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Derlugyan, Designing and Constructing of Antifriction Self-Lubricating Polymer Materials with Specified Properties, Bulletin of Higher Educational Establishments North-Caucasian Region Technical Sciences. 3 (1987) 61-67
Avdeychick et al, Nanocomposite Engineering Materials: Experience in Development and Application / Ed.
Мikulich, Nanomodification of Polymer Materials, Perspective Materials and Technologies, Vitebsk, Vitebsk State Technical University Publishing House. 6 (2013) 116-133
Gleiter, Nanostructured Materials - Scientific Background and Technological Perspectives, Materials Science Forum, 189-190 (1995) 67-80
Pharr, An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal Materials Research, 6(7) (1992) 1564-1583.

The disadvantages are, primarily, the high initial raw material cost compared with thermoset materials, the high processing temperature and the high cost of the tooling.
[6] K.B.Katnam et. al., The Static Failure of Adhesively Bonded Metal Laminate Structures: A Cohesive Zone Approach, Journal of Adhesion Science and Technology, Vol.25, 10, 1131-1157, 2011
[7] P.P Camanho et. al., Numerical Simulation of Delamination Growth in Composite Materials, Journal of Composite Materials, Vol.37, No16, 1415-1438, 2009
[9] P.P Camanho et. al., Numerical Simulation of Mixed-mode Progressive Delamination in Composite Materials, Journal of Composite Materials, Vol.37, 16, 2003
Composites Science and Technology, 49, 439-449, 1996.

Compressive Strength and Setting Time Modification of Class C Fly Ash-Based Geopolymer Partially Replaced with Kaolin and Metakaolin Khanthima Hemra1,a, Shuntaro Yamaguchi2,b, Takaomi Kobayashi2,c, Pavadee Aungkavattana 3,d and Sirithan Jiemsirilers1,e* 1Research Unit of Advance Ceramics, Department of Materials Science, Faculty of Science, Chulalongkorn University, Bangkok, 10330 Thailand. 2Department of Materials Science and Technology, Nagaoka University of Technology, 1603-1 Kamitomioka, Nagaoka, Niigata, 9402188 Japan. 3National Nanotechnology Center, 111 Thailand Science Park, Pathum thani, 12120 Thailand.
These results are from the different of amorphous phase and reactivity of the replacement materials.
Therefore, class C fly ash was replaced with replacement materials, i.e. kaolin, metakaolin calcined at different temperatures of 600°C and 700°C to modify the setting time and study the effect of replacement materials on the compressive strength.
Fig. 1 showed the phase analysis of fly ash and all replacement materials by XRD.
P1550118), National Metal and Materials Technology Center (MTEC) for cooperating in the testing involved in this study.

Acknowledgements This research was supported by the National Natural Science Foundation of China (Grant No.51008085) and the Natural Science Foundation of Guangdong Province in China (Grant No.9451009001002744).
[4] Uy B: Journal of Constructional Steel Research, Vol. 57 (2001), p. 114-134
[5] Han L-H:Journal of Constructional Steel Research, Vol. 58 (2002), p. 353-372
[14] Cai J and He ZQ: Journal of Constructional Steel Research, Vol. 62 (2006), p. 472-483
[15] Cai J and Long Y-L: Journal of Constructional Steel Research, Vol. 65 (2009), p. 965-972

Microwave Journal, 1995, 11 (1): 1-8.
Journal of Microwaves, 1995, 11 (1): 1-8
Journal of Astronautics, 2006,27 (2)
Journal of Communication, 1994, 15 (5): 75) 81.
Journal of Engineering Design，2006，13(6): 406-409。

Experimental Cutting Tool Materials.
Journal of Refractory Metals and Hard Materials, 4(1987), p.137 [2] Zhuang Li, Jiajun Wang, Chenguang Lin, Shun Cui, Cemented Carbide, 26 (2009), p.188 [3] V.
Journal of Refractory Metals and Hard Materials, 29 (2011), p.202 [4] A.
Journal of Refractory Metals and Hard Materials, 25 (2007), p.153 [5] B.K.
Lee, Journal of Materials Processing Technology, 63 (1997), p.317 [6] CT Sims, NS Stoloff, WC Hagel, Superalloys I I , Wiley, New York 1987

Characterization of Mg-Al spinel Synthesized with Alkali corrosion slag from Aluminum Profile factory Xudong Luo1, Dianli Qu1, a, Guodong Zhang1 and Haixiao Liu2,b 1Department of High Temperature Materials and Magnesium Resource Engineering, University of Science and Technology Liaoning, Qianshan Zhonglu185, China, 114051 2 Department of Material and Metallurgy, University of Science and Technology Liaoning, Qianshan Zhonglu185, China, 114051 aluoxudongs@yahoo.com.cn, bhxliu0320@163.com Keyword: Mg-Al spinel, Crystallinity, Crystal structure, Alkali corrosion slag Abstract: Mg-Al spinel has been synthesized by using alkali corrosion slag from aluminum profile factory, decomposed magnesite and used MgO-C brick as the main raw materials.
Table1 Chemical compositions of raw materials （wt%） Raw materials SiO2 Al2O3 MgO CaO Fe2O3 Ig Alkali corrosion slag 6.77 41.96 4.59 14.72 0.97 29.20 Decomposed magnesite powder 3.72 0.21 41.22 1.26 0.78 41.33 Used MgO-C brick powder 1.23 1.35 79.67 2.15 1.64 10.78 Ig: lost on ignition The experimental formula is show in table2.
Table2 Experimental formula （wt%） Raw materials No.1 No.2 No.3 No.4 No.5 No.6 No.7 No.8 Alkali corrosion slag after calcined at 950℃{TTP}8451 72 70 68 66 72 70 68 66 Decomposed magnesite powder after calcined at 700℃{TTP}8451 28 30 32 34 - - - - Used MgO-C powder after calcined at 800℃{TTP}8451 - - - - 28 30 32 34 DSC-TG curves of raw materials were observed by France setaram SETSYS -1750 CS Evol.
, (1) (2) (3) 1 Alkaline corrosion slag from aluminum profile; 2 Decomposed magnesite powder; 3 Used MgO-C brick powder Fig.1 DSC-TG curves of raw materials In this paper, the sintering process of materials was studied by DSC-TG analysis, the result of heating process of alkaline corrosion slag, decomposed magnesite powder and used MgO-C brick powder was shown in Fig.1.
Journal of Wuhan University of Technolgy ,2010, 32(22):192-195(In Chinese)

And the effect of material nonlinearity on the stability was studied.
The stability is mainly affected by the strength of materials.
The stability is mainly controlled by the material nonlinearity.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (No.51308105).
Journal of Building Structures, Vol.31(2010), P. 38 (In Chinese) [9]Mingliang Zhu, Shilin Dong.

Mittemeijer 1,2,d 1 Max Planck Institute for Metals Research, Heisenbergstrasse3, D-70569 Stuttgart, Germany 2 Institute for Materials Science, University of Stuttgart, Stuttgart, Germany a s.meka@mf.mpg.de, br.schacherl@mf.mpg.de, cbischoff@mf.mpg.de,de.j.mittemeijer@mf.mpg.de Keywords: gas nitriding, Fe-Al alloy, aluminium nitride, iron nitride Abstract.
Mittemeijer (ed.): Materials Science Forum 102-104 (1992) 223 [2] R.E.
Colijn and S. van der Zwaag: Materials Science Forum 163165 (1994) 273 [7] S.
Mittemeijer: International Journal of Materials Research 99 (2008) 808 [8] E.J.
Mittemeijer: Journal of Heat Treatment and Materials 3 (2008) 139 [11] E.

Materials and Methods A.Plant material The seeds of Micro Tom is brought from PanAmerican seed company.
Shoot regeneration of tomato (Lycopersicon esculentum Mill.) in tissue culture using several kinds of supporting materials [J].
Plant Science, 1995, 108 (1): 93-100
The Plant Journal, 1997, 12 (6): 1465-1472
The Plant Journal, 2005, 43 (3): 449-457