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Performance Study of Fiber Reinforced New Lightweight Insulation Materials Huanqi Zhao, Guozhong Lia* Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, School of Material Science and Engineering, University of Jinan, Jinan, Shandong, China a mse_ligz@ujn.edu.cn, * correspondence author Keywords: lightweight insulation materials; glass fiber; mechanical properties; coefficient of thermal conductivity.
Cement-based lightweight insulation materials were made.
Cement and fly ash are main raw materials.
Cement are main raw materials.
[2] Lihe Zhang, Muhua Tan, MA Yi-ping, et al, in: Study on interface bonding of PP fiber cement and antishringkage performance, edited by Journal of Building Materials, Vol. 18(1) (2001), p. 17-21.

Synthesis and electrochemical properties of Li4Ti5O12/CuO anode material for Li-ion batteries Ji-Ping Zhu1, a, Guang Yang1, b, Jun-jie Zhao1, c, Qing-song Wang1, d, and Hong-wei Yang1, e 1School of Materials Science and Engineering, Hefei University of Technology, Hefei 230009, P.
At present, the anode materials for those batteries are various kinds of carbon materials, such as graphite, coke and MCMB (Mesocarbon microbeads).
Science, 324, 5930(2009), pp. 1051-1055
Advanced Materials, 20, 6(2008), pp. 1160-1165
Materials Chemistry and Physics, 101, 2-3(2007), pp. 372-378

Experimental Materials Pineapple leaf fiber was provided by Assoc.
Natural Cellulose Materials for Supercapacitors.
Journal of Material Science, 47 (2012), 4236–4250
Advanced Science. 3 (2016), 1-20
Materials, 2 (2009), 2369-2403

The Preparation and Property of Organic Solvent Lignin and PVC Composite Materials Ping Qingwei 1,a, Xiao Jing 2 b and zhao Jian3 1,2,3 Dalian Polytechnic University, Dalian, China, 116034 a pingqw@dlpu.edu.cn, bxiaotonglala@126.com Keywords: lignin, organic solvent lignin, polyvinyl chloride (PVC), composite materials Abstract.
Experimental Instruments and materials.
Lignin content on PVC/lignin composite materials flexural strength.
References [1] Xu yongjian, zhang meiyun.Transactions of China Pulp and Paper,2007,22(2):86～89(In Chinese) [2] W Thielemans,E Can,S S Morye,et a1.Journal of Applied Polymer Science,2002,83(2),323～331 [3] Ma Cunqian ,Xu Jing, Hong Jinxiang and Liu Jiaping.
Journal of Applied Polymer Science，2001,(79):72～79 [5] John J Meister.

Series: Materials Science and Engineering 971 042039
Series: Materials Science and Engineering 971 042016
Series: Materials Science and Engineering 709 033015
Series: Materials Science and Engineering 971 042015
Series: Materials Science and Engineering 971 042049

Influences of Emulsion on Water Resistance of Vitrified Micro Bubbles Thermal Insulation Material Jiang Zhu, Guozhong Li a* Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, School of Material Science and Engineering, University of Jinan, Jinan 250022, Shandong, China amse_ligz@ujn.edu.cn, *correspondence author Keywords: vitrified micro bubbles, thermal insulation material, softening coefficient, water absorption.
Introduction In China, organic heat preservation materials have been widely used in Exterior Insulation And Finish System, however, potential security risks exist in fire safety since these organic materials are flammable [1-4].
Cementing materials were composed of rapid hardening sulphoaluminate cement of 42.5R, fly ash of grade I and sodium silicate.
In material mixing process, surfaces of the bead are coated with cementing materials.
References [1] QIAN Bo-zhang and ZHU Jian-fang: Construction Conserves Energy Construction Conserves Energy (2009), p.57 [2] Gu Tian-shu, Xie Lian-yu and Chen Ge: Engineering Mechanics (2006), p.167-168 [3] LI Zhu, ZHANG Ze-ping, LIU Yuan-zhen et al: Engineering Mechanics (2006), p.141-143 [4] SONG Chang-you, HUANG Zhen-li, JI Guang-qi et al: Building Science (2008), p.1-7 [5] SU Xneyun, SU Maoyao: Journal of The Chinese Ceramic Society Vol. 30(2002), p.135-137 [6] Zhang Shui, Li Guozhong: Wall Materials Innovation & Energy Saving in Buildings (2011), p.33-39 [7] LI Qi-jin, LI Guo-zhong, YU Xiang-ji et al: Block-Brick-Tile (2012), p. 25-27 [8] ZHANG Guo-hui, GUAN Rui-fang, LI Jian-quan et al: Journal of Jinan University (Science and Technology) Vol. 20(2)(2006), p.116-120

Both have similar places, such as two-dimensional printing inks and other materials is sprayed on printing materials, the general thickness is not high, a few microns.
Printing materials and printing accuracy have greatly improved.
Printed material from the stone, metal material to the current mainstream polymer materials can be applied.
Journal of Electronics World. 2013 (7)7-8
Advanced Materials, 2013 (13):123-124.

Study on CO2 Sequestration Property of Cement Based Composite Cementitious Materials Containing Steel Slag Used in Road Yingli Gao1, a, Ling Cheng1, b 1Changsha University of Science and Technology, School of Transportation Engineering , Changsha, China, 410114 ayingligao@126.com, bchenglinglike@163.com Keywords: carbon dioxide; steel slag; cement; composite cementitious materials; sequestration Abstract.
Experimental Raw materials.
Therefore, the CO2 sequestration property of composite cementitious materials is lower than pure steel slag.
Z.Wu: Journal of The Chinese Ceramic Society Vol. 38 (2010), p. 1185-1190.
X.Shao: Journal of The Chinese Ceramic Society Vol. 38 (2010) p. 1645-1651.

Journal of Nuclear Materials, 2004, 329-333: 66-73 4.
Computational Materials Science. 1998(13) 42-55 11.
Materials Science and Engineering A 2003; 362: 81-105. 13.
Journal of Materials Science 2000; 35: 477- 486. 14.
Journal of Materials Science 2007; 42: 30-39. 15.

Journal of Applied Optics, 2007, 28(1): 43-46
Materials Review, 2006, 20(2):5
Materials Review, 2007, 21(2):5-9
Journal of Inorganic Materials, l988, 3(2): l30
Doctoral thesis of Chinese academy of sciences, 2009