采用FSW與MIG工藝補(bǔ)焊6005A-T6鋁合金的接頭力學(xué)性能Mechanical properties of repairing welding joints of 6005A-T6 aluminum alloy prepared by FSW and MIG processes

針對(duì)6005A-T6鋁合金型材攪拌摩擦焊接頭缺陷補(bǔ)焊的應(yīng)用要求，研究攪拌摩擦焊(FSW)補(bǔ)焊和熔化極氣體保護(hù)焊(MIG)補(bǔ)焊工藝，對(duì)兩種補(bǔ)焊接頭的力學(xué)性能進(jìn)行分析。結(jié)果表明：FSW補(bǔ)焊與MIG補(bǔ)焊方法均可以消除FSW接頭缺陷，兩種補(bǔ)焊接頭的強(qiáng)度均達(dá)到無缺陷的FSW接頭強(qiáng)度的88%以上，F(xiàn)SW補(bǔ)焊接頭的平均抗拉強(qiáng)度為216.72 MPa，平均屈服強(qiáng)度為145.5 MPa，略高于MIG補(bǔ)焊接頭的平均抗拉強(qiáng)度(206.2 MPa)和平均屈服強(qiáng)度(134.07 MPa)。兩種補(bǔ)焊的接頭硬度最低值都出現(xiàn)在熱影響區(qū)，最高值都出現(xiàn)在母材區(qū)。

For the repairing welding demands of friction stir welding defects of 6005A-T6 aluminum alloy, the repairing welding processes of friction stir welding (FSW) and metal inert-gas welding (MIG) were investigated. The mechanical properties of the repairing welding joints prepared by FSW and MIG processes were analyzed. The results show that both the repairing welding methods can eliminate the FSW defects and the strength of the repairing welding joints can reach above 88% of the strength of defect-free FSW joints. The tensile strength and the yield strength of the FSW repairing welding joints are 216.72 and 145.5 MPa, which are slightly higher than those of MIG repairing welding joints (206.2 and 134.07 MPa), respectively. The lowest microhardnesses of both the FSW and MIG repairing welding joints appear in the heat-affected zone, and the highest microhardnesses appear in the base metal zone.

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