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张亚,戴忠晨,李东风,等.6082铝合金中厚板高频脉冲MIG对接焊工艺及接头的残余应力[J].电焊机,2023,53(12):76-80.
ZHANG Ya, DAI Zhongchen, LI Dongfeng, et al.Welding Procedure & Residual Stress of 6082 6082-T6 Aluminum Alloy Medium Plate Butt Welded Joint by High-frequency Pulse MIG Welding Process[J].Electric Welding Machine, 2023, 53(12): 76-80.
采用高频脉冲MIG焊和常规脉冲MIG焊进行了6082-T6铝合金8 mm厚板的对接焊工艺试验(焊接接头条件:焊接间隙1 mm,钝边为0.5 mm、坡口角度分别为50°和60°),对比分析了焊缝成形规律及焊后焊趾处的残余应力值。研究结果表明:两种焊接方法的焊缝成形质量良好,与常规脉冲MIG焊相比,高频脉冲MIG焊根部熔深较大,坡口角度为50°时,在相同的热输入(10.7 kJ/cm)条件下,根部熔宽增加约20%,坡口角度60°时,根部熔宽增加约16%;与常规脉冲MIG焊相比,高频脉冲MIG焊的气孔敏感性较小,焊接残余应力较小。坡口角度为60°时,横向残余应力(,σ,y,)降低约为18.5%,纵向残余应力(,σ,x,)下降约为8.3%;坡口角度为50°,横向残余应力(,σ,y,)降低约为18%,纵向残余应力(,σ,x,)下降约为7%;坡口角度由60°减小为50°,高频脉冲焊焊趾处的残余应力下降约6%。
In this paper,welding procerure test of 6082 aluminum alloy medium plate butt joint were done using high-frequency pulse MIG welding and conventional pulse MIG welding processes with a 1 mm gap, plate thickness 8 mm, and a groove angle of 50° and 60° respectively; The macroscopic morphology of welded joints(welding appearance)and the residual stress at welding toe after welding were studied. The experimental results showed that welding appearance were better for two welding processes, compared with conventional pulse MIG welding process,high-frequency pulse MIG welding process possessed deeper penetration,wider fusion width,lower porosity sensitivity and welding residual stress. Compared with conventional pulse MIG welding process,when groove angle was 50°,at the same welding heat imput(10.7 kJ/cm),root fusion width increased about 20% by high-frequency pulse MIG welding process,about 16% when 60° groove angle.Transverse residual stress(,σ,y,) at welding toe decreased about 18.5% when groove angle was 60° by high-frequency pulse MIG welding process,about 8.5% for longitudinal residual stress(,σ,x,).When groove angle was 50°,transverse residual stress(,σ,y,) at welding toe decreased about 18% ,7% for longitudinal residual stress(,σ,x,) by high-frequency pulse MIG welding process.Decreased from 60° to 50° for groove angle ,residual stress at welding toe decreased about 6% by high-frequency pulse MIG welding.
6082-T6铝合金中厚板高频脉冲MIG深熔焊对接焊工艺,焊接残余应力焊接气孔
6082-T6 aluminum alloy medium platehigh frequency pulse MIG deep penetration weldingbutt welding procedurewelding residual stresswelding porosity
杜则裕.焊接科学基础—材料焊接科学基础[M].北京:机械工业出版社,2012.
应岳峰,陈琪昊,王卫东,等.焊丝超声振动对铝合金GMA焊缝成形及气孔的影响[J].航空学报, doi: 10.7527/S1000-6893.2023.28711http://dx.doi.org/10.7527/S1000-6893.2023.28711.
YING Y F,CHEN Q H,WANG W D,et al. Effect of ultrasonic vibration of welding wire on weld formation and pore in GMA welding of aluminum alloy[J]. Acta Aeronautica et Astronautica Sinica, doi: 10.7527/S1000-6893.2023.28711http://dx.doi.org/10.7527/S1000-6893.2023.28711.
马明明,廖宁宁,张弛.激光-MIG电弧复合焊接6082-T6铝合金气孔抑制机理研究[J].机车车辆工艺,2023,(02):1-6.
MA M M,LIAO N N,ZHANG C. Research on pore restraining mechanism for 6082-T6 aluminum alloy welded by Laser-MIG arc hybrid welding[J]. Locomotive & Rolling Stock Technology,2023,(02):1-6.
Cui S W, Tian F Y, Ma R,et al. Study on the Morphology, Microstructure, and Properties of 6082-T6 Aluminum Alloy Joints in MIG Welding[J]. Metals,2023,13(7):1245.
孙宏坤,陈毅腾,李超.铝镁合金双丝脉冲MIG焊接头组织与力学性能分析[J].广东造船,2022,41(04):66-69.
SUN H K,CHEN Y T,LI C. Analysis on Microstructure and Mechanical Properties of Aluminum-magnesium Alloy Double-wire Pulsed MIG Welding[J]. Guangdong shipbuilding,2022,41(04):66-69.
郭帅.6082-T6铝合金工字形梁局部稳定性能与设计方法研究[D]. 陕西:西安工业大学,2023.
GUO S. Research on Local Stability Performance and Design Method of 6082-T6 Aluminum Alloy I-shaped Beam[D].Shanxi:Xi'an Technological University,2023.
姜影,郑业方,王玉才,等.动车组用铝镁合金电机端盖的残余应力分析[J].冶金与材料,2023,43(02):70-71+74.
JIANG Y,ZHENG Y F,WANG Y C,et al. Residual stress analysis of aluminum magnesium alloy motor end caps for high-speed trains[J]. Metallurgy and Materials,2023,43(02):70-71+74.
郭超超,丁成钢,杨大龙.S355J2W+N耐候钢板根部大熔深MAG对接焊工艺及接头的组织和性能[J].电焊机, 2020, 50(11):50-54.
GUO C C,DING C G,YANG D L. Study on deep penetration root welding proce-dure,microstructure and mechanical properties of S355J2W+N weather resistant steel MAG butt welded joint[J]. Electric Welding Machine, 2020, 50(11):50-54.
冯寒.6082-T6铝合金中厚板高频脉冲MIG焊工艺研究[D].辽宁:大连交通大学,2023.
FENG H. Research on High Frequency Pulse MIG Welding Process for 6082-T6 Aluminum Alloy Medium and Thick Plate[D].Liaoning: Dalian Jiaotong University,2023.
EN ISO 17639:2022,焊接接头的宏观和显微检验[S].2022.
GB/T24179-2023 金属材料 残余应力测定 压痕应变法[S].2023.
戴为志.影响钢结构焊接技术进步的几个重要因素[J].电焊机,2020,50(09):207-211.
DAI W Z. Several important factors affecting welding technology progress of steel structure[J]. Electric Welding Machine,2020,50(09):207-211.
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