天津大学学报
天津大學學報
천진대학학보
JOURNAL OF TIANJIN UNIVERSITY SCIENCE AND TECHNOLOGY
2013年
3期
250-256
,共7页
王国栋%李新强%肖聚亮%秦元飞
王國棟%李新彊%肖聚亮%秦元飛
왕국동%리신강%초취량%진원비
焊材用量%相贯线%两管相贯%多次搭接%焊接坡口
銲材用量%相貫線%兩管相貫%多次搭接%銲接坡口
한재용량%상관선%량관상관%다차탑접%한접파구
welding materials dosage%intersecting line%two pipes intersection%multi-lap joint%welding groove
针对导管架建造过程中存在大量管件相贯的焊接作业,对管件相贯焊材用量的计算进行了研究.在建立两管相贯线焊接坡口数学模型的基础上,用积分法在被切管的轴剖面上计算焊缝的截面在其相邻小角度内的焊缝体积,再在整个支管圆周内根据两面角选择不同的两面角模型分段积分求解总的焊材填充体积.对多管搭接类型先应用相贯线方程求出支管与各管相贯的角度区间,再按两管相贯方法进行计算.在此基础上结合其他一些常用的焊接接头类型开发了焊材计算软件,说明了软件使用方法,并对软件进行了测试计算.结果表明,该方法能够显著提高焊材用量计算的效率和精度,计算误差控制在3%以内.
針對導管架建造過程中存在大量管件相貫的銲接作業,對管件相貫銲材用量的計算進行瞭研究.在建立兩管相貫線銲接坡口數學模型的基礎上,用積分法在被切管的軸剖麵上計算銲縫的截麵在其相鄰小角度內的銲縫體積,再在整箇支管圓週內根據兩麵角選擇不同的兩麵角模型分段積分求解總的銲材填充體積.對多管搭接類型先應用相貫線方程求齣支管與各管相貫的角度區間,再按兩管相貫方法進行計算.在此基礎上結閤其他一些常用的銲接接頭類型開髮瞭銲材計算軟件,說明瞭軟件使用方法,併對軟件進行瞭測試計算.結果錶明,該方法能夠顯著提高銲材用量計算的效率和精度,計算誤差控製在3%以內.
침대도관가건조과정중존재대량관건상관적한접작업,대관건상관한재용량적계산진행료연구.재건립량관상관선한접파구수학모형적기출상,용적분법재피절관적축부면상계산한봉적절면재기상린소각도내적한봉체적,재재정개지관원주내근거량면각선택불동적량면각모형분단적분구해총적한재전충체적.대다관탑접류형선응용상관선방정구출지관여각관상관적각도구간,재안량관상관방법진행계산.재차기출상결합기타일사상용적한접접두류형개발료한재계산연건,설명료연건사용방법,병대연건진행료측시계산.결과표명,해방법능구현저제고한재용량계산적효솔화정도,계산오차공제재3%이내.
In accordance with a large number of welding tasks of intersecting pipes in existence at the process of the pipe frame building,the calculation of the welding materials dosage was investigated. On the basis of setting up the intersecting line groove mathematical model of two pipes,the volume of small angle in the axial section of cut pipe was calculated by integral algorithm,and then the total volume of welding materials filled around the pipe was calcu-lated with different dihedral angle models. For the type of multi-lap welded joint,the intersection angle intervals of branch pipe with different pipes were figured out,and the welding materials dosage based on intersecting model of two pipes was calculated. Based on the above and combined with other common types of welding joint,the welding materials calculation software was developed,the usage of the software was introduced,and the software itself was tested. The results show that precision and efficiency are enhanced obviously and the calculation error is controlled within 3 percent.