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重型卡车传动轴的扭转强度分析
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Abstract:
本文采用有限元方法对重型卡车传动轴的扭转强度进行分析,系统地分析了传动轴各部件在扭转作用下的应力分布规律。研究发现了传动轴扭转强度的相对薄弱处,并对照试验结果验证了传动轴有限元模型的正确性,在此基础上提出了传动轴结构设计优化的建议。
The torsional strength of the drive shaft of the heavy-duty truck was analyzed by using the finite element method. The relatively weak point of the drive shaft was obtained by analyzing the stress distribution of each component of the drive shaft under torsion. The finite element model for the drive shaft is verified by the experimental results, on which the design optimization suggestions of the structure for the drive shaft were put forward.
| [1] | 成钰, 邹进成. 汽车传动轴中间轴发展现状分析[J]. 时代汽车, 2021(5): 141-142. |
| [2] | 魏春梅, 杨畅, 严学涛. 重载汽车传动轴的拓扑优化与轻量化设计[J]. 机械设计与制造, 2020(11): 289-292+296. |
| [3] | 范景峰, 梅二召, 董振波. 汽车传动轴轴颈断裂分析与优化[J]. 机械, 2020, 47(07): 7-14. |
| [4] | 王肖英. 基于ANSYS的传动轴零件静力学分析[J]. 现代信息科技, 2020, 4(6): 143-145+149. |
| [5] | 习伟博, 田栋, 马相飞, 申良奇. 基于Hypermesh的重卡传动轴有限元分析[J]. 汽车实用技术, 2019(17): 86-87+125. |
| [6] | 王成明, 刘晓东, 陈云升, 秦书祺, 张得富. 传动轴强度和疲劳寿命有限元分析与试验验证[J]. 客车技术与研究, 2019, 41(4): 44-46. |
| [7] | 马叶叶, 贾慧芳. 某轻型载货车传动轴性能分析与优化[J]. 井冈山大学学报(自然科学版), 2019, 40(4): 62-66. |
| [8] | 张小红. 浅析基于扭转强度的传动轴优化设计[J]. 民营科技, 2018(12): 55. |
| [9] | Mutasher, S.A., Sahari, B.B., et al. (2007) Experimental Study of Bending Fatigue Characteristics of a Hybrid Aluminum/Composite Drive Shaft. Journal of Composite Materials, 41, 2267-2288.
https://doi.org/10.1177/0021998307075440 |
| [10] | Valavan, D., Balasundaram, R. and Rajkumar, G. (2016) Experimental Design and Analysis of Carbon Fiber Reinforced Composite Drive Shaft. Asian Journal of Research in Social Sciences and Humanities, 6, 167-178.
https://doi.org/10.5958/2249-7315.2016.01183.7 |
| [11] | 施卫东, 王国涛, 张德胜, 等. 基于流固耦合的轴流泵叶片应力特性[J]. 排灌机械工程学报, 2013, 31(9): 737-740+757. |
