The influence of melt superheating treatment on the cast structure and stress rupture property of IN718C superalloy

Ziqi Jie; Jun Zhang; Taiwen Huang; Lin Liu; Hengzhi Fu

doi:10.1016/j.jallcom.2017.02.210

The influence of melt superheating treatment on the cast structure and stress rupture property of IN718C superalloy

Ziqi Jie, Jun Zhang, Taiwen Huang, Lin Liu, Hengzhi Fu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

A modified thermally controlled solidification using melt superheating treatment has been designed to an IN718C superalloy to achieve grain refinement and further improve mechanical properties. It is found that the applied melt treatment can refine grain size from 6420 to 89 μm and greatly reduce the amount of porosity from 15.22 to 0.015%. The morphology of the microstructure is evolved from dendritic to granular structure. Meanwhile, the melt superheating treatment has no obvious influence on the dendrite segregation of Cr and Fe, but reduce the dendrite segregation of Nb and Ti. The amount of Laves phase decreases with increasing of melt superheating temperature from 1380 to 1680 °C. Corresponding to this, the stress rupture property under 650 °C/620 MPa is significantly improved.

Original language	English
Pages (from-to)	76-81
Number of pages	6
Journal	Journal of Alloys and Compounds
Volume	706
DOIs	https://doi.org/10.1016/j.jallcom.2017.02.210
State	Published - 2017

Keywords

Grain refinement
Melt superheating
Microstructure
Rupture stress life
Superalloy

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10.1016/j.jallcom.2017.02.210

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title = "The influence of melt superheating treatment on the cast structure and stress rupture property of IN718C superalloy",

abstract = "A modified thermally controlled solidification using melt superheating treatment has been designed to an IN718C superalloy to achieve grain refinement and further improve mechanical properties. It is found that the applied melt treatment can refine grain size from 6420 to 89 μm and greatly reduce the amount of porosity from 15.22 to 0.015%. The morphology of the microstructure is evolved from dendritic to granular structure. Meanwhile, the melt superheating treatment has no obvious influence on the dendrite segregation of Cr and Fe, but reduce the dendrite segregation of Nb and Ti. The amount of Laves phase decreases with increasing of melt superheating temperature from 1380 to 1680 °C. Corresponding to this, the stress rupture property under 650 °C/620 MPa is significantly improved.",

keywords = "Grain refinement, Melt superheating, Microstructure, Rupture stress life, Superalloy",

author = "Ziqi Jie and Jun Zhang and Taiwen Huang and Lin Liu and Hengzhi Fu",

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T1 - The influence of melt superheating treatment on the cast structure and stress rupture property of IN718C superalloy

AU - Jie, Ziqi

AU - Zhang, Jun

AU - Huang, Taiwen

AU - Liu, Lin

AU - Fu, Hengzhi

PY - 2017

Y1 - 2017

N2 - A modified thermally controlled solidification using melt superheating treatment has been designed to an IN718C superalloy to achieve grain refinement and further improve mechanical properties. It is found that the applied melt treatment can refine grain size from 6420 to 89 μm and greatly reduce the amount of porosity from 15.22 to 0.015%. The morphology of the microstructure is evolved from dendritic to granular structure. Meanwhile, the melt superheating treatment has no obvious influence on the dendrite segregation of Cr and Fe, but reduce the dendrite segregation of Nb and Ti. The amount of Laves phase decreases with increasing of melt superheating temperature from 1380 to 1680 °C. Corresponding to this, the stress rupture property under 650 °C/620 MPa is significantly improved.

AB - A modified thermally controlled solidification using melt superheating treatment has been designed to an IN718C superalloy to achieve grain refinement and further improve mechanical properties. It is found that the applied melt treatment can refine grain size from 6420 to 89 μm and greatly reduce the amount of porosity from 15.22 to 0.015%. The morphology of the microstructure is evolved from dendritic to granular structure. Meanwhile, the melt superheating treatment has no obvious influence on the dendrite segregation of Cr and Fe, but reduce the dendrite segregation of Nb and Ti. The amount of Laves phase decreases with increasing of melt superheating temperature from 1380 to 1680 °C. Corresponding to this, the stress rupture property under 650 °C/620 MPa is significantly improved.

KW - Grain refinement

KW - Melt superheating

KW - Microstructure

KW - Rupture stress life

KW - Superalloy

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DO - 10.1016/j.jallcom.2017.02.210

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SN - 0925-8388

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EP - 81

JO - Journal of Alloys and Compounds

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ER -

The influence of melt superheating treatment on the cast structure and stress rupture property of IN718C superalloy

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Keywords

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