringent measures in fuel economy and achieve the determined performance targets, the automotive industry needs to reduce the weight of the vehicles it produces. For this reason, all automobile manufacturers have determined their own strategies. Some manufacturers use lighter aluminum, magnesium, and composite components in their cars. In this study, the joining techniques of lightweight materials such as welding and the processes of their industrial use have been examined. There is currently no single technology that can combine all metallic panels in a car body structure. However, it is known that various joining technologies are used together. With the potential to combine certain combinations of steel and aluminum, manufacturers and scientists continue to work to identify technologies with the highest potential for lightweight joining and put them into use in high-volume automobile production. Therefore, it is important to examine the weldability of light materials such as magnesium, titanium, and aluminum.

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轻量化材料结构中的焊接等连接技术

为了在燃油经济性方面采取更严格的措施，实现既定的性能目标，汽车行业需要减轻其生产的车辆的重量。因此，所有的汽车制造商都确定了自己的战略。一些制造商在他们的汽车中使用更轻的铝、镁和复合材料部件。在本研究中，轻型材料的连接技术，如焊接及其工业应用的过程进行了研究。目前还没有一种技术可以将所有金属面板组合在一个车身结构中。然而，众所周知，各种连接技术是一起使用的。由于钢和铝的某些组合具有结合的潜力，制造商和科学家们继续努力寻找具有最大潜力的轻量化连接技术，并将其用于大批量汽车生产。因此，检查轻材料如镁、钛和铝的可焊性是很重要的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Handbook of Research on Advancements in the Processing, Characterization, and Application of Lightweight Materials

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