Published September 2002
by Tms .
Written in English
|Contributions||A. K. Ghosh (Editor), T. H., Jr. Sanders (Editor), T. D. Claar (Editor)|
|The Physical Object|
|Number of Pages||275|
Cellular solids and porous metals have become the most promising lightweight multifunctional materials, being used in a wide range of commercial, biomedical, industrial and military applications. This is due to the superior combination of properties derived from their porous cellular structures together with the excellent properties of the metals. Cellular metal is an ideal energy absorbing material which is extensively used in passive safety area. This paper investigates the manufacturing process and mechanical properties of a novel periodic cellular metal with three-dimensional closed cubic ercangenc.com: Qiyang Zuo, Qiyang Zuo, Kai He, Kai He, He Mao, He Mao, Xiaobing Dang, Ruxu Du, Ruxu Du. This collection constitutes an essential sourcebook for researchers, producers and users seeking technical information on materials with foam-like ercangenc.com collection is unique, in that it brings together people from the fields of metals and polymers. Both material types derive their advantageous properties from a cellular structure. Lightweight cellular metals are low-density materials with multifunctional attributes that make them appealing for numerous uses, including thermal and acoustic insulation, energy absorption (crash protection), lightweight structural sandwich panels (as the core material), and vibration damping ercangenc.com by: 1.
The book, authored by leading experts in this emerging field, gives an overview of the main aspects related to the processing of diverse cellular ceramic structures, methods of structural and. CMI is a pioneer of high-performance Periodic Cellular Materials, also known as PCMs. These structures can be engineered to exhibit both low density and high strength. Inspired by lightweight cellular structures found in nature, PCMs are able to address the often conflicting requirements of reducing weight in mission-critical applications while maintaining superior structural performance. Dr. Murr's expansive presentation of topics in Materials Properties and Performance: A Handbook for Engineers & Scientists explores inter-relationships among materials properties, processing, and synthesis (both historic and contemporary) while maintaining a highly readable “narrative” style and an encyclopedic breadth of coverage. Cellular Materials: Structural Behaviour, Modelling and Characterisation I. Duarte, N. Peixinho, A. Andrade-Campos, R. Valente 5 PREFACE Cellular materials (both natural and artificial) are regarded as one of the most promising classes of multifunctional lightweight materials for industrial applications in a wide variety of sectors (e.g.
This expansive presentation of topics explores interrelationships among properties, processing, and synthesis (historic and contemporary). The book serves as both an authoritative reference and roadmap of advanced materials concepts for practitioners, graduate-level students, and faculty coming from a range of ercangenc.com by: 8. New multifunctional lightweight materials based on cellular metals – manufacturing, properties and applications The increasing interest in cellular metals is due to the fact that the Since these materials cover various types of structures and a wide range of pore sizes and porosities. Advantages in ultra-light structures, heat dissipation, vibration control, and energy absorption Cellular metals have the highest energy absorption per unit mass of any material. Properties of cellular materials are sensitive to the microstructure of the cells. Cellular Materials • Methods of Fabrication • Establishing relations between. Cellular metal for lightweight design based on textile wire structures S. 1Kaina, B. 2Kieback1, W Regularly arranged cellular metals with truss-type inner structures like pyramidal lattice truss structures , wire-woven bulk kagome compression test of sandwich structures The mechanical properties determined and compared to sandwich.