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Introduction Gypsum and wood are the earliest used as building materials for human.
*Corresponding Author Yanlong Liu, Beihua University Key Laboratory of Wood Materials Science and Engineering of Jilin Province, Professor.
Journal of Shenyang Arch.
New Building Materials, 2003(8):1-3.
Journal of Building Materials, 2005,8(1):94-99.

LS Dyna allows for precise modeling of the dynamic behavior of various materials under crash conditions, providing valuable insights into how different designs and materials enhance vehicle safety.
Shows the material properties of the materials used.
The Comparative Specific Internal Energies of all the three materials is depicted in table 4.
Continual advancements in materials science, coupled with innovations in vehicle design and safety technology, will drive the next generation of electric vehicle safety enhancements.
International Journal of Crashworthiness

In this study, the glass fiber-reinforced composite-laminated materials were used to analyze the stabilities of wind blades, because high specific strength and excellent fatigue characteristics can be obtained by using the composites, especially glass-fiber-reinforced material.
The E-glass/epoxy orthotropic materials DBL800, L900 were employed for construction of composite laminate shell structure.
Acknowledgements This material is based on the works funded by Zhejiang Provincial Natural Science Foundation of China under Grant no.
Nielsen: Journal of Sound and Vibration.
Hureau: Journal of Wind Engineering and Industrial Aerodynamics.

Materials and methods Each piece of test material comprised a sandwich structure, with two layers of PET nonwovens enclosing a layer of PP selvages and nylon geogrid. 7D PET staples were with a length of 51mm and underwent the nonwoven process of opening, combing and lining.
Hsing, Journal of Advanced Materials, Vol. 39 (2007), p. 32 2.
Lin, Advanced Materials Research, Vols. 55-57 (2008), p. 41 3.
Su, Textile Research Journal Vols. 75 ( 2005) p. 390 4.
Lin, Indian Journal of Fiber and Textile Research, Vol. 29 (2004) p.25

Advanced Functional Materials, 21 (2011) 441-447
Advanced Materials, 18 (2006) 1170
Journal of Mateials Science, 20 (1985) 730-735 [14] Y.
Journal of Electronic Materials, 38 (2009) 1504-1509
Inorganic Materials, 43 (2007) 1184-1186.

Compared with single-phase electrolyte materials, composite electrolyte materials show better performance at low temperatures.
Research progress of electrolyte materials for solid oxide fuel cells.
Research progress of intermediate temperature solid oxide fuel cell materials.
Oxide ion and proton conduction in doped ceria-carbonate composite materials.
Materials Letters, 2013, 92: 78-81.

Homoepitaxial Growth on Si-Face (0001) On-Axis 4H-SiC Substrates Guo-Guo Yan1,a, Xing-Fang Liu1,b, Feng Zhang1,2,c*, Zhan-Wei Shen1,d, Wan-Shun Zhao1,e, Lei Wang1,f, Ying-Xin Cui3,g, Jun-Tao Li3,h and Guo-Sheng Sun1,2,i 1Key Laboratory of Semiconductor Material Sciences, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China 2College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing 100049, China 3Microsystem and Terahertz Research Center, China Academy of Engineering Physics, Chengdu, 610200, China aggyan@semi.ac.cn, bLiuxf@semi.ac.cn, cfzhang@semi.ac.cn, dshenzhanwei@semi.ac.cn, ezwshuke@semi.ac.cn, fwangl@semi.ac.cn, gcuiyingxin@mtrc.ac.cn, hlijuntao@mtrc.ac.cn, igshsun@semi.ac.cn * fzhang@semi.ac.cn Keywords: on-axis, SiC, chemical vapor deposition, homoepitaxial growth.
General epitaxial growth is performed on off-axis 4H-SiC(0001) substrates, which would raise the cost of materials and devices, reduce the performance and reliability of the device because of the basal plane dislocations reproduction[4, 5].
Acknowledgement This work is supported by Science Challenge Project (No.
Song, Fabrication of 4H-SiC n-channel IGBTs with ultra high blocking voltage, Journal of Semiconductors 39 (2018) 034005
Deviny, Impact of design and process variation on the fabrication of SiC diodes, Journal of Semiconductors 39 (2018) 114001

Carbon nanotube(CNT) is a new type of nanoscale materials, which has excellent adsorption and mechanical properties.
Carbon nanotube which found by the Japanese scientist LiJima in 1991, is a new type of nanoscale materials [3].
Experimental Materials Raw materials: silk fiber (Southwest University, Chongqing, China), carbon nanotube (Shenzhen nano harbour Corporation Ltd).
[2] Han Zhang, Jun Magoshi, Mary Beckers, et al: Journal of Applied Polymer Science.
[8] Yudong Xin, Xiaodong Liu: Journal of donghua university of science and technology.

PRODUCTION OF Li2O-ZrO2-SiO2-Al2O3 (LZSA) GLASS-CERAMIC FOAMS BY AERATION AND POLYMERIZATION OF SUSPENSION Ida Eunice Favarin Pozzobom1,2a, Mariana de Souza2b, João Batista Rodrigues Neto1,2c, Fabiano Raupp-Pereira1,2d, Eliandra de Sousa Trichês2,3e, Antonio Pedro Novaes de Oliveira1,2f 1Graduate Program in Materials Science and Engineering (PGMAT) 2Laboratory of Glass-Ceramic Materials (VITROCER) Department of Mechanical Engineering (EMC) Federal University of Santa Catarina (UFSC) Campus Universitário – Trindade, 88040-900 Florianópolis, SC, Brazil 3Department of Science and Technology Federal University of São Paulo (UNIFESP) 12231-280, São José dos Campos, SP, Brazil aida@ifsc.edu.br, bsouzaamarina@gamil.com, cjbrn@gmail.com, draupppereira@yahoo.com.br, eeliandra.sousa@gmail.com, fpedronovaes@emc.ufsc.br Keywords: glass-ceramic foams, gelcasting, porous ceramics.
The morphological, physical and mechanical properties of the consolidated glass-ceramic foams indicated that the process of gelcasting may be a valid alternative to produce porous materials for applications at temperatures lower than 950°C.
Binner: Journal of the European Ceramic Society Vol.19 (1999), p. 2059
Huang: Journal of the European Ceramics Society Vol. 31 (2011), p. 2569
Franks: Journal of the Ceramic Society of Japan Vol. 119 (2011), p. 147

Experimental section Materials.
Gonzalez: Beam Interactions with Materials & Atoms, Vol. 236 (2005), p.338
Masuhara: Journal of Applied Polymer Science, Vol. 43 (1991), p.553
Wen-Kuei: Journal of Applied Polymer Science, Vol. 30 (1985), p.1023
Meltem: Journal of Applied Polymer Science.Vol. 94 (2004), p. 1519