Influence of cooling rate and composition on orientation of primary carbides of Fe-Cr-C hardfacing alloys

Wang Z.H.; Wang Q.B.; Cui L.; Yang A.D.; He D.Y.

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Influence of cooling rate and composition on orientation of primary carbides of Fe-Cr-C hardfacing alloys

机译：冷却速度和成分对Fe-Cr-C堆焊合金初生碳化物取向的影响

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Four Fe-Cr-C hardfacing alloys with carbon contents of 3˙34-6˙5% were studied. The orientation of primary carbides in the microstructures of hardfacing layers produced by arc surfacing was investigated under controlled cooling conditions. Carbon content and cooling conditions were found to play an important role in determining overlayer microstructures. Increasing carbon content or decreasing Cr/C ratio increased the tendency for primary carbides to be oriented perpendicular to the surface of the overlayers, and the carbides in the microstructure became more compact. Under water cooling conditions, the primary carbides were preferentially oriented perpendicular to the surface, which would be expected to improve wear resistance. At lower cooling rates, primary carbides were oriented randomly.

机译：研究了四种碳含量为3˙34-6˙5％的Fe-Cr-C堆焊合金。在受控的冷却条件下，研究了由电弧堆焊产生的堆焊层显微组织中原始碳化物的取向。发现碳含量和冷却条件在确定覆盖层微观结构中起重要作用。碳含量的增加或Cr / C比的降低会增加初级碳化物垂直于覆盖层表面取向的趋势，并且微观结构中的碳化物变得更加致密。在水冷条件下，一次碳化物优先定向为垂直于表面，这有望提高耐磨性。在较低的冷却速率下，初级碳化物是随机取向的。

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《Science and Technology of Welding & Joining》 |2008年第7期|p.656-662|共7页
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Wang Z.H.; Wang Q.B.; Cui L.; Yang A.D.; He D.Y.;
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Influence of cooling rate and composition on orientation of primary carbides of Fe-Cr-C hardfacing alloys

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