Rapidly solidified MC carbide morphologies of a laser-glazed single-crystal nickel-base superalloy

H. M. Wang; J. H. Zhang; Y. J. Tang; Z. Q. Hu; N. Yukawa; M. Morinaga; Y. Murata

doi:10.1016/0921-5093(92)90421-V

Rapidly solidified MC carbide morphologies of a laser-glazed single-crystal nickel-base superalloy

H. M. Wang
, J. H. Zhang
, Y. J. Tang
, Z. Q. Hu
, N. Yukawa
, M. Morinaga
, Y. Murata

CAS - Institute of Metal Research
Toyohashi University of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

64 引用（Scopus）

摘要

Rapidly solidified MC (TiC type) carbide morphology and its evolution with solidification cooling rate were studied comprehensively for a laser-glazed hot-corrosion resistant single-crystal nickel-base superalloy. The rapidly solidified interdendritic MC carbide was found in flower-like or radially branching morphologies which are closely related to the solidification cooling rate. At a relatively low cooling rate (9 × 10³ K s^-1), the carbide takes up the flower-like morphology, in which a few thick plates grow radially from the central nucleus. As the cooling rate increases, the growth morphology changes from flower like to radially dendritic and finally to well-developed radially branching colonies. The growth mechanism of the rapidly solidified MC carbide was to be lateral growth from the ledges or steps existing on the growing interface. The branching of the well-developed highly branching carbide occurs from the twins or twin intersections on the advancing fronts.

源语言	英语
页（从-至）	109-116
页数	8
期刊	Materials Science and Engineering: A
卷	156
期	1
DOI	https://doi.org/10.1016/0921-5093(92)90421-V
出版状态	已出版 - 1 8月 1992
已对外发布	是

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title = "Rapidly solidified MC carbide morphologies of a laser-glazed single-crystal nickel-base superalloy",

abstract = "Rapidly solidified MC (TiC type) carbide morphology and its evolution with solidification cooling rate were studied comprehensively for a laser-glazed hot-corrosion resistant single-crystal nickel-base superalloy. The rapidly solidified interdendritic MC carbide was found in flower-like or radially branching morphologies which are closely related to the solidification cooling rate. At a relatively low cooling rate (9 × 103 K s-1), the carbide takes up the flower-like morphology, in which a few thick plates grow radially from the central nucleus. As the cooling rate increases, the growth morphology changes from flower like to radially dendritic and finally to well-developed radially branching colonies. The growth mechanism of the rapidly solidified MC carbide was to be lateral growth from the ledges or steps existing on the growing interface. The branching of the well-developed highly branching carbide occurs from the twins or twin intersections on the advancing fronts.",

author = "Wang, \{H. M.\} and Zhang, \{J. H.\} and Tang, \{Y. J.\} and Hu, \{Z. Q.\} and N. Yukawa and M. Morinaga and Y. Murata",

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doi = "10.1016/0921-5093(92)90421-V",

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T1 - Rapidly solidified MC carbide morphologies of a laser-glazed single-crystal nickel-base superalloy

AU - Wang, H. M.

AU - Zhang, J. H.

AU - Tang, Y. J.

AU - Hu, Z. Q.

AU - Yukawa, N.

AU - Morinaga, M.

AU - Murata, Y.

PY - 1992/8/1

Y1 - 1992/8/1

N2 - Rapidly solidified MC (TiC type) carbide morphology and its evolution with solidification cooling rate were studied comprehensively for a laser-glazed hot-corrosion resistant single-crystal nickel-base superalloy. The rapidly solidified interdendritic MC carbide was found in flower-like or radially branching morphologies which are closely related to the solidification cooling rate. At a relatively low cooling rate (9 × 103 K s-1), the carbide takes up the flower-like morphology, in which a few thick plates grow radially from the central nucleus. As the cooling rate increases, the growth morphology changes from flower like to radially dendritic and finally to well-developed radially branching colonies. The growth mechanism of the rapidly solidified MC carbide was to be lateral growth from the ledges or steps existing on the growing interface. The branching of the well-developed highly branching carbide occurs from the twins or twin intersections on the advancing fronts.

AB - Rapidly solidified MC (TiC type) carbide morphology and its evolution with solidification cooling rate were studied comprehensively for a laser-glazed hot-corrosion resistant single-crystal nickel-base superalloy. The rapidly solidified interdendritic MC carbide was found in flower-like or radially branching morphologies which are closely related to the solidification cooling rate. At a relatively low cooling rate (9 × 103 K s-1), the carbide takes up the flower-like morphology, in which a few thick plates grow radially from the central nucleus. As the cooling rate increases, the growth morphology changes from flower like to radially dendritic and finally to well-developed radially branching colonies. The growth mechanism of the rapidly solidified MC carbide was to be lateral growth from the ledges or steps existing on the growing interface. The branching of the well-developed highly branching carbide occurs from the twins or twin intersections on the advancing fronts.

UR - https://www.scopus.com/pages/publications/0026900966

U2 - 10.1016/0921-5093(92)90421-V

DO - 10.1016/0921-5093(92)90421-V

M3 - 文章

AN - SCOPUS:0026900966

SN - 0921-5093

VL - 156

SP - 109

EP - 116

JO - Materials Science and Engineering: A

JF - Materials Science and Engineering: A

IS - 1

ER -

Rapidly solidified MC carbide morphologies of a laser-glazed single-crystal nickel-base superalloy

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