强度与环境
彊度與環境
강도여배경
STRUCTURE & ENVIRONMENT ENGINEERING
2014年
6期
38-44
,共7页
张翼%刘献伟%杨晨%王文博
張翼%劉獻偉%楊晨%王文博
장익%류헌위%양신%왕문박
导弹吊挂%疲劳寿命计算%影响因素分析%S-N曲线
導彈弔掛%疲勞壽命計算%影響因素分析%S-N麯線
도탄조괘%피로수명계산%영향인소분석%S-N곡선
hanging of missile%fatigue life prediction%influencing factors analysis%S-N curve
针对空空导弹吊挂在挂飞过程中承受多种复杂多变的载荷(如挂飞振动载荷、机动抖振载荷、起飞着陆冲击载荷等)产生的疲劳破坏问题,研究利用仿真计算其疲劳寿命。在总结国内外最新疲劳理论研究的基础上,提出了基于有限元的时域和频域相结合的疲劳分析方法,在空空导弹吊挂的疲劳研究上形成了一套较为完善的分析流程。以某型空空导弹吊挂为研究对象,对其结构及工况特点进行了探讨和分析,借助Msc. Fatigue软件平台建立了吊挂的疲劳损伤模型,结合S-N曲线,计算出其疲劳损伤及其疲劳寿命,并总结出吊挂疲劳寿命的主要影响因素,对具体的型号研制工作有一定的指导意义和工程应用价值。
針對空空導彈弔掛在掛飛過程中承受多種複雜多變的載荷(如掛飛振動載荷、機動抖振載荷、起飛著陸遲擊載荷等)產生的疲勞破壞問題,研究利用倣真計算其疲勞壽命。在總結國內外最新疲勞理論研究的基礎上,提齣瞭基于有限元的時域和頻域相結閤的疲勞分析方法,在空空導彈弔掛的疲勞研究上形成瞭一套較為完善的分析流程。以某型空空導彈弔掛為研究對象,對其結構及工況特點進行瞭探討和分析,藉助Msc. Fatigue軟件平檯建立瞭弔掛的疲勞損傷模型,結閤S-N麯線,計算齣其疲勞損傷及其疲勞壽命,併總結齣弔掛疲勞壽命的主要影響因素,對具體的型號研製工作有一定的指導意義和工程應用價值。
침대공공도탄조괘재괘비과정중승수다충복잡다변적재하(여괘비진동재하、궤동두진재하、기비착륙충격재하등)산생적피로파배문제,연구이용방진계산기피로수명。재총결국내외최신피로이론연구적기출상,제출료기우유한원적시역화빈역상결합적피로분석방법,재공공도탄조괘적피로연구상형성료일투교위완선적분석류정。이모형공공도탄조괘위연구대상,대기결구급공황특점진행료탐토화분석,차조Msc. Fatigue연건평태건립료조괘적피로손상모형,결합S-N곡선,계산출기피로손상급기피로수명,병총결출조괘피로수명적주요영향인소,대구체적형호연제공작유일정적지도의의화공정응용개치。
The airborne missile hanging is subject to various complex load (such as durability vibration load , dithering vibration load, impact load of take off and landfall, etc) in flight, which led to the problem of its fatigue failure, aiming at this problem ,we figure up its fatigue life by using means of simulation. Time-domain and frequency-domain method in terms of finite element analysis is presented to investigate the fatigue life of the missile hanging after reviewing the new fatigue theory at home and abroad. A relatively complete analysis process is formed on fatigue research of the airborne missile hanging. In this paper, on the basis of a airborne missile hanging, its structure and working conditions are analyzed, its S-N curve is fitted out, and the fatigue damage model based on the software of Msc. Fatigue is constructed, from which, the fatigue damage and the fatigue life are predicted. In addition, the main influence factors and influence law of the fatigue life are indicated. The research of this paper has certain actual application value and definite direction significance in later development of projects.