The Influence of Different SHS Reaction Systems on the Properties of the Ceramic


Article Preview

This paper has described the method to make Al2O3-based ceramic coating in the steel tube by using centrifugal SHS reaction involving Fe2O3 or CuO and Al. It has also analyzed the influence of three different self-propagating reaction systems on properties of the ceramic coating. Studies have shown that an appropriate increase of the reaction heat will help to improve the properties of the ceramic coating, such as ceramic coating’s porosity, purity, hardness, strength, wear and corrosion resistance as well. This paper provides a theoretical basis for the selection of SHS reaction system to make metallic ceramic coating .



Edited by:

Jerry Tian




Y. Mao et al., "The Influence of Different SHS Reaction Systems on the Properties of the Ceramic", Advanced Materials Research, Vol. 304, pp. 180-185, 2011

Online since:

July 2011




[1] Hongzhi Cui: Static form self-propagating high-temperature synthesis of ceramic coatings,edited by China Surface Engineering (2000).

[2] Merzhanov. AG: Self-propagating High-temperature Synthesis, edited by Proceeding of the First US-Japanese workshop on combustion synthesis. Mascow. Feb, 1990. 129 ~ 131.

[3] Hong Zhao, Yang Bridge, Xing-hong: SHS coating technology and future prospects, edited by Materials Review. 2006 (20).

[4] Ouabdesselam M, Munir Z A: The sintering of combustion synthesized titanium diboride, edited by J Master Sci. (1987, 22: 1799).


[5] in the Canadian Pacific. Reaction Coating Technology Research. SCIENCE & TECHNOL00Y INFORMATION, Article ID : 1672-379l (2007) 07 (a) a 0003-02. 22.

[6] Panchal, Nital R.; Jotania, Rajshree B: at treatment effects on dielectric properties of SrFe12O19 Hexaferrite prepared by an SHS route, Vacuum Electronics Conference (IVEC). (2011).


[7] Janasi. R, Rodrigues. D, Landgraf. FJG, Emura. M: Magnetic properties of coprecipitated barium ferrite powders as a function of synthesis conditions, IEEE Trans. Magn., Vol. 36, no. 5 , pp.3327-3329, Sep (2000).


[8] Wang Hualin, etal: SHS centrifugal coated ceramic lined steel pipe [J], Chemical machinery. 1997, 2 zl (1) : 47-53.

[9] Odawara, Osamu: Longceramic—lined pipes produced by a centrifugal-therrnit process[J], Journal of the AmeriCan Ceramic Society. 1990,73(3):629~ 633.


[10] Odawara, Osamu, Long ceramic-lined pipes with high resistance against corrosion abrasion and thermal shock[J], Materials and Manufacturing Processes. 1993,8(2):203~ 218.


[11] Zhongmin Zhao, etal: Prepared by SHS Gravitational Separation lined steel ceramic coating microstructure and properties , edited by Mechanical Engineering Materials. 1998, 22 (2): 34. 37.