固体火箭技术
固體火箭技術
고체화전기술
JOURNAL OF SOLID ROCKET TECHNOLOGY
2014年
4期
541-544
,共4页
原梅妮%杨延清%弓巧娟%李超%郎贤忠%范学领
原梅妮%楊延清%弓巧娟%李超%郎賢忠%範學領
원매니%양연청%궁교연%리초%랑현충%범학령
金属基复合材料%微观结构%有限元方法%动态力学性能
金屬基複閤材料%微觀結構%有限元方法%動態力學性能
금속기복합재료%미관결구%유한원방법%동태역학성능
metallic composites%microstructure%finite element method%dynamic behavior
借助图像处理和识别技术,建立复合材料真实微观结构的有限元模型,并运用该模型分析计算SiCp/2024Al复合材料在应变速率为200~14000 s-1下的动态力学性能。在真实微观结构的有限元模型中,无规则的SiC颗粒自由分布在铝合金基体材料中,SiC颗粒形貌保持原状。有限元模拟结果表明,动态压缩过程中,低体积分数的SiCp/2024Al复合材料流变应力随着应变速率的增加呈现先升高后降低的趋势。在较高应变率下,SiCp/2024Al复合材料流变应力出现降低趋势是由于复合材料内部损失或铝合金基体热软化甚至局部熔化导致的。当应变低于0.62时,带有棱角的SiC颗粒比圆形SiC颗粒强化效果好,当应变大于0.62时,情况正好相反。
藉助圖像處理和識彆技術,建立複閤材料真實微觀結構的有限元模型,併運用該模型分析計算SiCp/2024Al複閤材料在應變速率為200~14000 s-1下的動態力學性能。在真實微觀結構的有限元模型中,無規則的SiC顆粒自由分佈在鋁閤金基體材料中,SiC顆粒形貌保持原狀。有限元模擬結果錶明,動態壓縮過程中,低體積分數的SiCp/2024Al複閤材料流變應力隨著應變速率的增加呈現先升高後降低的趨勢。在較高應變率下,SiCp/2024Al複閤材料流變應力齣現降低趨勢是由于複閤材料內部損失或鋁閤金基體熱軟化甚至跼部鎔化導緻的。噹應變低于0.62時,帶有稜角的SiC顆粒比圓形SiC顆粒彊化效果好,噹應變大于0.62時,情況正好相反。
차조도상처리화식별기술,건립복합재료진실미관결구적유한원모형,병운용해모형분석계산SiCp/2024Al복합재료재응변속솔위200~14000 s-1하적동태역학성능。재진실미관결구적유한원모형중,무규칙적SiC과립자유분포재려합금기체재료중,SiC과립형모보지원상。유한원모의결과표명,동태압축과정중,저체적분수적SiCp/2024Al복합재료류변응력수착응변속솔적증가정현선승고후강저적추세。재교고응변솔하,SiCp/2024Al복합재료류변응력출현강저추세시유우복합재료내부손실혹려합금기체열연화심지국부용화도치적。당응변저우0.62시,대유릉각적SiC과립비원형SiC과립강화효과호,당응변대우0.62시,정황정호상반。
Using the information of image processing and recognition,a microstructure-based finite element model ( FEM) is es-tablished to evaluate the dynamic properties of SiCp/2024Al composites at strain rates ranging from 200 to 14 000 s-1.In the micro-structure-based model,the irregular SiC particles are randomly distributed in the metal matrix.The results show that the flow stress of SiCp/2024Al composites with low particle volume fraction increases firstly to a maximum value and then decreases with the increas-ing of strain rate during adiabatic compression.The probable reason for the reduction of flow stress is that the inner damage and the heat softening of composites play a key role in the dynamic behavior of SiCp/2024Al composites at higher strain rates.Moreover,the configurations of SiC particles have dominate influence on the dynamical behavior of SiCp/2024Al composites. In particular,in cases of smaller strain (less than 0.62), the angular particles have better strengthening effect than those of circle particles,however,in contrast,the strengthening effect of circle particles is more remarkable.
