Study on the thermal assistance friction stir lap welding of aluminum alloy and <scp>CFRTP</scp>

Sun, Yibo; Zhang, Yuan; Wei, Xiao; Long, Haiwei; Sun, Yang; Yang, Xinhua

doi:10.1002/pc.28446

Polymer Composites

2024

DOI: 10.1002/pc.28446

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Study on the thermal assistance friction stir lap welding of aluminum alloy and CFRTP

Yibo Sun,

Yuan Zhang,

Xiao Wei

et al.

Abstract: With the rapid development of transportation and electronic equipment industries, lightweight requires reliable joining technology for metal/polymer. Preheating before welding is a potential way to improve the tensile properties of the joint and reduce the risk of defect formation. In this study, thermal assistance friction stir lap welding (TA‐FSLW) in joining 6061‐T6 aluminum alloy and carbon‐fiber‐reinforced thermoplastic (CFRTP) is investigated. The welds are evaluated by OM image segmentation and statisti… Show more

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Multi‐objective stiffness and mass optimization of bio‐inspired hierarchical grid‐honeycomb sandwich structures with cutouts considering buckling constraints

Lv,

Shi,

Chen

et al. 2024

Polymer Composites

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The engineering structures with cutouts should consider both buckling and stiffness. Inspired by the multi‐level leaf veins, in this paper, the skeleton of the grid‐honeycomb sandwich structure was designed in the hierarchical form, and combined with the cutout characteristics of the side walls of the railway vehicle body, the multi‐objective stiffness and mass optimization of the skeleton layout under buckling constraints was achieved. The cutout honeycomb sandwich structure was designed with orthogonal grids in the stiffness design area and curved grids based on the quadratic polynomial in the buckling design area. The optimization model also included the linear angle hierarchical grid, the constant angle hierarchical grid, and the single‐level orthogonal grid. The multi‐objective optimization framework based on the Radial Basis Function (RBF) surrogate model and the Non‐dominated Sorting Genetic Algorithm (NSGA‐II) was developed. The optimization results indicated that the hierarchical grid provided the more extensive design space. The optimal solution of the quadratic polynomial hierarchical grid had the highest stiffness and stiffness per unit mass compared to the rest of the grid layouts, which were 23.28% and 30.47% higher than the single‐level orthogonal grid, respectively. Finally, the multi‐order eigenvalue buckling was analyzed based on the optimal structure.Highlights Layout of hierarchical grids proposed inspired by multi‐level leaf veins. Orthogonal grids ensure stiffness and curved grids inhibit buckling at cutouts. Apply the hierarchical grids as skeletons to honeycomb sandwich structures. Stiffness and mass optimization subject to buckling constraints is performed.

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Multi‐objective stiffness and mass optimization of bio‐inspired hierarchical grid‐honeycomb sandwich structures with cutouts considering buckling constraints

Lv,

Shi,

Chen

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

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Study on the thermal assistance friction stir lap welding of aluminum alloy and CFRTP

Cited by 1 publication

References 38 publications

Multi‐objective stiffness and mass optimization of bio‐inspired hierarchical grid‐honeycomb sandwich structures with cutouts considering buckling constraints

Multi‐objective stiffness and mass optimization of bio‐inspired hierarchical grid‐honeycomb sandwich structures with cutouts considering buckling constraints

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