振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2015年
12期
7-12
,共6页
冯振宇%赵彦强%陈艳芬%解江
馮振宇%趙彥彊%陳豔芬%解江
풍진우%조언강%진염분%해강
复合材料薄壁结构%吸能特性%不确定性%区间模型%有限元分析
複閤材料薄壁結構%吸能特性%不確定性%區間模型%有限元分析
복합재료박벽결구%흡능특성%불학정성%구간모형%유한원분석
thin-walled composite structures%energy-absorbing characteristics%uncertainty%interval model%finite element analysis
由于复合材料性能分散度大、加工精度较低,为复合材料薄壁吸能结构引入了不可忽略的不确定性因素,为此,提出了一种含不确定参数的复合材料薄壁结构吸能特性的评估方法并进行了算例研究。复合材料薄壁圆管是一种典型的吸能元件,圆管的壁厚和内径是对其吸能特性有显著影响的特征几何尺寸,考虑了这两个参数的不确定性,在准静态压溃的条件下评估了薄壁圆管的引发比应力和比吸能这两个关键吸能指标。首先,利用区间分布来描述壁厚和内径的不确定性,其次应用有限元方法建立区间内不确定参数和结构吸能特性指标间的二阶响应面函数,最后对响应面函数进行区间摄动从而确定吸能特性指标的分布区间。算例研究结果显示,与比吸能相比,引发比应力受壁厚和内径不确定性的影响更大。此外,相比于内径,壁厚的不确定性对吸能特性影响更显著,因此为获得稳定的结构吸能特性应尽量提高复合材料圆管壁厚的加工精度。
由于複閤材料性能分散度大、加工精度較低,為複閤材料薄壁吸能結構引入瞭不可忽略的不確定性因素,為此,提齣瞭一種含不確定參數的複閤材料薄壁結構吸能特性的評估方法併進行瞭算例研究。複閤材料薄壁圓管是一種典型的吸能元件,圓管的壁厚和內徑是對其吸能特性有顯著影響的特徵幾何呎吋,攷慮瞭這兩箇參數的不確定性,在準靜態壓潰的條件下評估瞭薄壁圓管的引髮比應力和比吸能這兩箇關鍵吸能指標。首先,利用區間分佈來描述壁厚和內徑的不確定性,其次應用有限元方法建立區間內不確定參數和結構吸能特性指標間的二階響應麵函數,最後對響應麵函數進行區間攝動從而確定吸能特性指標的分佈區間。算例研究結果顯示,與比吸能相比,引髮比應力受壁厚和內徑不確定性的影響更大。此外,相比于內徑,壁厚的不確定性對吸能特性影響更顯著,因此為穫得穩定的結構吸能特性應儘量提高複閤材料圓管壁厚的加工精度。
유우복합재료성능분산도대、가공정도교저,위복합재료박벽흡능결구인입료불가홀략적불학정성인소,위차,제출료일충함불학정삼수적복합재료박벽결구흡능특성적평고방법병진행료산례연구。복합재료박벽원관시일충전형적흡능원건,원관적벽후화내경시대기흡능특성유현저영향적특정궤하척촌,고필료저량개삼수적불학정성,재준정태압궤적조건하평고료박벽원관적인발비응력화비흡능저량개관건흡능지표。수선,이용구간분포래묘술벽후화내경적불학정성,기차응용유한원방법건립구간내불학정삼수화결구흡능특성지표간적이계향응면함수,최후대향응면함수진행구간섭동종이학정흡능특성지표적분포구간。산례연구결과현시,여비흡능상비,인발비응력수벽후화내경불학정성적영향경대。차외,상비우내경,벽후적불학정성대흡능특성영향경현저,인차위획득은정적결구흡능특성응진량제고복합재료원관벽후적가공정도。
Due to the large dispersion of material properties and inherent machining tolerance,uncertain factors should be considered in designing and analyzing composite structures.An evaluation method for energy-absorbing characteristics of thin-walled composite structures with uncertain parameters was proposed and developed herein.Thin-walled composite tubes extensively applied in automobile and aircraft engineering are typical crushable elements for absorbing collision energy.The uncertainties due to machining tolerance of thickness and inner diameter of a tube were considered in the present paper and represented by an interval model.Triggering Specific Stress (TSS)and Specific Energy Absorption (SEA) were concerned and calculated by finite element method for indicating energy-absorbing characteristics of the specimen under quasi-static axial crushing.Response surface method was then used to build a second-order function between uncertain parameters and the two indicators of energy-absorbing characteristics.Interval perturbation of the response surface function was at last performed to establish the intervals of TSS and SEA respectively. The results show that,compared to SEA,TSS is more affected by the uncertainty of wall thickness and inner diameter.In addition,the effect of uncertainty of wall thickness on energy-absorbing characteristics is more significant than that of inner diameter.The investigation reveals that the machining tolerance of composite tube should be limited as low as possible to keep designed energy-absorbing characteristics.
