Please wait a minute...
工程设计学报
Chinese Journal of Engineering Design  2005, Vol. 12 Issue (4): 227-231    DOI:
    
FEA of screw thread connection strength in engine cylinder block
 GAO  Bin1,2, SONG  Xiao-Wen1, LU  Bin1, HAO  Yong-Gang1, HU  Shu-Gen1, YU  Xiao-Li1
1. College of Mechanical and Energy Engineering, Zhejiang University, Hangzhou 310027, China;
2. College of Infomation Engineering, Huzhou Teachers College, Huzhou 313000, China
Download: HTML     PDF(460KB)
Export: BibTeX | EndNote (RIS)      

Abstract  Aiming at the calculating problem of screw thread connection strengthin engine design, by adopting FEA application ABAQUS/STANDARD, a scheme for accurately computing strength of screw thread area in cylinder block is studied, which means to compute bolt bearing forces under working load through simplified assembly model. The acquired bolt bearing force, regarded as load distribution, will be applied to the local model with thread to compute the thread stress distribution around the bolt and cylinder block. In meshing scheme, the simplified cylinder block and bolt, divided into two parts in local model, were meshed by hexahedral elements to save computation cost and improve computation accuracy. Finally, stress distribution for thread in engine cylinder block in pre-tension load case and peak-combustion-pressure load case are calculated and analyzed to verify this method. It provides a way for design and calculation of thread connection in engines and gives reference to the practical application of related project.

Key wordscylinder block thread      strength      nonlinear      finite element      ABAQUS     
Published: 28 August 2005
Service
E-mail this article
Add to my bookshelf
Add to citation manager
E-mail Alert
RSS
Articles by authors
GAO Bin
SONG Xiao-Wen
LU Bin
HAO Yong-Gang
HU Shu-Gen
YU Xiao-Li
Cite this article:

GAO Bin, SONG Xiao-Wen, LU Bin, HAO Yong-Gang, HU Shu-Gen, YU Xiao-Li. FEA of screw thread connection strength in engine cylinder block. Chinese Journal of Engineering Design, 2005, 12(4): 227-231.

URL:

https://www.zjujournals.com/gcsjxb/     OR     https://www.zjujournals.com/gcsjxb/Y2005/V12/I4/227


发动机气缸体螺纹联接强度有限元分析

针对发动机设计中螺纹联接强度计算的问题,采用有限元通用程序ABAQUS/STANDARD,研究气缸体螺纹区域强度准确计算的方案,即通过简化后的装配体模型计算螺栓在工作载荷下的受力,然后将获得的螺栓受力做为载荷边界条件施加在带螺纹的局部模型中,计算螺栓和缸体螺纹区域的应力。网格划分时,在局部模型中将缸体简化,并将螺柱分为两部分,之后皆用六面体单元进行网格划分以减小计算量、提高准确性。最后通过实例对某气缸体螺纹区域在预紧状态、峰值燃烧压力作用下的应力进行计算与分析,验证该计算方案的可行性。该方案为今后发动机的螺纹联接设计和计算提供一条可行的路径,且对相关的工程实际应用具有很强的指导意义。

关键词: 气缸体螺纹,  强度,  非线性,  有限元,  ABAQUS 
[1] Chao XIE,Yunzhuang CHEN,Guangnan SHI,Leijie LAI. Design and compliance analysis of large stroke flexible ball hinge with orthogonal reeds[J]. Chinese Journal of Engineering Design, 2023, 30(5): 626-633.
[2] Zhangwei XIE,Xingbo ZHANG,Zhe XU,Yu ZHANG,Fengyun ZHANG,Xi WANG,Pingping WANG,Shufeng SUN,Haitao WANG,Jixin LIU,Weili SUN,Aixia CAO. Construction of surface temperature monitoring system for laser machining parts based on digital twin[J]. Chinese Journal of Engineering Design, 2023, 30(4): 409-418.
[3] Bowei XIE,Mohui JIN,Zhou YANG,Jieli DUAN,Mingyu QU,Jinhui LI. Research on mechanical properties and model parameters of 3D printed TPU material[J]. Chinese Journal of Engineering Design, 2023, 30(4): 419-428.
[4] Tao ZHANG,Kaisong WANG,Wei TANG,Kecheng QIN,Yang LIU,Yuhao SHI,Jun ZOU. Design and analysis of flexible bending actuator driven by electrohydrodynamic pumps[J]. Chinese Journal of Engineering Design, 2023, 30(4): 467-475.
[5] Qin LI,Rui YAN,Zhiqiang HUANG,Gang LI. Research on matching design and optimization of drive motor of electric drive vibroseis[J]. Chinese Journal of Engineering Design, 2023, 30(2): 172-181.
[6] Yi LI,Guo-hua CHEN,Ming XIA,Bo LI. Design and simulation optimization of motorized spindle cooling system[J]. Chinese Journal of Engineering Design, 2023, 30(1): 39-47.
[7] Wen-bing TU,Xiao-wen YUAN,Jin-wen YANG,Ben-meng YANG. Research on dynamic characteristics of rolling bearing under different component fault conditions[J]. Chinese Journal of Engineering Design, 2023, 30(1): 82-92.
[8] San-ping LI,Teng-jia SUN,Long-qiang YUAN,Li-guo WU. Design and experimental research of pneumatic soft picking manipulator[J]. Chinese Journal of Engineering Design, 2022, 29(6): 684-694.
[9] Zhi-bo ZHAO,Da-qiang GU,Li-xin LI,Jing ZHANG. Modification design of cycloidal gear based on contact stress optimization[J]. Chinese Journal of Engineering Design, 2022, 29(6): 713-719.
[10] Zheng-feng ZHANG,Xiao-yu SONG,Xiao-lei YUAN,Wen-juan CHEN,Wei-dong ZHANG. Reliability optimization design for crashworthiness of Al/CFRP hybrid thin-walled structure[J]. Chinese Journal of Engineering Design, 2022, 29(6): 720-730.
[11] Guang-ming SUN,Yi-miao WANG,Qian WAN,Kun GONG,Wen-jin WANG,Jian ZHAO. Optimization design of precision machine tool bed considering assembly deformation[J]. Chinese Journal of Engineering Design, 2022, 29(3): 318-326.
[12] Fei FENG,Yu-chen FU,Wei FAN,Ju MA. Design and performance analysis of triangular hybrid two-stage lever micro-displacement amplification mechanism[J]. Chinese Journal of Engineering Design, 2022, 29(2): 161-167.
[13] HU Kun, JIANG Qing-nan, JI Chen-guang, YANG Jian, LI Fei. Model reference sliding mode control of magnetic levitation system based on improved ESO[J]. Chinese Journal of Engineering Design, 2022, 29(1): 82-91.
[14] LI Yang, NIE Yu-fei. Design and analysis of heat insulation sealing door of sodium combustion test plant[J]. Chinese Journal of Engineering Design, 2022, 29(1): 115-122.
[15] WANG Yong-feng, ZHAO Guo-ru, KONG Xiang-zhan, ZHENG Kai, LI Guang-lin. Design and analysis of unpowered lower-limb exoskeleton with muscle strength synergistic compensation[J]. Chinese Journal of Engineering Design, 2021, 28(6): 764-775.