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Materials Review, 2004, 18(6):61-63.
Construction and Building Materials, 2009, 23(5): 1954-1959 [3] K.
New Building Materials, 2006( 6): 47-49.
Journal of Building Materials, 2004(1): 72-75.
Materials and Structures. 2009, 42:1077–1087 [13] Haitao Li, Yujiang Wang, Wanwu Fan.Journal of Luoyang Technology College, 2001(9): 3-5.

Santos: Materials Science and Technology, Vol. 28, (2012), No. 1, pp.39-43
Shibukawa: Advanced Materials Research, Vols. 457-458, (2012), pp.504-510
Santos: Materials and Design, Vol. 32, (2011), No. 3, pp.1605-1622
Santos: Materials and Design, Vol. 32, (2011), No. 10, pp.4980-4985
Honda: Advanced Materials Research, Vols. 217-218, (2011), pp.1266-1271

It was found that the combination force between the substrate and coating was very good, the corrosion-resistance and abrasion-resistance of coating were much better than that of Ni-P alloy according to the examination, the Ni-Co-P alloy coating with special character which were good magnetic properties and finery in ornamentally also. 1 Introduction With the rapid development of science-technology and the increasing demand, plating technology is becoming one of the methods for the material surface treatments and functionality modification.
The Ni-Co-P alloy coating by electroplating was much better than that of Ni-P alloy, and with excellent applying value, it has wide application as surface protecting and magnetic materials.
Function Material[J],1996,27(2):158-160
The Academic Journal of Guangdong industry University[J]，2001(1)：17-19，(2)：23-37
The Journal of Jiangsu University [J] .2008, 29 (1) :35-38

The corrosion resistance of materials is usually enhanced by the combination of several elements, can be developed by control their composition.
Advanced Materials and Processes, 2000, 157(2): 37～42 [2] Yang Rui-cheng, Nie Fu-rong, Zheng Li-ping, Properties, Progression and Application of Ni-base Corrosion Resistant Alloys, Journal of Lanzhou University of Technology, Vol. 28 (4), 2002, 29～33
Macdonald, Challenges in the theory of electron transfer at passive interfaces, Corrosion Science 47 (2005) 3111-3139
[4] Yang Rui-cheng, Nie Fu-rong, Zheng Li-ping, Properties, Progression and Application of Ni-base Corrosion Resistant Alloys, Journal of Lanzhou University of Technology, Vol. 28 (4), 2002, 29～33.

Acknowledgements This work was financially supported by Key Subjects at the Provincial Level (509912), Natural Science Foundation of Henna Province Department of Education (2010A460009) and Doctor Fund of Henna Polytechnic University (648533).
References [1] Yanyan, Yan, Bo Zhao and Junli Liu: Journal of Shanghai Jiaotong University, Vol.43(2009), No.4, p683-687+692, In Chinese
[2] Yanyan, Yan, Bo Zhao and Junli Liu: Key Engineering Materials, Vol.416(2009), 619-623
Wu: Key Engineering Materials, Vol.315-316 (2006), pp314-318
Liu: International Journal of Advanced Manufacturing Technology, Vol.43 (2009) No.5-6, pp462-467

In the past decade, many researchers have paid attention to the study of hydrophobic materials which are able to be found in nature.
Materials and methods 2.1 Materials Aluminum alloy (aluminum is about 92.8 wt%, copper is about 5.5 wt%, and the remaining about 1.7 wt% Mg, Fe, and Mn etc) was used as substrate material.
Science.299(2003)1377-1380
Journal of Colloid and Interface Science. 303(2006)298-305
Plant Science. 172(2007)1103-1112

In the field of materials, this rapprochement is remarkable, as ascertained by the content of materials conferences in which specific sessions devoted to arts have been included since the year 2000, e.g. at the 18th international conference on “Surface Modification Technologies” (SMT18) in Paris [5].
Moreover, more and more exhibitions promote the dialog between art and materials.
Thermal spray capability of coating thermosensitive materials has long been recognized.
Bright prospects can therefore be expected for the coating of thermosensitive materials such as fabrics.
Lugscheider et al. eds., ASM-Int., Materials Park, OH, U.S.A., (2002)b044

In this paper, recent progress in this approach will be reviewed focussing mainly on the Ni-based superalloys and high Cr ferritic steels, both of which are materials for power generation.
R.Hashizume and Y.Murata: Materials for Advanced Power Engineering 1994, eds.
[17] M.Morinaga, Y.Murata and H.Yukawa: Materials Design Approaches and Experiences, eds.
[23] for example, P.Caron and T.Khan, Materials Design Approaches and Experiences, eds.
Gessinger: High Temperature Materials for Power Engineering 1990, eds.

Experimental Materials and instrument.
It did not much suit for improving rigidity of materials.
Durbach: Materials Chemistry and Physics Vol. 111 (2008), p. 218-224 [4] L.L.
Hu: Journal of Applied Polymer Science Vol. 103 (2007), p. 3370-3376 [7] W.
Materials Characterization Vol. 60 (2009), p. 1127-1132 [9] R.M.

Material Models at Elevated Temperatures The numerical model takes into account the temperature-dependent thermal and mechanical properties of the materials. 3.1.
Discussion on the failure mode In this study the elastic critical loads are so large that the buckling will not be the failure mode for the studied columns, and this even if after the elevation of temperature, the mechanical properties of materials decrease.
The critical load is still large compared to the failure load whose value is more sensitive to the materials properties that are deteriorated under the effect of temperature.
[9] Kyungsoo Chunga, Suhee Parkb, Sungmo Choi., Material effect for predicting the fire resistance of concrete-filled square steel tube column under constant axial load, Journal of Constructional Steel Research. 64 (2008) 1505–1515
Properties of Materials at High Temperatures: Concrete.