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首页> 外文期刊>Journal of Materials Research and Technology >Strength improvement and interface characteristic of TC4 Ti alloy and 304 stainless steel joint based on a hybrid connection mechanism
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Strength improvement and interface characteristic of TC4 Ti alloy and 304 stainless steel joint based on a hybrid connection mechanism

机译:基于混合连接机制的TC4 Ti合金和304不锈钢接头的强度改进和界面特性

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Laser welding of TC4 Titanium (Ti) alloy to 304 stainless steel (SS) has been applied using Ag73-Cu16-Zn11 alloy as filler metal. A new welding process for SS-Ti alloy joint was introduced on the basis of the controlling the formation of Ti-Fe intermetallics in the joint. One pass welding involving creation of a joint with one fusion weld and one diffusion weld separated by remaining unmelted SS. When laser beam on the SS side was 1.5?mm, SS would not be completely melted in joint. Through heat conduction of unmelted SS, the atomic diffusion occurred at the SS-Ti alloy interface. A diffusion weld was formed at the SS-Ti alloy interface with the main microstructure of γ-Fe?+?Fe3Zn2, AgZn3?+?Cu5Zn8and α-Ti?+?Ti2Cu. The joint fractured at the diffusion weld with the maximum tensile strength of 129?MPa.
机译:使用Ag73-Cu16-Zn11合金作为填充金属,应用TC4钛(Ti)合金至304个不锈钢(SS)的激光焊接。基于控制联合中的Ti-Fe金属间金属间金属间金属间质,引入了SS-Ti合金接头的新焊接方法。一种涉及使用一个融合焊缝的接头的一条焊接焊接,并通过剩余的未熔化的SS分离一个扩散焊缝。当SS侧的激光束为1.5Ωmm时,SS不会完全在关节中熔化。通过未熔化的SS的热传导,在SS-TI合金界面发生原子扩散。在SS-Ti合金界面处形成扩散焊缝,其具有γ-Fe的主要微观结构γ-Fe?+αF3ZN2,AgZN3?+α-Tiα-Ti?+?Ti2Cu。关节在扩散焊缝处破裂,最大拉伸强度为129Ωmpa。

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