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Implication of grain boundary engineering on high temperature hot corrosion of alloy 617
Corrosion Science
◽
10.1016/j.corsci.2016.01.019
◽
2016
◽
Vol 106
◽
pp. 293-297
◽
Cited By ~ 30
Author(s):
Deepak K.
◽
Sumantra Mandal
◽
Athreya C.N.
◽
Dong-Ik Kim
◽
B. de Boer
◽
...
Keyword(s):
High Temperature
◽
Grain Boundary
◽
Hot Corrosion
◽
Grain Boundary Engineering
◽
Alloy 617
Download Full-text
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Cited By
References
Evaluating the efficiency of grain boundary serrations in attenuating high-temperature hot corrosion degradation in Alloy 617
Corrosion Science
◽
10.1016/j.corsci.2019.01.007
◽
2019
◽
Vol 149
◽
pp. 164-177
◽
Cited By ~ 3
Author(s):
P. Bhuyan
◽
S.K. Pradhan
◽
R. Mitra
◽
S. Mandal
Keyword(s):
High Temperature
◽
Grain Boundary
◽
Hot Corrosion
◽
Alloy 617
Download Full-text
A Possibility to Synchronously Improve the High-Temperature Strength and Ductility in Face-Centered Cubic Metals Through Grain Boundary Engineering
SSRN Electronic Journal
◽
10.2139/ssrn.3595044
◽
2020
◽
Author(s):
Xiao Wu Li
◽
F. Shi
◽
H.M. Ji
◽
X.W. Li
Keyword(s):
High Temperature
◽
Grain Boundary
◽
High Temperature Strength
◽
Face Centered Cubic
◽
Grain Boundary Engineering
◽
Cubic Metals
◽
Face Centered
◽
Strength And Ductility
Download Full-text
Strain-induced microstructural evolution and its implication on high-temperature hot corrosion (HTHC) phenomena in Alloy 617
Materials Characterization
◽
10.1016/j.matchar.2021.111272
◽
2021
◽
pp. 111272
Author(s):
P. Bhuyan
◽
S.K. Pradhan
◽
R. Mitra
◽
Sumantra Mandal
Keyword(s):
High Temperature
◽
Microstructural Evolution
◽
Hot Corrosion
◽
Alloy 617
Download Full-text
Role of grain boundary engineered microstructure on high temperature steam oxidation behaviour of Ni based superalloy alloy 617
Journal of Alloys and Compounds
◽
10.1016/j.jallcom.2018.11.137
◽
2019
◽
Vol 778
◽
pp. 224-233
◽
Cited By ~ 14
Author(s):
C.N. Athreya
◽
K. Deepak
◽
Dong-Ik Kim
◽
B. de Boer
◽
Sumantra Mandal
◽
...
Keyword(s):
High Temperature
◽
Grain Boundary
◽
Oxidation Behaviour
◽
Steam Oxidation
◽
Alloy 617
◽
High Temperature Steam
Download Full-text
Grain Boundary Engineering Alloy 706 for Improved High Temperature Performance
10.7449/2012/superalloys_2012_873_880
◽
2012
◽
Cited By ~ 6
Author(s):
A. Detor
◽
A. Deal
◽
T. Hanlon
Keyword(s):
High Temperature
◽
Grain Boundary
◽
Grain Boundary Engineering
◽
Temperature Performance
Download Full-text
Effect of grain boundary engineering on corrosion fatigue behavior of 316LN stainless steel in borated and lithiated high-temperature water
Corrosion Science
◽
10.1016/j.corsci.2019.01.036
◽
2019
◽
Vol 152
◽
pp. 190-201
◽
Cited By ~ 12
Author(s):
Jun Gao
◽
Jibo Tan
◽
Xinqiang Wu
◽
Shuang Xia
Keyword(s):
Stainless Steel
◽
High Temperature
◽
Grain Boundary
◽
Corrosion Fatigue
◽
Fatigue Behavior
◽
Grain Boundary Engineering
◽
316Ln Stainless Steel
◽
High Temperature Water
◽
Temperature Water
Download Full-text
The Influence of the Starting Grain Size During High-Temperature Grain Boundary Engineering of Ni-Base Superalloy RR1000
Superalloys 2016
◽
10.1002/9781119075646.ch49
◽
2016
◽
pp. 457-468
◽
Cited By ~ 1
Author(s):
Martin Detrois
◽
John Rotella
◽
Robert L. Goetz
◽
Randolph C. Helmink
◽
Sammy Tin
Keyword(s):
Grain Size
◽
High Temperature
◽
Grain Boundary
◽
Grain Boundary Engineering
◽
Base Superalloy
Download Full-text
The Role of Grain Boundary Engineering on the High Temperature Creep of Ferritic-Martensitic Alloy T91
22nd Symposium on the Effects of Radiation on Materials
◽
10.1520/stp37570s
◽
2008
◽
pp. 86-86-13
Author(s):
G Gupta
◽
GS Was
Keyword(s):
High Temperature
◽
Grain Boundary
◽
High Temperature Creep
◽
Grain Boundary Engineering
◽
Temperature Creep
Download Full-text
Grain Boundary Engineering Alloy 706 for Improved High Temperature Performance
Superalloys 2012
◽
10.1002/9781118516430.ch96
◽
2012
◽
pp. 873-880
◽
Cited By ~ 1
Author(s):
Andrew J. Detor
◽
Andrew D. Deal
◽
Timothy Hanlon
Keyword(s):
High Temperature
◽
Grain Boundary
◽
Grain Boundary Engineering
◽
Temperature Performance
Download Full-text
The Influence of the Starting Grain Size during High-Temperature Grain Boundary Engineering of Ni-Base Superalloy RR1000
10.7449/superalloys/2016/superalloys_2016_459_468
◽
2016
◽
Author(s):
M. Detrois
◽
R. Goetz
◽
R. Helmink
◽
J. Rotella
◽
S. Tin
Keyword(s):
Grain Size
◽
High Temperature
◽
Grain Boundary
◽
Grain Boundary Engineering
◽
Base Superalloy
Download Full-text
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