Study on decomposition behaviour of M_2C eutectic carbide in high speed steel

X. F. Zhou; F. Fang; J. Q. Jiang

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Study on decomposition behaviour of M_2C eutectic carbide in high speed steel

机译：M_2C共晶碳化物在高速钢中的分解行为研究

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The present work has investigated the decomposition behaviour of M_2C eutectic carbides with different morphologies in high speed steels. Both plate-like and fibrous M_2C carbides decompose into M_6C and MC at high temperatures, the decomposition of which is controlled by the diffusion of alloying elements in carbides. However, they are different in the decomposition process and thermal stability. Compared with plate-like M_2C, fibrous M_2C carbides are less stable, depending on the decomposition process. MC carbides are nucleated at the interface of fibrous M_2C/matrix, whereas they are nucleated inside plate-like M_2C carbides. The matrix plays different roles in the decomposition. It provides W, Mo and V for the decomposition of fibrous M_2C and Fe for the plate-like M_2C.

机译：本文研究了不同形态的M_2C共晶碳化物在高速钢中的分解行为。板状和纤维状的M_2C碳化物在高温下均分解为M_6C和MC，其分解受合金元素在碳化物中的扩散控制。但是，它们在分解过程和热稳定性方面不同。与板状M_2C相比，纤维状M_2C碳化物的稳定性较低，具体取决于分解过程。 MC碳化物在纤维状M_2C /基体的界面成核，而它们在板状M_2C碳化物内部成核。矩阵在分解中扮演不同的角色。它提供了W，Mo和V用于分解纤维状M_2C，并提供了铁用于板状M_2C。

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《Materials Science and Technology: MST: A publication of the Institute of Metals》 |2012年第12期|共6页
作者
X. F. Zhou; F. Fang; J. Q. Jiang;
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正文语种 eng
中图分类工程材料学;
关键词
M_2C eutectic carbide; High speed steel; Decomposition; Thermal stability;

机译：M_2C共晶碳化物高速钢分解热稳定性;

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机译：M_2C共晶碳化物在高速钢中的分解行为研究
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Study on decomposition behaviour of M_2C eutectic carbide in high speed steel

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