The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy

M Preuss; João Quinta da Fonseca; B Grant; E Knoche; R Moat; M Daymond; R C Reed; K A Green; P Caron; T P Gabb; M G Fahrmann; E S Huron

The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy

M Preuss, João Quinta da Fonseca, B Grant, E Knoche, R Moat, M Daymond, R C Reed (Editor), K A Green (Editor), P Caron (Editor), T P Gabb (Editor), M G Fahrmann (Editor), E S Huron (Editor)

Materials Engineering

Research output: Chapter in Book/Conference proceeding › Conference contribution

Abstract

The deformation mechanisms under tensile loading in a 48 vol.% gamma' polycrystalline nickel-base superalloy (RR1000) have been studied in-situ using neutron diffraction at 20 degrees C, 500 degrees C and 750 degrees C. In addition, post-mortem microstructural studies were carried out on deformed samples using an ultra high resolution field emission gun scanning electron microscope (FEGSEM). Deformation studies were carried out on three different model microstructures with a uni-modal gamma' mean particle size of 80 rim, 120 nm and 250 nm. The elastic response of gamma and gamma' during in-situ loading was measured by neutron diffraction and load transfer from gamma to gamma' was observed during plastic deformation at high temperature in samples with a coarse gamma' mean particle size. It was found that as the testing temperature increases, load transfer can be observed first only for the coarse gamma' microstructure and at 750 degrees C for the medium and coarse gamma' microstructure showing that there is a combined particle size/temperature dependency for gamma to gamma' load transfer. No significant load transfer was detectable in samples with a fine mean gamma' particle size at any temperature, In some cases a region of plastic deformation without load transfer was succeeded by gamma to gamma' load transfer when a certain level of plastic straining had been exceeded. FEGSEM studies of the samples plastically deformed at 500 degrees C showed sheared particles only in the fine gamma' microstructure but not in samples with coarse gamma'. The data recorded during the in-situ loading experiment demonstrate that such experiments are suitable for detecting changes of the deformation mode. But it is only in combination with post mortem electron microscopy studies that the load transfer observed can be related to a specific change of slip mode. So far, the experimental data suggest that fine gamma' is sheared during plastic deformation at room and high temperature up to 750 degrees C whereas in coarse gamma' Orowan looping is the most likely deformation mechanism at high temperature although cutting by strongly coupled dislocation might also explain the observed load transfer.

Original language	English
Title of host publication	Superalloys 2008
Subtitle of host publication	11th International Symposium on Superalloys
Editors	R C Reed, K A Green, P Caron, T P Gabb, M G Fahrmann, E S Huron
Publisher	Minerals, Metals & Materials Society
Pages	405-414
Number of pages	10
ISBN (Print)	9780873397285
Publication status	Published - 15 Nov 2008
Event	11th International Symposium on Superalloys - Champion, PA Duration: 14 Sept 2008 → 18 Sept 2008

Conference

Conference	11th International Symposium on Superalloys
City	Champion, PA
Period	14/09/08 → 18/09/08

Keywords

deformation mechanisms
gamma ' particle size
load partitioning
neutron diffraction
electron microscopy
Metallurgy & Metallurgical Engineering

Cite this

Preuss, M., Quinta da Fonseca, J., Grant, B., Knoche, E., Moat, R., Daymond, M., Reed, R. C. (Ed.), Green, K. A. (Ed.), Caron, P. (Ed.), Gabb, T. P. (Ed.), Fahrmann, M. G. (Ed.), & Huron, E. S. (Ed.) (2008). The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy. In R. C. Reed, K. A. Green, P. Caron, T. P. Gabb, M. G. Fahrmann, & E. S. Huron (Eds.), Superalloys 2008: 11th International Symposium on Superalloys (pp. 405-414). Minerals, Metals & Materials Society.

Preuss, M ; Quinta da Fonseca, João ; Grant, B et al. / The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy. Superalloys 2008: 11th International Symposium on Superalloys. editor / R C Reed ; K A Green ; P Caron ; T P Gabb ; M G Fahrmann ; E S Huron. Minerals, Metals & Materials Society, 2008. pp. 405-414

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title = "The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy",

abstract = "The deformation mechanisms under tensile loading in a 48 vol.% gamma' polycrystalline nickel-base superalloy (RR1000) have been studied in-situ using neutron diffraction at 20 degrees C, 500 degrees C and 750 degrees C. In addition, post-mortem microstructural studies were carried out on deformed samples using an ultra high resolution field emission gun scanning electron microscope (FEGSEM). Deformation studies were carried out on three different model microstructures with a uni-modal gamma' mean particle size of 80 rim, 120 nm and 250 nm. The elastic response of gamma and gamma' during in-situ loading was measured by neutron diffraction and load transfer from gamma to gamma' was observed during plastic deformation at high temperature in samples with a coarse gamma' mean particle size. It was found that as the testing temperature increases, load transfer can be observed first only for the coarse gamma' microstructure and at 750 degrees C for the medium and coarse gamma' microstructure showing that there is a combined particle size/temperature dependency for gamma to gamma' load transfer. No significant load transfer was detectable in samples with a fine mean gamma' particle size at any temperature, In some cases a region of plastic deformation without load transfer was succeeded by gamma to gamma' load transfer when a certain level of plastic straining had been exceeded. FEGSEM studies of the samples plastically deformed at 500 degrees C showed sheared particles only in the fine gamma' microstructure but not in samples with coarse gamma'. The data recorded during the in-situ loading experiment demonstrate that such experiments are suitable for detecting changes of the deformation mode. But it is only in combination with post mortem electron microscopy studies that the load transfer observed can be related to a specific change of slip mode. So far, the experimental data suggest that fine gamma' is sheared during plastic deformation at room and high temperature up to 750 degrees C whereas in coarse gamma' Orowan looping is the most likely deformation mechanism at high temperature although cutting by strongly coupled dislocation might also explain the observed load transfer.",

keywords = "deformation mechanisms, gamma ' particle size, load partitioning, neutron diffraction, electron microscopy, Metallurgy & Metallurgical Engineering",

author = "M Preuss and {Quinta da Fonseca}, Jo{\~a}o and B Grant and E Knoche and R Moat and M Daymond and Reed, {R C} and Green, {K A} and P Caron and Gabb, {T P} and Fahrmann, {M G} and Huron, {E S}",

note = "Tms, A. S. M. Int T. M. S. High Temperature Alloys Comm Preuss, Michael da Fonseca, Joao Quinta Grant, Benedict Knoche, Elisabeth Moat, Richard Daymond, Mark 29 WARRENDALE BIG92; 11th International Symposium on Superalloys ; Conference date: 14-09-2008 Through 18-09-2008",

year = "2008",

month = nov,

day = "15",

language = "English",

isbn = "9780873397285",

pages = "405--414",

editor = "Reed, {R C} and Green, {K A} and P Caron and Gabb, {T P} and Fahrmann, {M G} and Huron, {E S}",

booktitle = "Superalloys 2008",

publisher = "Minerals, Metals & Materials Society",

address = "United States",

}

Preuss, M , Quinta da Fonseca, J, Grant, B, Knoche, E, Moat, R, Daymond, M, Reed, RC (ed.), Green, KA (ed.), Caron, P (ed.), Gabb, TP (ed.), Fahrmann, MG (ed.) & Huron, ES (ed.) 2008, The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy. in RC Reed, KA Green, P Caron, TP Gabb, MG Fahrmann & ES Huron (eds), Superalloys 2008: 11th International Symposium on Superalloys. Minerals, Metals & Materials Society, pp. 405-414, 11th International Symposium on Superalloys, Champion, PA, 14/09/08.

The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy. / Preuss, M ; Quinta da Fonseca, João; Grant, B et al.
Superalloys 2008: 11th International Symposium on Superalloys. ed. / R C Reed; K A Green; P Caron; T P Gabb; M G Fahrmann; E S Huron. Minerals, Metals & Materials Society, 2008. p. 405-414.

Research output: Chapter in Book/Conference proceeding › Conference contribution

TY - GEN

T1 - The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy

AU - Preuss, M

AU - Quinta da Fonseca, João

AU - Grant, B

AU - Knoche, E

AU - Moat, R

AU - Daymond, M

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A2 - Green, K A

A2 - Caron, P

A2 - Gabb, T P

A2 - Fahrmann, M G

A2 - Huron, E S

A2 - Reed, R C

A2 - Green, K A

A2 - Caron, P

A2 - Gabb, T P

A2 - Fahrmann, M G

A2 - Huron, E S

N1 - Tms, A. S. M. Int T. M. S. High Temperature Alloys Comm Preuss, Michael da Fonseca, Joao Quinta Grant, Benedict Knoche, Elisabeth Moat, Richard Daymond, Mark 29 WARRENDALE BIG92

PY - 2008/11/15

Y1 - 2008/11/15

N2 - The deformation mechanisms under tensile loading in a 48 vol.% gamma' polycrystalline nickel-base superalloy (RR1000) have been studied in-situ using neutron diffraction at 20 degrees C, 500 degrees C and 750 degrees C. In addition, post-mortem microstructural studies were carried out on deformed samples using an ultra high resolution field emission gun scanning electron microscope (FEGSEM). Deformation studies were carried out on three different model microstructures with a uni-modal gamma' mean particle size of 80 rim, 120 nm and 250 nm. The elastic response of gamma and gamma' during in-situ loading was measured by neutron diffraction and load transfer from gamma to gamma' was observed during plastic deformation at high temperature in samples with a coarse gamma' mean particle size. It was found that as the testing temperature increases, load transfer can be observed first only for the coarse gamma' microstructure and at 750 degrees C for the medium and coarse gamma' microstructure showing that there is a combined particle size/temperature dependency for gamma to gamma' load transfer. No significant load transfer was detectable in samples with a fine mean gamma' particle size at any temperature, In some cases a region of plastic deformation without load transfer was succeeded by gamma to gamma' load transfer when a certain level of plastic straining had been exceeded. FEGSEM studies of the samples plastically deformed at 500 degrees C showed sheared particles only in the fine gamma' microstructure but not in samples with coarse gamma'. The data recorded during the in-situ loading experiment demonstrate that such experiments are suitable for detecting changes of the deformation mode. But it is only in combination with post mortem electron microscopy studies that the load transfer observed can be related to a specific change of slip mode. So far, the experimental data suggest that fine gamma' is sheared during plastic deformation at room and high temperature up to 750 degrees C whereas in coarse gamma' Orowan looping is the most likely deformation mechanism at high temperature although cutting by strongly coupled dislocation might also explain the observed load transfer.

AB - The deformation mechanisms under tensile loading in a 48 vol.% gamma' polycrystalline nickel-base superalloy (RR1000) have been studied in-situ using neutron diffraction at 20 degrees C, 500 degrees C and 750 degrees C. In addition, post-mortem microstructural studies were carried out on deformed samples using an ultra high resolution field emission gun scanning electron microscope (FEGSEM). Deformation studies were carried out on three different model microstructures with a uni-modal gamma' mean particle size of 80 rim, 120 nm and 250 nm. The elastic response of gamma and gamma' during in-situ loading was measured by neutron diffraction and load transfer from gamma to gamma' was observed during plastic deformation at high temperature in samples with a coarse gamma' mean particle size. It was found that as the testing temperature increases, load transfer can be observed first only for the coarse gamma' microstructure and at 750 degrees C for the medium and coarse gamma' microstructure showing that there is a combined particle size/temperature dependency for gamma to gamma' load transfer. No significant load transfer was detectable in samples with a fine mean gamma' particle size at any temperature, In some cases a region of plastic deformation without load transfer was succeeded by gamma to gamma' load transfer when a certain level of plastic straining had been exceeded. FEGSEM studies of the samples plastically deformed at 500 degrees C showed sheared particles only in the fine gamma' microstructure but not in samples with coarse gamma'. The data recorded during the in-situ loading experiment demonstrate that such experiments are suitable for detecting changes of the deformation mode. But it is only in combination with post mortem electron microscopy studies that the load transfer observed can be related to a specific change of slip mode. So far, the experimental data suggest that fine gamma' is sheared during plastic deformation at room and high temperature up to 750 degrees C whereas in coarse gamma' Orowan looping is the most likely deformation mechanism at high temperature although cutting by strongly coupled dislocation might also explain the observed load transfer.

KW - deformation mechanisms

KW - gamma ' particle size

KW - load partitioning

KW - neutron diffraction

KW - electron microscopy

KW - Metallurgy & Metallurgical Engineering

M3 - Conference contribution

SN - 9780873397285

SP - 405

EP - 414

BT - Superalloys 2008

PB - Minerals, Metals & Materials Society

T2 - 11th International Symposium on Superalloys

Y2 - 14 September 2008 through 18 September 2008

ER -

Preuss M , Quinta da Fonseca J, Grant B, Knoche E, Moat R, Daymond M et al. The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy. In Reed RC, Green KA, Caron P, Gabb TP, Fahrmann MG, Huron ES, editors, Superalloys 2008: 11th International Symposium on Superalloys. Minerals, Metals & Materials Society. 2008. p. 405-414

The effect of gamma ' particle size on the deformation mechanism in an advanced polycrystalline nickel-base superalloy

Abstract

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Keywords

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