焊管
銲管
한관
WELDED PIPE AND TUBE
2014年
12期
22-26
,共5页
麻相湑%麻永林%邢淑清%陈重毅%陆恒昌%贺鸿臻
痳相湑%痳永林%邢淑清%陳重毅%陸恆昌%賀鴻臻
마상서%마영림%형숙청%진중의%륙항창%하홍진
焊接%残余应力%盲孔法%拉应力%压应力
銲接%殘餘應力%盲孔法%拉應力%壓應力
한접%잔여응력%맹공법%랍응력%압응력
welding%residual stress%blind hole method%tensile stress%compressive stress
为了研究SS400钢板不同焊接方法残余应力的分布规律,分别对4 mm厚的低合金高强钢采用手工电弧焊和氩弧焊进行焊接,焊接后采用盲孔法测量钢板的残余应力,得到了残余应力的分布曲线。试验结果表明:手工电弧焊在焊接区垂直焊接方向的残余应力最大值为387 MPa,在焊缝两侧为压应力,距离焊缝两侧12 mm处,压应力最大;平行焊接方向上的残余应力在中间位置为拉应力,在工件两边为压应力,靠近边缘压应力增大。氩弧焊垂直于焊接方向上的最大拉应力为328 MPa,在焊缝两侧的距离为7 mm处,压应力最大;平行于焊接方向上的残余应力曲线与手工电弧焊的相似,氩弧焊的焊接变形小于手工电弧焊。
為瞭研究SS400鋼闆不同銲接方法殘餘應力的分佈規律,分彆對4 mm厚的低閤金高彊鋼採用手工電弧銲和氬弧銲進行銲接,銲接後採用盲孔法測量鋼闆的殘餘應力,得到瞭殘餘應力的分佈麯線。試驗結果錶明:手工電弧銲在銲接區垂直銲接方嚮的殘餘應力最大值為387 MPa,在銲縫兩側為壓應力,距離銲縫兩側12 mm處,壓應力最大;平行銲接方嚮上的殘餘應力在中間位置為拉應力,在工件兩邊為壓應力,靠近邊緣壓應力增大。氬弧銲垂直于銲接方嚮上的最大拉應力為328 MPa,在銲縫兩側的距離為7 mm處,壓應力最大;平行于銲接方嚮上的殘餘應力麯線與手工電弧銲的相似,氬弧銲的銲接變形小于手工電弧銲。
위료연구SS400강판불동한접방법잔여응력적분포규률,분별대4 mm후적저합금고강강채용수공전호한화아호한진행한접,한접후채용맹공법측량강판적잔여응력,득도료잔여응력적분포곡선。시험결과표명:수공전호한재한접구수직한접방향적잔여응력최대치위387 MPa,재한봉량측위압응력,거리한봉량측12 mm처,압응력최대;평행한접방향상적잔여응력재중간위치위랍응력,재공건량변위압응력,고근변연압응력증대。아호한수직우한접방향상적최대랍응력위328 MPa,재한봉량측적거리위7 mm처,압응력최대;평행우한접방향상적잔여응력곡선여수공전호한적상사,아호한적한접변형소우수공전호한。
In order to study the distribution rule of SS400 sheet under different welding residual stress, manual electric arc welding and argon arc welding method were used to weld 4 mm low alloy high strength steel. The residual stress of steel plate after welding was measured by the blind hole method, and the distribution curve of residual stress was obtained. The experimental results showed that: for manual electric arc welding the maximum value of residual stress in welding zone vertical direction is 387 MPa, the residual stress is compressive stress beside weld both sides, the compressive stress value is the maximum in the distance of 12 mm from weld both sides. The residual stress is tensile stress in center position in parallel welding direction;it is compressive stress beside both sides of weldments, and the compressive stress increases close to edge. For argon arc welding, the maximum value of tensile stress in vertical direction is 328 MPa, the compressive stress value is the maximum in the distance of 7 mm from weld both sides. The residual stress curve in parallel welding direction of argon arc welding is similar to that of manual electric arc welding, and welding deformation of argon arc welding is less than manual electric arc welding.