Search results

Mechanical properties of kenaf fiber /PE composite materials and their microstructure.
And thus mechanical properties of kenaf fiber/PE composite materials were improved effectively.
[8] Shurong Wang, Qian Liu, Zhongyang Luo et.al:Journal of Zhejiang University(Engineering Science) Vol. 40 (2006), p. 1155-1157,in Chinese
[9] Qiuhong Mou, Chun Wei and Jinghong:Journal of Guilin Institute Technology Vol. 24 (2004), p. 467-473,in Chinese
[12] Hong Cai, Chun Wei, Weifeng Xiong et.al:Insulating Materials Vol. 37(2004), p. 4-7

Green building materials Concept.
Green building materials is also called ecological building materials.
Compared with traditional building materials, green building materials has the following characteristics and advantages: i.
Cai: New Building Materials, (2006) No.1, p.40.
Ding: Soybean Science, Vol. 28 (2009) No.4, p.715

Material Science and Engineering. 1998, 23(6): 243-285
Journal of the Electrochemical Society. 2007, 154: 85-94
Journal of Zhejiang University ( Engineering Science). 2009, 43(5): 957-967
Journal of Applied Physics. 2003, 93: 8793-8841
Journal of Macromolecular Science Part A- Pure and Applied Chemistry. 2008, 45: 1049-1056

Research on photocatalysis properties of nano TiO2/mica composite material prepared by the method of hydrolysis–precipitation Song Zhoua, Yucheng Wub,* Jun Lvc, Lingkun Guod, Dongmei Wange, Guangqing Xuf, Zhixiang Zhengg School of Materials Sciences and Engineering, Hefei University of Technology, Hefei 230009, China azhousong0808@126.com, bycwu@hfut.edu.cn, Tel.: +86-551-2901012, Fax: +86-551-2904517 clvjun117@126.com, dglk8719@gmail.com, ewdmlzq@126.com, fgqxu1979@126.com, gzxzheng99@hotmail.com Keywords: TiO2/M; Hydrolysis – precipitation; Photocatalysis; Composite materials Abstract: Using muscovite as the carrier, TiCl4 as the source of titanium, urea as the precipitating agent, nano-TiO2/mica photocatalyst (TiO2/M) was prepared by the method of hydrolysis–precipitation.
The methyl orange was used as contamination simulation to test the photocatalytic activity of the materials.
Journal of the Chinese Ceramic Society, 2007, 12 (03):25–05
Journal of the Chinese Ceramic Society，2006,10–1208–05
Journal of Alloys and Compounds, 2004, 375: 283-291

Study on Fire Prevention of Wall Insulation Organic Materials Wang Pengxiang1, Zhang Cunwei2, Li Xiangmei3, Yang Rongjie3 School of Materials Science &Engineering, Beijing Institute of Technology National Engineering Research Center of Flame Retardant Materials,100081,Beijing Keywords: Organic, Wall Insulation Materials, Fire Prevention, Development Abstract: This article described the technical progress of the wall insulation organic materials and analyzed other relevant factors in recent years about the insulation materials policies changes and market changes.
The second type of wall insulation materials are composite materials, such as phenolic foam insulation materials, reaching flame retardant materials B1 level (fire).
They belong to the combustible materials (B2 fire).
A: incombustible materials.
B2: combustible construction materials.

Long-term durability of advanced polymeric materials in hygrothermal environments is of vital concern.
Pioneering work [1-6] has been conducted on diffusion and viscoelastic deformation in polymeric materials.
The effective time theory to predict long-term behavior of polymeric materials experiencing physical aging from short-term experiments [13] is analogous to the method of reduced variables for thermorheologically simple materials [7], both of which may be described with the concept of a material clock [8].
Elahi: Mechanics of Time-Dependent Materials Vol. 4 (2000), p. 107
Hodge: Science Vol. 267 (1995), p. 1945

Organic materials (cable particularly) aging has an adverse effect on the safety of production situations, and it is unscientific to replace organic materials blindly.
A live evaluation system of organic materials aging was developed in present paper.
Another method is based on physical detection, ssuch as elongation at break (EAB) and compressive modulus of cable materials [4].
Compressive modulus of organic materials is the ratio of force to distance.
(5) It can evaluate not only cable but also other organic materials

Journal of Power Sources. 2015, 294:141-149
Journal of Solid State Electrochemistry. 2023, 27(1):1-23
Journal of Alloys and Compounds. 2022, 899:163311
Journal of Alloys and Compounds. 2021, 861:158000
Journal of Alloys and Compounds. 2019, 782:451-460

It is well known that imbibitions of fibrous materials are of practical importance in many industrial processes [7-10].
Jodeit: Journal of Aerosol Science, Vol. 18(6) (1987), P.869
[8]J.Szekely, A.W.Neumann, Y.K.Chuang: Journal of Colloid and Interface Science, Vol.35(2) (1971), P.273
Bruque: Journal of Colloid and Interface Science, Vol.26 (2003), P.171
[10]Lu Zijuan, Zhang Zuoguang, Li Min, Sun Zhijie: Aerospace Materials & Technology, Vol.3 (2006), P.36.

The supplementary cementitious materials (microsilica - MIC, metakaoline - MET and fly ash - FA) were added to the wet mixture.
Construction and Building Materials Vol. 141 (2017), pp. 271–288
IOP Conference Series: Materials Science and Engineering 246, paper no. 012012
Journal of materials research Vol. 7 (1992), pp. 1564-1583
Ulm and K.J. van Vliet: Grid Indentation Analysis of Composite Microstructure and Mechanics: Principles and Validation, Journal of Material Science and Engineering A Vol. 430 (2006), pp. 189 – 202.