Comparative Study Between Solid State Welding and Radiant Energy Welding Processes for Joining Metallic Glassy Ribbons

Q4 Engineering

Annals of Dunarea de Jos University of Galati, Fascicle XII, Welding Equipment and Technology Pub Date : 2021-12-31 DOI:10.35219/awet.2021.09

P. Hididiş, M. Nicolaescu, C. Codrean, D. Buzdugan, I. Simiti, V. Serban

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Abstract

Amorphous alloys have emerged as an important class of advanced materials that own a combination of properties, such as mechanical strength, hardness, high elasticity modulus and a very good corrosion resistance. Since the number of amorphous structures alloys increased in the last decades, ways of joining such materials were studied in order to produce complex structures or increase their size. Thus, if this kind of complex products are obtained, it will diversify their applicability in multiple and various domains. For this research two ways of joining amorphous ribbons has been studied: solid state welding and radiant energy welding. For the radiant energy welding process, it was selected electron beam welding (EBW) method and for the solid-state welding process, ultrasonic welding (UW) method was chosen. Seeing that these methods have found applicability in industries, a comparative study was done in order to see which one offers the best outcome. Recently, in the last years, such products were embedded in a polymer matrix, creating thus, composite materials that have improved mechanical properties. This raised curiosity for major industries, such as aero-space, medical and automotive. Amorphous ribbons from Ni-Fe-Cr-Si-B and Al-Ni-Nd-Co alloy families were welded by EBW method, and Cu-Zr-Al amorphous ribbons were welded by the UW method. Microstructure characterization has been performed by SEM, EDX, XRD and DSC analyses.

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金属玻璃带的固态焊接与辐射能焊接工艺比较研究

非晶合金已成为一类重要的先进材料，它具有机械强度、硬度、高弹性模量和良好的耐腐蚀性等综合性能。由于近几十年来非晶结构合金的数量不断增加，人们研究了连接这些材料的方法，以产生复杂的结构或增加它们的尺寸。因此，如果获得这种复杂产品，将使其在多个不同领域的适用性多样化。本研究研究了两种连接非晶带的方法:固态焊接和辐射能焊接。辐射能焊接工艺选择电子束焊接(EBW)方法，固态焊接工艺选择超声波焊接(UW)方法。鉴于这些方法在各行业中都有适用性，我们进行了比较研究，以确定哪一种方法的效果最好。最近，在过去的几年里，这种产品被嵌入到聚合物基体中，从而创造了具有改善机械性能的复合材料。这引起了人们对航空航天、医疗和汽车等主要行业的好奇。采用EBW法焊接Ni-Fe-Cr-Si-B和Al-Ni-Nd-Co合金系的非晶态带，采用UW法焊接Cu-Zr-Al非晶态带。通过SEM, EDX, XRD和DSC分析对其微观结构进行了表征。

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