目的 对比和研究300 M钢的铸钢丸和陶瓷丸喷丸强化后的效果,选择合适的300 M钢喷丸强化工艺.方法 采用铸钢弹丸和陶瓷弹丸以不同喷丸强度对300 M钢表面进行喷丸强化,研究对300M钢表面粗糙度、表面残余压应力及疲劳寿命的影响.结果 随着喷丸强度的增大,300 M钢表面粗糙度增大,但在相同或相当的喷丸强度下,采用陶瓷弹丸喷丸强化可获得更小的表面粗糙度;试样表面残余压应力均为先增大后减小,分别在喷丸强度为0.25A和0.2A时达到最大值.在大应力水平试验条件下,两种弹丸不同喷丸强度下的300M钢中值疲劳寿命增益均不明显;在小应力水平试验条件下,两种弹丸不同喷丸强度下的300 M钢中值疲劳寿命增益差异显著,铸钢弹丸喷丸强化最大值达到22,陶瓷弹丸喷丸强化最大值达到38.结论 铸钢丸和陶瓷丸喷丸均可以提高300 M钢的疲劳寿命.相对于铸钢丸喷丸,300M钢的陶瓷丸喷丸后的粗糙度水平更低,疲劳寿命更长.
Objective To compare and study the performance results of 300M steel after ceramic shot and cast steel shot peening and obtain the proper shot peening process of 300M steel. Methods 300M steel was shot peened by cast steel shot and ceramic shot at different intensities. The surface roughness, surface residual stress and fatigue life of 300M steel shot peened by two different shot methods were tested and researched. Results The surface roughness of 300M increased after shot peening by both ceramic shot and cast steel shot, but lower roughness value was achieved by ceramic shot peening under the same condition of shot peening in-tensity. The surface residual compressed stress first increased and then decreased with the increase of shot peening intensity by ce-ramic shot peening or cast steel shot peening. When the cast steel shot peening intensity was 0. 25A, the residual stress of the sur-face reached the maximum. For ceramic shot peening, the residual stress of the surface reached the maximum when the intensity was 0. 2A. Under the condition of large stress level test, the median fatigue life gain of the sample with different shot peening inten-sity of two kinds of shot was not obvious. However, under low stress level test conditions, median fatigue life gain was significantly different with different shot peening intensity of two kinds of shot, with the maximum value reaching 22 ( steel shot peening) and 38 ( ceramic shot peening) , respectively. Conclusion The fatigue life could be increased by both cast steel shot peening and ceramic shot peening, but the 300M steel processed by ceramic shot peening had lower roughness level and longer fatigue life.
参考文献
| [1] | 刘道新;金石.300M超高强度钢应力腐蚀敏感性及断口的分维特征[J].腐蚀科学与防护技术,1994(01):77. |
| [2] | M.P. Nascimento;R.C. Souza;W.L. Pigatin.Effects of surface treatments on the fatigue strength of AISI 4340 aeronautical steel[J].International Journal of Fatigue,20017(7):607-618. |
| [3] | Xiaohua Zhang;Daoxin Liu.Effect of shot peening on fretting fatigue of Ti811 alloy at elevated temperature[J].International Journal of Fatigue,20095(5):889-893. |
| [4] | 高玉魁.喷丸对Ti-10V-2Fe-3Al钛合金拉-拉疲劳性能的影响[J].中国有色金属学报,2004(01):60-63. |
| [5] | 高玉魁.喷丸强化对TC4钛合金组织结构的影响[J].稀有金属材料与工程,2010(09):1536-1539. |
| [6] | Yu-kui Gao;Xiang-bin Li;Qing-xiang Yang.Influence of surface integrity on fatigue strength of 40CrNi_2Si_2MoVA steel[J].Materials Letters,20072(2):466-469. |
| [7] | 李向斌.一种新型超高强钢喷丸强化的研究[J].材料工程,1991(03):14. |
| [8] | 高玉魁;王仁智;姚枚;邵培革.金属疲劳极限与静强度的相关性[J].机械强度,2001(1):15-18. |
| [9] | 李向斌.喷丸强化对材料旋转弯曲疲劳强度影响的定量研究[J].材料工程,1995(10):26. |
| [10] | 王仁智.表面喷丸强化技术[J].表面工程,1991(01):36. |
| [11] | 高玉魁;李向斌;殷源发.超高强度钢的喷丸强化[J].航空材料学报,2003(z1):132-135. |
| [12] | 高玉魁.高强度钢喷丸强化残余压应力场特征[J].金属热处理,2003(04):42-44. |
| [13] | 李瑞鸿;刘道新;张炜;李轩;乔明杰;夏明莉.喷丸强化与表面完整性对300M钢疲劳性能的影响[J].机械科学与技术,2011(9):1418-1423. |
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