Modeling of Stress-Strain State in Connection Resource Defines of Volumetric Hydraulic Drive

Mordovia University Bulletin Pub Date : 2018-12-28 DOI:10.15507/0236-2910.028.201804.537-551

P. Ionov, P. Senin, A. Stolyarov

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Abstract

Introduction. The article explores the stress-strain state of a distribution pair of aggregates of a volumetric hydraulic drive and the search for ways to increase its durability. Materials and Methods. In the process of studying, the generally accepted principles of the theories of friction, reliability, elasticity, mechanisms and machines, and mathematical modeling were used. To simulate the stress-strain state, an engineering analysis system ANSYS was used. Distribution pairs of hydraulic pumps 313.3.112, GST-112 and Sauer Danfoss 90R075 were chosen as objects of study. Results. As a result of the study there were obtained values of the real contact stresses and long-term current stress on the distribution of pairs of units of volumetric hydraulic drive: the 313.3.112 hydraulic pump is 26,93 MPa; for GTS-112 water pump is of 22.21 MPa for the Sauer Danfoss 90R075 hydraulic pump is 27,12 MPa. It is revealed that the area located on the discharge side is a subject to the greatest loads. This is the cause of one-sided wear of spherical surfaces, which is quite common in units decommissioned. The values of contact stresses in the joints hardened by the method of electric spark machining are on average 1.4 and 9.4 % lower than in not unhardened. In the process of electric spark machining there is a redistribution of stresses on the surface that leads to a decrease of the operating load in the connections. Conclusions. The study allowed modelling the stress-strain state in new and hardened distribution pairs of volumetric hydraulic drive units under operating conditions and suggesting ways to increase its durability. It was established that to increase the wear resistance of a resolving compound and the durability of the volumetric hydraulic drive aggregates, it is necessary to ensure that in distribution pairs the maximum bearing capacity is greater than the maximum long-term operating load in these connections. To solve this problem, it is proposed to create coatings with high tribotechnical properties by the method of electricspark machining. Keywords: resource-limiting compound, volumetric hydraulic drive, modeling, finite element method, bearing capacity, operating load, wear resistance, electrospark machining For citation: Ionov P. A., Senin P. V., Stolyarov A. V. Modeling of Stress-Strain State in Connection Resource Defines of Volumetric Hydraulic Drive. Vestnik Mordovskogo universiteta = Mordovia University Bulletin. 2018; 28(4):537–551. DOI: https://doi.org/10.15507/0236-2910.028.201804.537-551 Acknowledgements: The study was conducted with the financial support of the Ministry of Education and Science of the Russian Federation (state task, direction: development of competencies) project № 11.3416.2017/4.6 “Development of technologies and tools to improve the durability of parts, assemblies, machines and equipment by creating nanostructured coatings sources of concentrated energy”.

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容积式液压传动连接资源定义中的应力-应变状态建模

介绍。本文探讨了容积式液压传动中分布对骨料的应力-应变状态，并探讨了提高其耐久性的方法。材料与方法。在研究过程中，使用了普遍接受的摩擦、可靠性、弹性、机械和数学建模等理论原理。为了模拟应力-应变状态，采用ANSYS工程分析系统。选取液压泵313.3.112、GST-112和Sauer Danfoss 90R075分配副作为研究对象。结果。研究得到了容积式液压传动副的实际接触应力和长期电流应力分布:313.3.112液压泵为26.93 MPa;对于GTS-112水泵为22.21 MPa，对于绍尔丹佛斯90R075液压泵为27.12 MPa。结果表明，位于放电侧的区域受最大载荷的影响。这是球面单面磨损的原因，这在退役的机组中很常见。经电火花淬火处理的接头接触应力值比未淬火处理的接头平均降低1.4%和9.4%。在电火花加工过程中，表面应力会发生重新分布，从而使连接处的工作负荷减小。结论。该研究可以模拟新的和硬化的容积式液压驱动单元分布对在运行条件下的应力-应变状态，并提出提高其耐久性的方法。为了提高溶解化合物的耐磨性和体积液压驱动集料的耐久性，有必要确保分配对的最大承载能力大于这些连接的最大长期运行载荷。为了解决这一问题，提出了采用电火花加工的方法制备高摩擦性能涂层的方法。关键词:资源限制化合物，容积式液压传动，建模，有限元法，承载能力，工作载荷，耐磨性，电火花加工。引用本文:Ionov P. A.， Senin P. V.， Stolyarov A. V.体积式液压传动连接资源定义中的应力-应变状态建模。Vestnik Mordovskogo universiteta =莫尔多维亚大学公报2018;28(4): 537 - 551。DOI: https://doi.org/10.15507/0236-2910.028.201804.537-551Acknowledgements:该研究是在俄罗斯联邦教育和科学部(国家任务，方向:能力发展)项目№11.3416.2017/4.6“开发技术和工具，通过创建集中能源的纳米结构涂层来提高零件，组件，机器和设备的耐久性”的财政支持下进行的。

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Mordovia University Bulletin MULTIDISCIPLINARY SCIENCES-

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