Study on Explicit Dynamics Numerical Simulation Comparison of Self-locking Mechanism of Achimedean and Straight Line Types Mould Surface of One-way Clutch

Study on Explicit Dynamics Numerical Simulation Comparison of Self-locking Mechanism of Achimedean and Straight Line Types Mould Surface of One-way Clutch. Wei, Wei, Tiantian, Sun, Qingdong, Yan, & Yan, Zhu Lubrication Engineering, 3(34):41–43+51, March, 2009.
abstract bibtex

为保证综合式液力变矩器在偶合器及闭锁工况下的可靠、高效传动,以其换相工作的关键部件单向联轴器为研究对象,分析了其型面结构和自锁摩擦机制,构建了对数螺旋线型面和直线型面2种单向联轴器的计算模型,基于显式动力学分别对其楔紧过程的动态行为进行了数值模拟,并进行了摩擦过程的动态应力分布计算。结果表明,与有限元静力接触分析相比,采用显式动力学分析方法可以更为深入地了解摩擦自锁过程机制,以及准确计算动态过程中的应力分布和变化,分析结果表明对数螺旋线型面与直线型面相比,其应力峰值较小,楔紧过程较为合理,承载性能较好。

@article{wei_wei_study_2009,
	title = {Study on {Explicit} {Dynamics} {Numerical} {Simulation} {Comparison} of {Self}-locking {Mechanism} of {Achimedean} and {Straight} {Line} {Types} {Mould} {Surface} of {One}-way {Clutch}},
	volume = {3},
	issn = {0254-0150},
	abstract = {为保证综合式液力变矩器在偶合器及闭锁工况下的可靠、高效传动,以其换相工作的关键部件单向联轴器为研究对象,分析了其型面结构和自锁摩擦机制,构建了对数螺旋线型面和直线型面2种单向联轴器的计算模型,基于显式动力学分别对其楔紧过程的动态行为进行了数值模拟,并进行了摩擦过程的动态应力分布计算。结果表明,与有限元静力接触分析相比,采用显式动力学分析方法可以更为深入地了解摩擦自锁过程机制,以及准确计算动态过程中的应力分布和变化,分析结果表明对数螺旋线型面与直线型面相比,其应力峰值较小,楔紧过程较为合理,承载性能较好。},
	language = {中文;},
	number = {34},
	journal = {Lubrication Engineering},
	author = {{Wei, Wei} and {Tiantian, Sun} and {Qingdong, Yan} and {Yan, Zhu}},
	month = mar,
	year = {2009},
	keywords = {combination torque converter, explicit dynamics, friction mechanism, one-way clutch, ②已读1x, ⛔ No DOI found, 单向联轴器, 摩擦机制, 显式动力学, 综合式液力变矩器},
	pages = {41--43+51},
}

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