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Introduction Materials exhibiting ME effect can be classified into two classes, single-phase materials and composites.
[4] Evangelos Hristoforou，Aphrodite Ktena, Journal of Magnetism and Magnetic Materials Vol. 316(2007), 372-378
Chen, Journal of Applied Physics, Vol. 102(2007), 064103
Chen, Journal of Applied Physics, Vol. 107(2010), 093514
Wang, Journal of Materials Science, Vol. 46(2011), 1602-1605

For the limitations of traditional material in sources and characteristics, exploitations of new materials become a hot topic.
Therefore, biodegradable and renewable materials become hot spots for their easy disposal and durability.
Nevertheless, some of those new materials have shortcomings in mechanical properties, such as polylactic acid [8].In order to improve the properties of new materials, nanocellulose has been used as reinforcement.
Application of traditional materials on nanoscale leads to nanomodifiers of structure that will result in new materials with new and more perfect properties; new kinds of materials with higher resistance, cheaper and lighter, definitively an edge material for the twenty-first century.
How to improve mechanical properties of polylactic acid with bamboo fibers Journal Name: Journal of Materials Science,Springer Netherlands,Volume: 43,Issue:2,january 2008,Page: 775-787

In order to study the seismic behavior of post anchored RC members with different anchoring materials, such as the ductility, load carrying capacity, energy dissipation, etc, eight RC column joint specimens were designed and tested under repeated cyclical load.
Inorganic anchorage material named Jiyan was used, the strength is 40.4MPa and the shrinkage rate is 0.17%.
Analysis of ductility The deformability of organic anchorage material is better than inorganic anchorage material, when the anchorage length of organic adhesively rebars is more than 15D, the ductility factor of the column is more than 4.0, it has no difference with the integral member.
Anchorage length of 20D with inorganic material is suggested in practical project
References [1] Xingang Zhou, Jianglong Wu, Mingjin Chu: Natural Science Journal of Xiangtan University, 2003(03) (In Chinese) [2] Feng Yan, Huiying Zhang, Zhi Wang, Haifeng Li: Building Structure, 2003 (10) (In Chinese) [3] Xingang Zhou, Youxuan Wang, Shuying Qu: Engineering Mechanics, 2002(6) (In Chinese) [4] Weijian Si, Xingang Zhou, Jinzhi Huang, Chunxiang Li: Building Structure, 2001 (3) (In Chinese) [5] Gengqi Zhao, Guoliang Bai, Jiangtao Kong, etc: Journal of Building Structure (Supplementary Issue), 349~353 (In Chinese) [6] Zhenhai Guo, Xudong Shi: Reinforced Concrete Theory and Analyse.

Finite Element Simulation of the Nosing Process of Metal Tubes with a Conical Die Liang CHU1,2,a, Lijun SHI4, Yan BI1, Dasen BI1,3,b 1School of Materials Science and Engineering, Tianjin University of Technology, Tianjin 300384, China 2Key Laboratory of Display Materials & Photoelectric Devices (Tianjin University of Technology), Ministry of Education, Tianjin 300384, China 3Tianjin Key Lab for Photoelectric Materials & Devices, Tianjin 300384, China 4Project Management Department; Offshore Oil Engineering Co.Ltd; Tianjin 300452,China achuliangszhm@163.com（correspondence author）, btjbds@sina.com（correspondence author） Key words: tube nosing process, finite element simulation, material thickness variation Abstract.
Acknowledgement This work was supported by Ministry of industry and information Technology of the People’s Republic of China support project under Grant No. 2009ZX04014-063-03, and Tianjin scientific and technical support project under Grant No. 08ZCKFGX02200 and 09ZCKFGX02700, and Tianjin Key Subject for Materials Physics and Chemistry.
Lee: Journal of Materials Processing Technology Vol.67（1997）,p.43～48 [4] Ruminski M, Luksza J, Kusiak J,etc: Journal of Materials Processing Technology Vol. 80-81（1998）,p.683～689 [5] Reid SR, Harrigan JJ: Int J Mech Sci Vol. 40（1998）,p.263～280 [6] Dai K, Wang ZR: J.
Packo, etc: Journal of Materials Processing Technology Vol. 60（1996）,p.161～168 [8] Zhu J: Journal of Materials Processing Technology Vol. 63（1997）,p.640～644 [9] W.
Day:Journal of Materials Processing Technology Vol. 68（1997）, p.156～162 [10] C.

Experimental Materials. 1-ethyl-3-(3-(dimethylamino)propyl)carbodiimide (EDC), N-hydroxy succinimide (NHS, 97 %), phosphate buffered saline pellets (PBS, pH 7.4), poly(4-styrenesulfonic acid) solution (PSS, 18 wt % in H2O) and propylene carbonate (anhydrous, 99.7 %) were obtained from Aldrich.
Harbison, Forensic Science International: Genetics 2009
Michaelis, Journal of Electroanalytical Chemistry 1993, 351, 169
Wernet, Journal of Electroanalytical Chemistry 1995, 397, 163
Rostami, Journal of Applied Polymer Science 2010, 117, 3107

Material and Methods This review was developed from leading international journals in Science Direct, SpringerLink, and Scopus databases.
Yoo, “Advanced silica/polymer composites: Materials and applications,” Journal of Industrial and Engineering Chemistry, vol. 38, pp. 1–12, 2016, doi: 10.1016/j.jiec.2016.04.016
Bagheri et al., “Silica based hybrid materials for drug delivery and bioimaging,” Journal of Controlled Release, vol. 277, pp. 57–76, 2018, doi: 10.1016/j.jconrel.2018.03.014
Sharaf, “Preparation of spherical silica nanoparticles: Stober silica,” Journal of American Science, vol. 6, no. 11, pp. 985–989, 2010
Osundiya, “Micellisation of Cetyltrimethyl Ammonium Bromide in Aqueous-Organic Media,” CSJ-52 Chemical Sciences Journal, vol. 2012, p. 52, 2012

Titanium shows high chemical affinity towards the Cobalt binders that are found in most cutting tool materials.
[2] Ezugwu, E.O., and Wang, Z.M., 1997, "Titanium alloys and their machinability - a review," Journal of Materials Processing and Technology, 68, pp. 262 - 274
Part B: Journal of Engineering Manufacture, 204, pp. 53-60. [4] [Handbook of Materials Selection, 2002, Ed.
Plasma assisted milling heatresistant superalloys, Journal of Manufacturing Science and Engineering, Transactions of the ASME 126 (2004), 274
Plasma assisted milling heatresistant superalloys, Journal of Manufacturing Science and Engineering, Transactions of the ASME 126 (2004), 274

The down conversion materials already have been implemented on different types of solar cells and enhanced their performance [3-5].
The integration of plasmonic metal nanoparticles with fluorescent materials is believed to be a promising approach for enhancing the PL (photoluminescence) of fluorescent materials [8,9].
Richards, Solar energy materials and solar cells 90 (2006) 1189
Richards, Solar Energy Materials and Solar Cells 101 (2012) 62
Guo, Optical Materials 34 (2012) 1034

Hampshire, Characterization of porous silicon nitride materials produced with starch, Journal of the European Ceramic Society. 24 (2004) 413–419 [4] F.
Cruz-Silva, Pure and doped boron nitride nanotubes, Materials today. 5(2007) 30-38 [10] C.
C Tang, Boron nitride nanotubes, Materials Science and Engineering R. 70 (2010) 92–111 [11] J.
Ohji, Microstructural design and mechanical properties of porous silicon nitride ceramics, Materials Science and Engineering A. 498 (2008) 5–11 [14] W.
Zhang, Effect of sintering temperature on microstructure and mechanical properties of highly porous silicon nitride ceramics produce by freeze casting, Materials Science and Engineering A. 527 (2010) 6501–6504

College of Materials Science and Engineering, South China University of Technology, (2.
Just because the pores are mostly interconnected, therefore, they can effectively decrease the noise pollution around and the raw materials are inorganic materials, completely non-combustible, which can be used as sound-absorbing materials needed urgently in the fields of construction and transportation[1].
Perlite and ceramic are materials with much interconnected pores.
ACI Materials Journal, 2004,101(1): 82-91 [5] Neithalath, N.
Development and characterization of acoustically efficient cementitious materials[J].