摘要发动机是船舶的心脏也就是最主要的部分,作为连杆,它是承受强烈冲击力压力和动态应力最高的动力学重要负荷部件,船用柴油机的最主要的是其连杆机构,因此校核其强度是最主要的部分。如今大功率船用柴油机在大型船舶领域应广泛应用,随着船用柴油机强化程度向远程、超长行程发展,船用柴油机在运转过程中轴系传递并传递更大的负荷,轴系扭振于复杂,这让船用柴油机轴系扭转振动的研究和计算更加重要56103
此次课题的研究主要可以解决研究成果将示功图测量整合到活塞发动机的研究中,这将对对提高活塞型发动机的设计和改进老旧机型打下了良好的基础,可以提高发动机运动的可靠性、改善护保障性。具有重大的借鉴价值和意义。
主要任务 首先要进行船用柴油机曲轴、连杆三维模型建立析,而后进行工况分析。
毕业论文关键词:连杆;强度分析;有限元
Abstract
The engine is the heart of the ship and is the most important part, as a link, it is the ability to withstand strong impact pressure and dynamic load stress maximum kinetic important parts, marine diesel engine is most important and is its linkage, so check its Strength is the most important part. Today, in the field of large vessels high-power marine diesel engines should be widely applied, with the degree of enhancement of marine diesel engine to the remote, long stroke development, marine diesel engine during operation and deliver greater shafting passing loads, torsional vibration in the complex, This allows marine diesel engine shafting torsional vibration ang calculations are more important for researching .
The main topics of research findings will be resolved dynamometer measurements into the study of piston engines, which will increase the piston-type engine on the design and improvement of old models and lay a good foundation, you can improve engine movement reliability, improve care affordable. It has great reference value and significance.
Main task must first marine diesel engine crankshaft, connecting rod three-dimensional modeling analysis, and then analyzed for working conditions, the final finite are element analysis and optimization.
Keywords : rod; strength analysis; finite element
目 录
摘 要 3
第一章 绪论 7
1.1研究目的与意义 7
1.3 本课题主要研究任务 8
1.4有限元对连杆强度分析的重要性 8
1.5本章小结 9
第二章 有限元理论 10
2.1有限元的基本理论 10
2.2有限元分析一般过程 10
2.3单元体的选择 11
2.4有限元方法在连杆强度分析中的应用 12
2.5 abaqus的简介 13
2.5.1 ANSA介绍 14
2.5.2功能特点 16
2.6本章小结 16
第三章 三维实体的建立及其系统运动仿真 17
3.1.零件三维图及连杆装配体 17
3.2 系统装配体的建立 20
3.4 运动仿真视频 23
3.5本章小结