Optimizing scale adhesion on single crystal superalloys

J. L. Smialek; B. A. Pint

doi:10.4028/www.scientific.net/msf.369-372.459

Optimizing scale adhesion on single crystal superalloys

J. L. Smialek
, B. A. Pint

Research output: Contribution to journal › Conference article › peer-review

57 Scopus citations

Abstract

To improve scale adhesion, single crystal superalloys have been desulfurized to levels below 1 ppmw by hydrogen annealing. A transition to fully adherent behavior has been shown to occur at a sulfur level of about 0.2 ppmw, as demonstrated for PWA 1480, PWA 1484, and René N5 single crystal superalloys in 1100°-1150°C cyclic oxidation tests up to 2000 h. Small additions of yttrium (15 ppmw) also have been effective in producing adhesion for sulfur contents of about 5 ppmw. Thus the critical Y/S ratio required for adhesion was on the order of 3-to-1 by weight (1-to-1 atomic), in agreement with values estimated from solubility products for yttrium sulfides. While hydrogen annealing greatly improved an undoped alloy, yielding ≤0.01 ppmw S, it also produced benefits for Y-doped alloys without measurably reducing the sulfur content.

Original language	English
Pages (from-to)	459-466
Number of pages	8
Journal	Materials Science Forum
Volume	369-372
Issue number	I
DOIs	https://doi.org/10.4028/www.scientific.net/msf.369-372.459
State	Published - 2001
Externally published	Yes
Event	5th International Symposium on High Temperature Corrosion and Protection of Materials - Les Embiez, France Duration: May 22 2000 → May 26 2000

Keywords

Adhesion
AlO scale
Cyclic oxidation
Reactive element
Sulfur
Superalloy

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Cite this

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title = "Optimizing scale adhesion on single crystal superalloys",

abstract = "To improve scale adhesion, single crystal superalloys have been desulfurized to levels below 1 ppmw by hydrogen annealing. A transition to fully adherent behavior has been shown to occur at a sulfur level of about 0.2 ppmw, as demonstrated for PWA 1480, PWA 1484, and Ren{\'e} N5 single crystal superalloys in 1100°-1150°C cyclic oxidation tests up to 2000 h. Small additions of yttrium (15 ppmw) also have been effective in producing adhesion for sulfur contents of about 5 ppmw. Thus the critical Y/S ratio required for adhesion was on the order of 3-to-1 by weight (1-to-1 atomic), in agreement with values estimated from solubility products for yttrium sulfides. While hydrogen annealing greatly improved an undoped alloy, yielding ≤0.01 ppmw S, it also produced benefits for Y-doped alloys without measurably reducing the sulfur content.",

keywords = "Adhesion, AlO scale, Cyclic oxidation, Reactive element, Sulfur, Superalloy",

author = "Smialek, \{J. L.\} and Pint, \{B. A.\}",

year = "2001",

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language = "English",

volume = "369-372",

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journal = "Materials Science Forum",

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number = "I",

note = "5th International Symposium on High Temperature Corrosion and Protection of Materials ; Conference date: 22-05-2000 Through 26-05-2000",

}

TY - JOUR

T1 - Optimizing scale adhesion on single crystal superalloys

AU - Smialek, J. L.

AU - Pint, B. A.

PY - 2001

Y1 - 2001

N2 - To improve scale adhesion, single crystal superalloys have been desulfurized to levels below 1 ppmw by hydrogen annealing. A transition to fully adherent behavior has been shown to occur at a sulfur level of about 0.2 ppmw, as demonstrated for PWA 1480, PWA 1484, and René N5 single crystal superalloys in 1100°-1150°C cyclic oxidation tests up to 2000 h. Small additions of yttrium (15 ppmw) also have been effective in producing adhesion for sulfur contents of about 5 ppmw. Thus the critical Y/S ratio required for adhesion was on the order of 3-to-1 by weight (1-to-1 atomic), in agreement with values estimated from solubility products for yttrium sulfides. While hydrogen annealing greatly improved an undoped alloy, yielding ≤0.01 ppmw S, it also produced benefits for Y-doped alloys without measurably reducing the sulfur content.

AB - To improve scale adhesion, single crystal superalloys have been desulfurized to levels below 1 ppmw by hydrogen annealing. A transition to fully adherent behavior has been shown to occur at a sulfur level of about 0.2 ppmw, as demonstrated for PWA 1480, PWA 1484, and René N5 single crystal superalloys in 1100°-1150°C cyclic oxidation tests up to 2000 h. Small additions of yttrium (15 ppmw) also have been effective in producing adhesion for sulfur contents of about 5 ppmw. Thus the critical Y/S ratio required for adhesion was on the order of 3-to-1 by weight (1-to-1 atomic), in agreement with values estimated from solubility products for yttrium sulfides. While hydrogen annealing greatly improved an undoped alloy, yielding ≤0.01 ppmw S, it also produced benefits for Y-doped alloys without measurably reducing the sulfur content.

KW - Adhesion

KW - AlO scale

KW - Cyclic oxidation

KW - Reactive element

KW - Sulfur

KW - Superalloy

UR - https://www.scopus.com/pages/publications/0035190720

U2 - 10.4028/www.scientific.net/msf.369-372.459

DO - 10.4028/www.scientific.net/msf.369-372.459

M3 - Conference article

AN - SCOPUS:0035190720

SN - 0255-5476

VL - 369-372

SP - 459

EP - 466

JO - Materials Science Forum

JF - Materials Science Forum

IS - I

T2 - 5th International Symposium on High Temperature Corrosion and Protection of Materials

Y2 - 22 May 2000 through 26 May 2000

ER -

Optimizing scale adhesion on single crystal superalloys

Abstract

Keywords

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