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主管单位:ELSEVIER SCI LTD.
主办单位:ELSEVIER SCI LTD. 国内刊号: 国际刊号:ISSN:0264-1275 杂志类型:Supports Open Access 期刊查询:SCI-E Compendex 期刊级别:SCI-E Compendex 
期刊简介
Modern engineered materials play a central role in enabling technological designs that underpin, advance and revolutionise engineering practice. Materials & Design seeks to publish reports of materials research that present applicable advances in the insight into structure and function, and provide useable and reproducible recipes for the synthesis, preparation, characterisation, modelling and exploitation of new metallic alloys, ceramics, polymers, coatings, composites and bio-materials systems.
Today's products and their constituent components and structures have to meet increasingly stringent requirements during operation. The economic and human costs of failure during service impose a great deal of responsibility on organisations and individuals who select and integrate materials in a final engineering design. A critical feature of successful product development is the judicious selection of the best materials based on informed awareness of the capabilities and opportunities afforded by all candidates, coupled with a design that takes full advantage of their properties. A further aim of Materials & Design is to promote a greater knowledge and understanding of the attributes and capabilities of all types of modern engineering materials in the context of engineering design.
投稿要求
In order to help the authors, reviewers and editors identified those directions of research that match the existing and future thematic threads in Materials & Design, to compile a list of priority areas that are of particular interest to the readers of the journal. These are:
(1)Micro- and nano-scale multi-physics phenomena, and the analysis structure, morphology, and the role of interfaces in relation to design at all scales, e.g. electrochemical energy storage, phase transformation and associated processes; (2)Operando and in situ studies of processes and structural evolution; (3)Processing of alloys and compounds for microstructure and property control, e.g. friction stir and severe plastic deformation; (4)Lightweight materials, e.g. alloys containing magnesium and lithium, as well as composites of all types of matrix (polymer, metal and ceramic) and reinforcement, including continuous and discontinuous fibres, low aspect ratio inclusions and nano-structured reinforcements; (5)Multifunctional materials, e.g. alloys, polymers and ceramics displaying shape memory effects, as well as bio-composites, composites of green or sustainable origin, and biomimetic materials; (6)Intelligent materials design to optimise performance, including hierarchical microstructural optimisation, self-healing, energy absorption, for durability, against damage and environmental extremes. 
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