Numerical Analysis of Fracture Splitting Technology of Rear Axles’ Main Reducer Shell Bearing Seats

doi:10.12068/j.issn.1005-3026.2018.09.018

Journal of Northeastern University Natural Science ›› 2018, Vol. 39 ›› Issue (9): 1304-1308.DOI: 10.12068/j.issn.1005-3026.2018.09.018

• Mechanical Engineering • Previous Articles Next Articles

Numerical Analysis of Fracture Splitting Technology of Rear Axles’ Main Reducer Shell Bearing Seats

JIN Wen-ming¹， YAO Juan²， ZHAO Yong¹， GUO Bei-bei²

1.Roll Forging Technology Research Institute， Jilin University， Changchun 130022， China; 2. School of Materials Science and Engineering， Jilin University， Changchun 130022，China.

Received:2017-05-09 Revised:2017-05-09 Online:2018-09-15 Published:2018-09-12
Contact: YAO Juan
About author:-
Supported by:
-

Abstract

Abstract: The initial fracture splitting process of rear axles’ main reducer shell bearing seats was simulated by ABAQUS and a numerical analysis was carried out. The material of the shell bearing seats is QT450 with 50% pearlite in the matrix structure. The position of the starting cracking point was determined by J integral， and the splitting force was then calculated. The plastic deformation of the crack tip region when cracking and its effect on the loss of circle were analyzed， and an experimental study was conducted. The results show that the starting cracking point of the bearing is located near the middle of the crack tip. The plastic area located at the root of the crack tip is of butterfly-shaped distribution， resulting in the small loss of circle of bearing holes. The processing quality of fracture splitting is qualified， which is suitable for the application of fracture splitting technology.The research result lays a solid theoretical foundation for improving the production process of shell bearing seats， and provides a reference for the selection of splitting materials of shell bearing seats， the design of splitting equipment and the formulation of processing procedures.

Key words: shell bearing seat, QT450, fracture splitting process, J integral, numerical analysis

CLC Number:

U463.1

JIN Wen-ming， YAO Juan， ZHAO Yong， GUO Bei-bei. Numerical Analysis of Fracture Splitting Technology of Rear Axles’ Main Reducer Shell Bearing Seats[J]. Journal of Northeastern University Natural Science, 2018, 39(9): 1304-1308.

References

[1]Gu Z，Yang S，Ku S，et al.Fracture splitting technology of automobile engine connecting rod［J］.The International Journal of Advanced Manufacturing Technology，2005，25(9):883-887.
[2]Zhang X Z，Cai Q Z， Zhou G F，et al.Development on microalloyed high carbon steel used for fracture splitting connecting rods［C］//Advanced Materials Research.Stafa-Zurich:Trans Tech Publications， 2011:301-308.
[3]He B，Sun J，Chen S，et al.Crack analysis on the toothed mating surfaces of a diesel engine connecting rod［J］.Engineer Failure Analysis，2013，34(12):443-450.
[4]廉相如，王国权，陈勇.主减速器轴承载荷对重载卡车驱动桥壳疲劳特性影响［J］.机械工程师，2016，29(2):48-51.(Lian Xiang-ru，Wang Guo-quan，Chen Yong.Influence analysis of driving axle bearing loading on differential housing fatigue performance［J］.Mechanical Engineer，2016，29(2):48-51.)
[5]齐凯，王之新，李廷举，等.低牌号球墨铸铁风冷强化工艺的试验研究［J］.金属热处理，2008，33(3):76-78.(Qi Kai，Wang Zhi-xin，Li Ting-ju，et al.Study on wind cooling strengthening process of nodular cast iron［J］.Heat Treatment of Metals，2008，33(3):76-78.)
[6]何东野，杨慎华，寇淑清.发动机曲轴箱轴承座裂解加工数值分析［J］.吉林大学学报(工学版)，2009，39(1):78-82.(He Dong-ye，Yang Shen-hua，Kou Shu-qing.Numerical analysis on fracture splitting technology of main bearing block of engine［J］.Journal of Jilin University(Engineering and Technology Edition)，2009，39(1):78-82.)
[7]Goran V.J-integral as possible criterion in material fracture toughness assessment［J］.Engineering Review，2011，31(2):91-96.
[8]Folch L C A，Burdekin F M.Application of coupled brittle ductile model to study correlation between Charpy energy and fracture toughness values ［J］.Engineering Fracture Mechanics，1999，63(1):57-80.
[9]Hoffmann G，Geiman T，Marra M，et al.Fracture splitting of powder forged connecting rods［J］.Transactions Journal of Materials & Manufacturing，2002，111(5):1-11.
[10]Boo K S，Cho H S.Transient temperature distribution in arc welding of finite thickness plates［J］.Proceedings of the Institution of Mechanical Engineers，Part B:Journal of Engineering Manufacture，1990，204(3):175-183.

[1]	WANG Zi-jun， ZHAO Wen， CHENG Cheng， BAI Qian. Deformation Law of Subway Station Constructed by Small Diameter Tube Curtain Method [J]. Journal of Northeastern University(Natural Science), 2022, 43(11): 1630-1637.
[2]	WANG Zhe-chao， ZHANG Hao-wei， LONG Qiu-xi， LIU Jie. Bingham Fluid Seepage Model in Rock Fractures [J]. Journal of Northeastern University(Natural Science), 2021, 42(10): 1459-1467.
[3]	ZHAO Wen， ZHANG Chao-zhe， WANG Zhi-guo， JIA Peng-jiao. Experimental Study and Numerical Analysis on Flexural Behavior of Flange-Channel Steel Roof Specimen [J]. Journal of Northeastern University Natural Science, 2020, 41(4): 575-580.
[4]	MENG Xiang-zhi， LIU Guang-ming， FU Li-xin. Simulation Analysis of Impact and Penetration for Small Celestial Body Penetrator [J]. Journal of Northeastern University Natural Science, 2019, 40(2): 251-255.
[5]	JIA Peng， ZHANG Yao， JI Wan-min， ZHAO Ai-cheng. 3D Numerical Analysis for Effect of Mechanical Properties on Failure Process of Serial and Parallel Rock Pillar System [J]. Journal of Northeastern University Natural Science, 2018, 39(3): 431-436.
[6]	CHEN Jiang， YANG Jun-sheng， ZHANG Xue-min， OU Xue-feng. Numerical Analysis and Field Measurement of Force on Diaphragm Walls in Adjacent Deep Excavations [J]. Journal of Northeastern University Natural Science, 2017, 38(8): 1189-1194.
[7]	ZHANG Guo-lian， ZOU Hai-wen， WANG Yu-qi， ZHAO Xian-tao. Three-Dimensional Numerical Analysis of Coastal Soft Soil Foundation Consolidation by Surcharge Preloading [J]. Journal of Northeastern University Natural Science, 2017, 38(12): 1780-1784.
[8]	JIA Peng-jiao， ZHAO Wen， HAO Yun-chao， HAN Jian-yong. Numerical Analysis of the Mechanical Properties of Steel Tube Slab Component Under Different Structural Parameters [J]. Journal of Northeastern University Natural Science, 2016, 37(8): 1177-1181.
[9]	WANG Wei， LUO Zhou-quan， QIN Ya-guang， SUN Yang. Stope Parameters Optimization of Non-pillar Longhole Retreat Caving [J]. Journal of Northeastern University Natural Science, 2016, 37(4): 578-582.
[10]	YAN Yu-tao， QIAN Xiao-lin， ZHANG Yi-bo， SUN Zhi-li. Analysis on Crack Tip J Integral Value Under Sliding Contact Effect [J]. Journal of Northeastern University Natural Science, 2016, 37(12): 1744-1749.
[11]	LIU Dun-wen， CHU Fu-jiao， REN Gao-feng， WU Di. Optimization of Transition Zone Thickness and Numerical Analysis for Deep Hard-Rock Mining [J]. Journal of Northeastern University Natural Science, 2015, 36(4): 571-575.

Numerical Analysis of Fracture Splitting Technology of Rear Axles’ Main Reducer Shell Bearing Seats

RichHTML

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 11

Recommended Articles

Metrics

Comments