薄壁金属球壳及其组元压缩大变形研究  被引量:1

LARGE DEFORMATION STUDY OF THIN-WALL METAL SPHERICAL SHELL AND ITS COMPONENTS UNDER COMPRESSION

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作  者:梁希[1] 李慧剑[1] 余为[1] 何长军[1] 姜鑫[1] 

机构地区:[1]燕山大学建筑工程与力学学院工程力学系,秦皇岛066004

出  处:《机械强度》2013年第1期89-93,共5页Journal of Mechanical Strength

基  金:河北省自然科学基金(E2011203230);河北省高等学校科学研究计划(2010166)资助~~

摘  要:对薄壁金属球壳及组元模型(SC(square cumulation)、HC(hexagonal cumulation)和FC(face-centered cumulation)三种组元模型)进行大变形压缩研究,分别得出各自的压缩力学性能:单个球壳受单轴压缩其名义应力应变关系初始为线性,然后会出现两次局部屈曲,在变形过大时会发生非轴对称变形;SC、HC和FC三种组元模型压缩名义应力、应变关系初始也呈线性,然后趋于平缓,其中SC和HC组元发生了非对称变形,而FC组元发生了对称变形;得出各自的名义弹性模量和屈服极限。以上内容对空心球基多胞材料的研究和应用具有参考意义。Large deformation of thin-wall metal spherical shell and its components under compression were studied to investigate compressed mechanical properties of each models: When single spherical shell was compressed, its nominal stressstrain curve showed linear condition first, afterwards two topo-unstabilities appeared. Non-axisymmetrical deformation appeared when deformation was large enough. Three component models ( SC ( square cumulation) , HC ( hexagonal cumulation) and FC (face-centered cumulation) ) were compressed. Their nominal stress-strain curve showed linear condition first, afterwards tended to gentle. SC and HC component models showed non-symmetry deformation, and FC component model showed symmetry deformation. The nominal elastic modulus and yield stress were investigated. Above experimental and numerical findings may provide a reference for study and application of this kind of cellular material.

关 键 词:多胞材料 球壳 大变形 单轴压缩 

分 类 号:TB301[一般工业技术—材料科学与工程] TB383

 

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