为减少MGH956合金熔焊焊缝内的气孔量,利用高频调制TIG电弧激发超声电弧作用于MGH956合金的焊接,通过对比不同激励频率对焊缝气孔及性能的影响,分析了电弧超声激励频率对焊缝气孔及性能的作用机制及影响规律。运用理论计算的方法对焊缝中气孔的运动进行数学分析,理论计算结果与试验结果相一致。控制激励电流在15 A的条件下,激励频率为30 kHz时,焊缝的气孔量最少,且焊接接头强度达到最高,为521 MPa,达到母材的72%。实现了焊接接头断裂方式由脆性断裂转化为韧-脆混合断裂方式。
To reduce the porosity of MGH956 alloy in the weld, the arc-ultrasonic excited by modulating TIG arc through high frequency was applied in MGH956 alloy gas tungsten arc welding. The action mechanism and functionary mechanism of arc-ultrasonic on pores and tensile strength of the joints of MGH956 alloy in TIG welding was studied by introducing arc-ultrasonic at different excitation frequency. The movement of the porosity in the weld was analyzed by mathematical theory, the calculation conclusion is consistent with the experimental result that when the excitation current is 15 A, the excitation frequency decreases at 30 kHz, the number of pores is least and the tensile strength reaches the maximum as 521 MPa, reaching to 76% of the tensile strength of base metal, and the fracture mode of the joint changes from completely brittle fracture to brittle-ductile mixed fracture.
参考文献
| [1] | CASTROAVde,LEGUEYT,MUÑOZA,etal.Micro-structural characterization of Y2 O3 ODS-Fe-Cr model alloys [J]. Journal of Nuclear Materials, 2009 (386-388):449-452.,2009. |
| [2] | MUKHOPADHYAYDK,FROESFH,GELLESDS, et al. Development of oxide dispersion strengthened ferritic steels for fusion [J]. Journal of Nuclear Materials. 1998 (258-263):1209-1215.,1998. |
| [3] | 何培,周张健,李明,许迎利,葛昌纯.用于超临界水堆燃料包壳的ODS铁素体钢的研究进展[J].钢铁研究学报,2009(11):5-11. |
| [4] | 田耘,郭万林,杨峥,淮军锋,柳光祖,李文林,李帅华.MGH956合金板材电子束焊和氩弧焊的接头组织与性能研究[J].航空材料学报,2011(04):33-38. |
| [5] | 淮军锋,郭万林,李天文,袁鸿,姜维.氧化物弥散强化高温合金MGH956的基本焊接性研究[J].材料工程,2008(09):52-55. |
| [6] | 谢伟峰,雷玉成.CLAM钢穿孔等离子超声电弧焊接激励频率的优化[J].材料科学与工艺,2013(01):30-36. |
| [7] | NAJIMEIDANIAR,HASANM.Astudyofhydrogen bubble growth during ultrasonic degassing of Al-Cu alloy melts [J]. Mater Process Tech, 2004, 147:311-320.,2004. |
| [8] | XUHanbing,JIANXiaogang,THOMASTM .Degassing of molten aluminum A356 alloy using ultrasonic vibration[J].Materials Letters,2004,58(29):3669-3673.,2004. |
| [9] | PUGAH,BARBOSAJ,SEABRAE,etal .Theinfluence of processing parameters on the ultrasonic degassing of molten AlSi9Cu3 aluminium alloy[J].Materials Letters,2009,63:806-808.,2009. |
| [10] | 李晓谦,陈铭,赵世琏,李开晔,吴昊.功率超声对7050铝合金除气净化作用的试验研究[J].机械工程学报,2010(18):41-45. |
| [11] | ESKIN G I. Broad prospects for commercial application of the ultrasonic melt treatment of light alloys [J]. Ultrasonics Sonochemistry, 20018(3):319-325.,2001. |
| [12] | PHILIPS D, CHEN Xucai, BAGGS R, et al. Acoustic backscatter properties of the particle/bubble ultrasound contrast agent [J]. Ultrasonics, 1988, 36 (8):883-892.,1988. |
| [13] | MILLER D L. Ultrasonic detection of resonant cavitati-on bubbles in a flow tube by the second-harmonic e-missions[J]. Ultrasonics, 1981, 19(4):217-224.,1981. |
| [14] | LI Junwen, MOMONO T, TAYU Y, et al . Application of ultrasonic treating to degassing of metal ingots[J].Materials Letters,2008,62(25):4152-4154.,2008. |
| [15] | LIDA T,GUTHRIE R.The physical properties of liquid metals[M].New York:Oxford University Press Inc, 1988.,1988. |
| [16] | 潘蕾,陶杰,陈照峰,刘子利.高能超声在颗粒/金属熔体体系中的声学效应[J].材料工程,2006(01):35-37,42. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%