Quasi-static compression response of foldcore sandwich structure based on core evolution

IF 3.6 3区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Yunfei Deng, Shitong Zhang
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引用次数: 0

Abstract

Due to its superior performance, the foldcore structure has the potential to replace traditional honeycomb materials. Single-ridgeline V-shaped, double-ridgeline M-shaped, and curved S-shaped foldc...
基于核心演化的折芯夹层结构准静态压缩响应
由于性能优越,折芯结构有可能取代传统的蜂窝材料。单脊线 V 型、双脊线 M 型和弧形 S 型折叠芯结构可用于各种不同的应用。
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来源期刊
Mechanics of Advanced Materials and Structures
Mechanics of Advanced Materials and Structures 工程技术-材料科学:表征与测试
CiteScore
5.30
自引率
17.90%
发文量
405
审稿时长
12 months
期刊介绍: The central aim of Mechanics of Advanced Materials and Structures ( MAMS) is to promote the dissemination of significant developments and publish state-of-the-art reviews and technical discussions of previously published papers dealing with mechanics aspects of advanced materials and structures. Refereed contributions describing analytical, numerical, and experimental methods and hybrid approaches that combine theoretical and experimental techniques in the study of advanced materials and structures are published, along with critical surveys of the literature and discussions of papers in the field. Mechanics of layered structures, with layers of any materials (metallic, foams, piezoelectric, composites, ceramic, functionally graded, etc.) at various scales, milli/micro/nano-meter is of MAMS interest. Applications to structures subjected to mechanical, thermal, electrical, magnetical, hygrothermal, etc., as well as any coupled combinations of these all are of interests for MAMS. That is mechanics of multi-fields problems at various scale are of interest for MAMS, including fluid-strictures interactions. Static and dynamic as well linear and nonlinear problems are of interest; advanced development of new materials with applications to automotive, civil, marine, aeronautical, space and bioengineering structures at various scales are of interest of this journal. Of special interest are methods and techniques for a better understanding of mechanics of metamaterials as well as the interaction with additive manufacturing technologies.
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