Creep failure analysis of directionally solidified CM247LC superalloy

Müge Akdemir; Hüseyin Aydln; Havva Kazdal Zeytin; Hüseyin Çimenoǧlu

doi:10.1515/mt-2024-0223

Creep failure analysis of directionally solidified CM247LC superalloy

Müge Akdemir
, Hüseyin Aydln
, Havva Kazdal Zeytin
, Hüseyin Çimenoǧlu^*

^*Bu çalışma için yazışmadan sorumlu yazar

Metalurji ve Malzeme Müh.Böl.

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

2 Atıf (Scopus)

Özet

This study investigates the behavior of an in-house cast directionally solidified nickel-based superalloy (i.e. CM247LC grade alloy) at low and high temperatures (760 and 982 °C, respectively). For this purpose, creep and tensile tests were conducted on the alloy after the heat treatment consisted of solutionizing and double aging. Following creep and tensile tests, microstructural examinations were made on the fracture surface and cross-sections of samples by using optical, digital, and electron microscopes. The results showed that the dominant creep mechanism of the CM247LC alloy was dislocation creep at both temperatures. However, the higher temperature accelerated creep failure via de-binding at the matrix/carbide interface and caused severe structural degradation.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	612-619
Sayfa sayısı	8
Dergi	Materialpruefung/Materials Testing
Hacim	67
Basın numarası	4
DOI'lar	https://doi.org/10.1515/mt-2024-0223
Yayın durumu	Yayınlandı - 1 Nis 2025

Bibliyografik not

Publisher Copyright:
© 2025 Walter de Gruyter GmbH, Berlin/Boston.

Belgeye Erişim

10.1515/mt-2024-0223

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

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title = "Creep failure analysis of directionally solidified CM247LC superalloy",

abstract = "This study investigates the behavior of an in-house cast directionally solidified nickel-based superalloy (i.e. CM247LC grade alloy) at low and high temperatures (760 and 982 °C, respectively). For this purpose, creep and tensile tests were conducted on the alloy after the heat treatment consisted of solutionizing and double aging. Following creep and tensile tests, microstructural examinations were made on the fracture surface and cross-sections of samples by using optical, digital, and electron microscopes. The results showed that the dominant creep mechanism of the CM247LC alloy was dislocation creep at both temperatures. However, the higher temperature accelerated creep failure via de-binding at the matrix/carbide interface and caused severe structural degradation.",

keywords = "creep, directional solidification, high temperature, microstructure, superalloy",

author = "M{\"u}ge Akdemir and H{\"u}seyin Aydln and \{Kazdal Zeytin\}, Havva and H{\"u}seyin {\c C}imenoǧlu",

note = "Publisher Copyright: {\textcopyright} 2025 Walter de Gruyter GmbH, Berlin/Boston.",

year = "2025",

month = apr,

day = "1",

doi = "10.1515/mt-2024-0223",

language = "English",

volume = "67",

pages = "612--619",

journal = "Materialpruefung/Materials Testing",

issn = "0025-5300",

publisher = "Walter de Gruyter GmbH",

number = "4",

}

TY - JOUR

T1 - Creep failure analysis of directionally solidified CM247LC superalloy

AU - Akdemir, Müge

AU - Aydln, Hüseyin

AU - Kazdal Zeytin, Havva

AU - Çimenoǧlu, Hüseyin

PY - 2025/4/1

Y1 - 2025/4/1

N2 - This study investigates the behavior of an in-house cast directionally solidified nickel-based superalloy (i.e. CM247LC grade alloy) at low and high temperatures (760 and 982 °C, respectively). For this purpose, creep and tensile tests were conducted on the alloy after the heat treatment consisted of solutionizing and double aging. Following creep and tensile tests, microstructural examinations were made on the fracture surface and cross-sections of samples by using optical, digital, and electron microscopes. The results showed that the dominant creep mechanism of the CM247LC alloy was dislocation creep at both temperatures. However, the higher temperature accelerated creep failure via de-binding at the matrix/carbide interface and caused severe structural degradation.

AB - This study investigates the behavior of an in-house cast directionally solidified nickel-based superalloy (i.e. CM247LC grade alloy) at low and high temperatures (760 and 982 °C, respectively). For this purpose, creep and tensile tests were conducted on the alloy after the heat treatment consisted of solutionizing and double aging. Following creep and tensile tests, microstructural examinations were made on the fracture surface and cross-sections of samples by using optical, digital, and electron microscopes. The results showed that the dominant creep mechanism of the CM247LC alloy was dislocation creep at both temperatures. However, the higher temperature accelerated creep failure via de-binding at the matrix/carbide interface and caused severe structural degradation.

KW - creep

KW - directional solidification

KW - high temperature

KW - microstructure

KW - superalloy

UR - https://www.scopus.com/pages/publications/105001207746

U2 - 10.1515/mt-2024-0223

DO - 10.1515/mt-2024-0223

M3 - Article

AN - SCOPUS:105001207746

SN - 0025-5300

VL - 67

SP - 612

EP - 619

JO - Materialpruefung/Materials Testing

JF - Materialpruefung/Materials Testing

IS - 4

ER -

Creep failure analysis of directionally solidified CM247LC superalloy

Özet

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