Wire-feed laser additive manufacturing of dissimilar metals via dual molten pool interface interlocking mechanism

He, Y. and Zhang, X.H. and Zhao, Z. and Xu, S.H. and Xia, M. and Zhang, C. and Hu, Y.W. (2023) Wire-feed laser additive manufacturing of dissimilar metals via dual molten pool interface interlocking mechanism. Science China Technological Sciences, 66 (4). pp. 976-986.

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Abstract

Intermetallic compounds produced in laser additive manufacturing are the main factors restricting the joint performance of dissimilar metals. To solve this problem, a dual molten pool interface interlocking mechanism was proposed in this study. Based on a dual molten pool interface interlocking mechanism, the dissimilar metals, aluminum alloy and stainless steel, were produced as single-layer and multilayer samples, using the wire-feed laser additive manufacturing directed energy deposition technology. The preferred parameters for the dual molten pool interface interlocking mechanism process of the dissimilar metals, aluminum alloy and stainless steel, were obtained. The matching relationship between the interface connection of dissimilar metals and the process parameters was established. The results demonstrated excellent mechanical occlusion at the connection interface and no apparent intermetallic compound layer. Good feature size and high microhardness were observed under a laser power of 660 W, a wire feeding speed of 55 mm/s, and a platform moving speed of 10 mm/s. Molecular dynamics simulations demonstrated a faster rate of aluminum diffusion in the aluminum alloy substrate to stainless steel under the action of the initial contact force than without the initial contact force. Thus, the dual molten pool interface interlocking mechanism can effectively reduce the intermetallic compound layer when dissimilar metals are connected in the aerospace field.

Item Type:
Journal Article
Journal or Publication Title:
Science China Technological Sciences
ID Code:
193274
Deposited By:
Deposited On:
30 May 2023 13:10
Refereed?:
Yes
Published?:
Published
Last Modified:
11 Aug 2024 00:39