Van Thao Le, Dinh Si Mai, Van Thuc Dang, Duc Manh Dinh, Thi Hong Cao, Van Anh Nguyen
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引用次数: 2
Abstract
This paper aims to investigate the fabrication of high strength low alloy (HSLA) steels by wire and arc-based directed energy deposition (WADED). Firstly, the relationship between the process variables (including the travel speed-V, the current-C, and the voltage-U) and the geometrical characteristics of weld beads (including the bead height (BH), bead width (BW), and melting pool length (MPL)) was investigated. Secondly, the optimal process variables were identified using the desirability approach. The results indicate that voltage-U has the highest impact on BW and MPL, meanwhile the travel speed-V is the most impacting factor on BH. The optimal variables for the WADED process of HSAL steels are V = 0.3 m/min, C = 160 A, and U = 19 V. The component fabricated with the optimal variables is fully dense without spatters and defects, confirming the efficiency of the WADED process for HSLA steels.
本文旨在研究线基和电弧基定向能沉积(WADED)制备高强度低合金(HSLA)钢。首先,研究了工艺变量(包括行程速度v、电流c和电压u)与焊珠几何特性(包括焊珠高度BH、焊珠宽度BW和熔池长度MPL)之间的关系。其次,采用可取性法确定最优工艺变量;结果表明,电压- u对BW和MPL的影响最大,而行进速度- v对BW的影响最大。HSAL钢WADED工艺的最佳变量为:V = 0.3 m/min, C = 160 A, U = 19 V。采用最优变量制备的构件密度高,无飞溅和缺陷,证实了WADED工艺对高强度钢的效率。
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