【作者】 董秋霞；

【导师】 林玉娟；

【作者基本信息】 大庆石油学院 ， 化工过程机械， 2010， 硕士

【摘要】 泵是石油化学工业最常见的设备,而泵轴是一个重要的、易出问题的、核心的零部件。正确分析泵轴受力状态,对保证泵安全运行、节约材料以及对整台泵的经济性等起到及其重要的作用。综观国内外各类文献资料,很难查到立式多级离心泵及其泵轴断裂研究的相关资料。同时,立式多级离心泵轴的有限元分析还没有人开展。本文以此契机,对断裂的立式多级离心泵轴进行了力学行为的研究。在传统的泵轴设计中一般使用相关的计算公式进行设计,准确性不高,安全系数过大,经济性较差。把有限元技术应用于轴类零件的设计、尤其是对零件的强度校核上,具有很强的实用性。COSMOS软件是一个通用性很广、实用性很强、功能强大、应用广泛的工程有限元分析软件,在其大量的应用领域中,主要面向固体零件的强度校核和应力分析。本论文的选题是结合生产实践,将COSMOSWorks有限元分析模块和SolidWorks三维建模软件相结合,对失效泵轴的断裂原因进行力学行为的分析。根据立式多级离心泵泵轴的特殊载荷情况,采用有限元的静力分析方法、动力学模态和瞬态分析方法,对其强度、刚度、振动等方面进行理论分析和计算。本文重点完成了以下工作:根据受力状况,对泵轴进行了静力分析,得到了在静力状况下的主应力分布,并根据第三和第四强度理论对其进行了校核计算;用COSMOS有限元的模态分析方法,测算得出泵轴的自振频率以及泵轴的振型;用动力学瞬态分析方法,考察泵轴在随时间变化的载荷作用下的变形和应力分布状况,得出了泵轴断裂点的疲劳安全使用系数。经过计算和研究,给出了一个基于COSMOS软件、应用有限单元法对泵轴的静力、动力的强度、刚度及振动状况进行分析的方法。经验证,此方法得到的数据相对准确且更符合实际,从而具有较好的实用价值和推广应用前景。本文主要从强度、疲劳强度、振动等方面对泵轴断裂原因进行了深入探讨。提出了一种进行立式多级离心泵轴断裂原因和应力分析的新方法。同时,本文提供了大量的分析结果,这对于该类型泵轴的继续研究具有一定的价值。更多还原

【Abstract】 The pump is the most common equipment in the field of chemical industry.And the pump shaft is an important,which takes problem easily and core component. Analyzing the state of the pump shaft forced correctly is very important to ensure safe operation, saving material pump, and the economy of the pump.It is very difficult to find the data of vertical multistage centrifugal pump and fractured pump shaft throughout all kinds of domestic and foreign literature material. At the same time, there is no man research the finite element analysis of vertical multistage centrifugal pump shaft.This paper researches the fractured vertical multistage centrifugal pump shaft.In a traditional shaft designs commonly used formulas related to the design, accuracy is not high, the safety factor is too large, the economy is poor. The finite element technique was applied to the design of shaft parts, especially for checking on the strength of parts, with a strong practicality. COSMOS software is a generic which is very broad, very practical, powerful, widely used in engineering finite element analysis software, in its large number of application areas, mainly for checking the strength of solid components and stress analysis.The topics of this paper is a combination of production practices, the COSMOSWorks finite element analysis module and the SolidWorks 3D modeling software are applied in this paper to analysis the mechanical behavior for failure causes shaft fracture. According to the specific load conditions of Vertical multi-stage centrifugal pump shaft, the paper use the finite element static analysis, dynamic mode and transient analysis methods to analysis and calculate its strength, rigidity, vibration and so on.This paper will focus on performing the following work: According to the situation by force, Carried out on the pump shaft static analysis of, Obtained in the static conditions of the principal stress distribution of, And in accordance with the third and fourth strength theory was checking calculation of its; Using finite element modal analysis method, Estimates derived from the natural frequency of the pump shaft and shaft of the vibration mode; Transient Kinetic Analysis, Inspection shaft at the time-varying loads the deformation and stress distribution of, Reached the breaking point of the pump shaft fatigue usage factor.After calculation and research, Gives a COSMOS-based software, the finite element method to the shaft of static, dynamic strength, stiffness and vibration situation analysis method. Proven, the data obtained from this method is relatively accurate and more realistic, Which has good prospects of practical value and promote the use of.In this paper, from the strength, fatigue, vibration, etc. causes fracture of the shaft in-depth discussions. Put forward a progressive multi-stage vertical centrifugal pump shaft fracture and stress analysis of the reasons for a new method of. At the same time, this article provides a great deal of analysis results, This is to continue research on this type of shaft has a certain value.更多还原