摘要高科技军事装备的飞速发展给引信提出了更高的要求,引信在高过载、宽脉冲的环境下工作的可靠性和时序正确性的检测尤为重要,而现有的几种冲击试验方法各有优势和不足,因此设计空气击锤试验装置以满足测试需要。本文围绕装置的工作原理、动力学分析、电路设计以及试验操作四个方面展开。61132
分析空气击锤试验装置的结构、工作原理及工作过程
动力学分析,应用微积分和软件编程对膛内运动过程进行理论分析计算,运用ANSYS/LS-DYNA软件进行有限元模拟仿真,完成强度校核。
进行试验操作,总结试验数据并与仿真结果对比,验证设计的可行性。
毕业论文关键词 动力学 有限元 电路
毕业设计说明书(论文)外文摘要
Title The Dynamic Analysis And Optimization Of Air Hammer Test Device
Abstract
The rapid development of high-tech military equipment leads to higher requirement of the fuze. The testing of the reliability of the fuze in the environment of high overload and wide pulse and timing correctness is particularly important. However, the existing shock test methods have their own advantages and disadvantages so air hammer test equipment is designed to meet the testing needs. This paper focuses on four aspects of the equipment: operational principle, dynamic analysis, circuit design and test and operation.
Operational principle---analyzing the structure, working principle and working process of air hammer test device.
Dynamic analysis---conducting theoretical analysis and calculation of the movement in the bore by applying Calculus and software programming. This paper also employs ANSYS/LS-DYNA to carry out the simulation of finite element in order to complete the strength check.
Circuit design---designing the electronic-control-system circuit of the device thereby realizing automatic control.
Test and operation---conducting tests, summarizing test data and comparing with the outcome of simulation in order to verify the feasibility of the design.
Keywords dynamics FEM circuit
目 次
1 引言 1
1.1 研究背景 1
1.2 引信发展现状及趋势 1
1.2.1 先进引信技术发展特点与趋势 1
1.2.2 我国引信技术发展现状 3
1.3 冲击过载试验技术研究现状 4
1.3.1 关于撞击和侵彻现象的研究 4
1.3.2 几种冲击过载试验方法 5
1.4 本论文主要研究内容 7
2 空气击锤装置工作原理 8
2.1 概述 8
2.2 空气击锤试验装置设计方案 9
2.2.1 试验台的机械结构设计 10
2.2.2 测量与控制系统设计 10
2.3 装置工作过程及原理 11
2.4 本章小结 11
3 系统动力学仿真分析 12
3.1 理论分析与计算 12
3.1.1 试验弹膛内运动