Integrated Taguchi-PCA-GRA based multi objective optimization of tube projection and radial clearance for friction stir welded heat exchanger tube-to-tube sheet joints

Q1 Engineering
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Abstract

Leak proof tube-to-tube sheet joints are mandatory for the optimal operation and longevity of the shell and tube heat exchanger. Tube-to-tube sheet joints play a crucial role as fluid barriers, ensuring effective separation between the tube and shell side fluids within shell and tube heat exchangers. Non-conventional friction stir welding, known for imparting less residual stresses, is not commercially used for the fabrication of tube-to-tube sheet joints due to complex joint configuration and geometrical limitations. An extensive study on friction stir welding considering the geometrical parameters of tube-to-tube sheet arrangement is highly demanded. This research examined the mutual influence of radial clearance ranging from 0 mm to 0.5 mm and tube projection lying from 1 mm to 2 mm in friction stir welding of tube to tube sheet configuration on the pull-out strength, extension and, hardness at the stirring and fusion zones. Optimum radial clearance and tube projection for achieving high mechanical weld properties was estimated using multi-objective integrated Taguchi-PCA-GRA optimization. The result proves that the friction stir welded joint is capable of achieving joint strength close to the tungsten inert gas welded joint. The optimum parameters are 2 mm for tube projection and 0 mm for radial clearance to achieve maximum strength and weld penetration, while minimizing hardness at both stir zone and fusion zone. The findings of this research proved the adaptability of friction stir welding for the fabrication of tube-to-tube sheet joints with the right choice of tube projection and radial clearance.

基于 Taguchi-PCA-GRA 的管子投影和径向间隙多目标集成优化技术,用于搅拌摩擦焊接热交换器管对管板接头
要使管壳式热交换器达到最佳运行状态并延长其使用寿命,必须采用防漏的管对管板式接头。管对管板式接头作为流体屏障起着至关重要的作用,可确保管壳式热交换器内管侧流体与壳侧流体之间的有效分离。非常规的搅拌摩擦焊以残余应力较小而著称,但由于复杂的接头结构和几何形状的限制,目前还不能用于制造管对管板接头。考虑到管对管板材布置的几何参数,需要对搅拌摩擦焊进行广泛研究。这项研究考察了在管对管板材结构的搅拌摩擦焊接中,0 毫米到 0.5 毫米的径向间隙和 1 毫米到 2 毫米的管子凸起对搅拌区和熔合区的拉拔强度、延伸率和硬度的相互影响。采用多目标综合 Taguchi-PCA-GRA 优化方法估算了获得高机械焊接性能的最佳径向间隙和管子凸出度。结果证明,搅拌摩擦焊接接头的接头强度接近钨极惰性气体焊接接头。最佳参数为管子凸出部分为 2 毫米,径向间隙为 0 毫米,以获得最大强度和焊透,同时使搅拌区和熔合区的硬度最小。这项研究结果证明,在正确选择管子凸出部分和径向间隙的情况下,搅拌摩擦焊适用于制造管子与管子之间的板材接头。
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来源期刊
International Journal of Lightweight Materials and Manufacture
International Journal of Lightweight Materials and Manufacture Engineering-Industrial and Manufacturing Engineering
CiteScore
9.90
自引率
0.00%
发文量
52
审稿时长
48 days
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