|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
超声冲击改善s30403不锈钢表面状态的数值模拟
DOI: 10.3969/j.issn.1671-7627.2014.02.005, PP. 28-34
Keywords: 超声冲击处理,覆盖率,残余压应力,有限元方法
Abstract:
基于johnson-cook方程建立超声冲击处理的三维有限元模型,研究超声冲击处理奥氏体不锈钢s30403的动力学过程,分析冲击速度、覆盖率对残余应力分布和表面应力集中因子zi的影响。结果表明:冲击处理后的表面在冲击凹坑边缘存在4个月牙状高拉应力区。随着冲击速度的增加,月牙状区域的形状与面积基本不变,但是随着覆盖率的增加,月牙状区域逐渐融合。冲击速度对表面残余压应力值、最大残余应力深度和残余应力厚度的影响较大,但对最大压残余应力值的影响较小。冲击处理后的应力集中系数zi随着冲击速度的增加开始增幅较大,后逐渐趋于平缓。覆盖率低于100%时,覆盖率对残余应力层的厚度以及最大残余应力的深度影响很小,但是表面残余压应力值则随着覆盖率的增加明显变大;当覆盖率达到200%,残余应力的深度显著增加,显著提高了残余压应力区域的应力水平。
| [1] | wagnerl.mechanicalsurfacetreatmentsontitanium,aluminumandmagnesiumalloys[j].materialsscienceandengineering:a,1999,263(2):210-216.
|
| [2] | 马刚.超声冲击强化焊接接头抗应力腐蚀性能研究[d].南京:南京工业大学,2010.
|
| [3] | miaoh,zuodw,wangm,etal.numericalcalculationandexperimentalresearchonresidualstressinprecipitation-hardeninglayerofnak80steelforshotpeening[j].chinesejournalofmechanicalengineering,2011,24(3):439-445.
|
| [4] | mordyukbn,prokopenkogi,iefiraovmo,etal.effectofstructureevolutioninducedbyultrasonicpeeningonthecorrosionbehaviorofaisi-321stainlesssteel[j].materialsscienceandengineering:a,2007,458(1/2):253-261.
|
| [5] | mordyukbn,prokopenkogi.fatiguelifeimprovementoftitaniumbynovelultrasonicallyassistedtechnique[j].materialsscienceandengineering:a,2006,437(2):396-405.
|
| [6] | mordyukbn,prokopenkogi.ultrasonicimpactpeeningforthesurfaceproperties’management[j].journalofsoundandvibration,2007,308(3/4/5):855-866.
|
| [7] | roys,fisherjw.enhancingfatiguestrengthbyultrasonicimpacttreatment[j].steelstructures,2005,5:241-252.
|
| [8] | delosrioser,trullm,leversa.modellingfatiguecrackgrowthinshot-peenedcomponentsofal2024-t351[j].fatigueandfractureofengineeringmaterialsandstructures,2000,23(8):709-716.
|
| [9] | janoschj,konecznyh,debiezs,etal.improvementoffatiguestrengthinweldedjoints(inhssandinaluminiumalloys)byultrasonichammerpeening[j].weldingintheworld,1996,37(10):72-82.
|
| [10] | vilhauerb,bennettcr,matamorosab,etal.fatiguebehaviorofweldedcoverplatestreatedwithultrasonicimpacttreatmentandbolting[j].engineeringstructures,2012,34:163-172.
|
| [11] | roys,fisherj,yenb.fatigueresistanceofweldeddetailsenhancedbyultrasonicimpacttreatment(uit)[j].internationaljournaloffatigue,2003,25(9/10/11):1239-1247.
|
| [12] | lees,barthelatf,hutchinsonjw,etal.dynamicfailureofmetallicpyramidaltrusscorematerials-experimentsandmodeling[j].internationaljournalofplasticity,2006,22(11):2118-2145.
|
| [13] | 凌祥,彭薇薇,倪红芳.喷丸三维残余应力场的有限元模拟[j].机械工程学报,2006,42(8):182-189.
|
| [14] | vallellanoc,navarroa,dominguezj.fatiguecrackgrowththresholdconditionsatnotches:i.theory[j].fatigueandfractureofengineeringmaterialsandstructures,2000,23(2):113-121.
|
| [15] | hassani-gangarajsm,guaglianom,farrahigh.finiteelementsimulationofshotpeeningcoveragewiththespecialattentiononsurfacenanocrystallization[j].engineeringprocedia,2011,10:2464-2471.
|
| [16] |
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
