黑龙江科技学院学报
黑龍江科技學院學報
흑룡강과기학원학보
JOURNAL OF HEILONGJIANG INSTITUTE OF SCIENCE & TECHNOLOGY
2012年
4期
397-402
,共6页
边文凤%苗会文%白光辉%程杰
邊文鳳%苗會文%白光輝%程傑
변문봉%묘회문%백광휘%정걸
水下爆炸%冲击波%静态%等效%载荷
水下爆炸%遲擊波%靜態%等效%載荷
수하폭작%충격파%정태%등효%재하
underwater explosion%shock wave%static%equivalent%load
水下爆炸对水中结构物的作用一是直接压力,另一个是使结构物产生速度和加速度,而且,不仅仅是结构物产生速度和加速度,其附加质量(也称附连水质量)也产生相应的加速度,即:爆炸要同时改变结构物和附加质量的动能与动量。水下爆炸作用下结构物的响应研究极其复杂,计算量极大。如果能采用静态等效的方法分析结构的响应,不但使结构分析过程得到简化,更重要的是为结构设计提供一个等效载荷值和施加方法。根据能量原理、动量原理和达朗贝尔原理,给出了水下爆炸载荷静态等效研究的分析方法和计算方法,并通过算例对该算法进行了验证。结果表明:提出的静态等效方法可行。
水下爆炸對水中結構物的作用一是直接壓力,另一箇是使結構物產生速度和加速度,而且,不僅僅是結構物產生速度和加速度,其附加質量(也稱附連水質量)也產生相應的加速度,即:爆炸要同時改變結構物和附加質量的動能與動量。水下爆炸作用下結構物的響應研究極其複雜,計算量極大。如果能採用靜態等效的方法分析結構的響應,不但使結構分析過程得到簡化,更重要的是為結構設計提供一箇等效載荷值和施加方法。根據能量原理、動量原理和達朗貝爾原理,給齣瞭水下爆炸載荷靜態等效研究的分析方法和計算方法,併通過算例對該算法進行瞭驗證。結果錶明:提齣的靜態等效方法可行。
수하폭작대수중결구물적작용일시직접압력,령일개시사결구물산생속도화가속도,이차,불부부시결구물산생속도화가속도,기부가질량(야칭부련수질량)야산생상응적가속도,즉:폭작요동시개변결구물화부가질량적동능여동량。수하폭작작용하결구물적향응연구겁기복잡,계산량겁대。여과능채용정태등효적방법분석결구적향응,불단사결구분석과정득도간화,경중요적시위결구설계제공일개등효재하치화시가방법。근거능량원리、동량원리화체랑패이원리,급출료수하폭작재하정태등효연구적분석방법화계산방법,병통과산례대해산법진행료험증。결과표명:제출적정태등효방법가행。
Underwater explosion exerts two effects on underground structure;one is the direct-pressure;the other is giving the underground structure both velocity and acceleration in such a way that both the structure itself and the added mass(added mass of entrained water) is given acceleration,namely the fact that underwater explosion causes a change in the kinetic energy and the momentum in both the structure and the added mass.It follows that the research into the response of structure acted on by underwater explosion poses a very complicated task involving considerable calculation.The analysis of the response of structure using an equivalent static analysis method could not only simplifies the structure analysis,but also produces an equivalent load value and application measure for structure design.This paper features methods designed for the analysis and calculation of equivalent static load of underwater explosion,based on the principle of energy and momentum as well as d'Alembert principle.The results verify the feasibility of this method.