Control of dislocation configuration in sapphire

Atsutomo Nakamura; K. P.D. Lagerlöf; Katsuyuki Matsunaga; Jun Tohma; Takahisa Yamamoto; Yuichi Ikuhara

doi:10.1016/j.actamat.2004.10.002

Control of dislocation configuration in sapphire

Atsutomo Nakamura, K. P.D. Lagerlöf, Katsuyuki Matsunaga, Jun Tohma, Takahisa Yamamoto, Yuichi Ikuhara

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

27 Citations (Scopus)

Abstract

A method to introduce high density of unidirectional dislocations in sapphire by a "two-stage deformation" technique and a heat-treatment of thin plate is proposed. After deformation of sapphire crystals by basal slip at 1400°C, the samples were further deformed at 1200°C as a second stage. It was found that twinning and cracking normally observed during deformation tests at 1200°C were not observed in the crystals deformed using the two-stage deformation technique, and dislocation densities as high as 1.1 × 10⁹/cm² were obtained. This is because the glide dislocations generated at 1400°C promoted slip over twinning in the additional deformation at 1200°C. Subsequently, thin plates containing the high density of dislocations were annealed at 1400°C for 30 min. As a result, it was found that dislocations in the thin plate were able to be straightened across its two opposite surfaces. This is believed to be due to the large image forces acting on the dislocations due to the free surface.

Original language	English
Pages (from-to)	455-462
Number of pages	8
Journal	Acta Materialia
Volume	53
Issue number	2
DOIs	https://doi.org/10.1016/j.actamat.2004.10.002
Publication status	Published - 2005 Jan 10
Externally published	Yes

Keywords

Dislocations
High temperature deformation
Transmission electron microscopy
Twinning
α-AlO single crystal (sapphire)

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Ceramics and Composites
Polymers and Plastics
Metals and Alloys

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10.1016/j.actamat.2004.10.002

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title = "Control of dislocation configuration in sapphire",

abstract = "A method to introduce high density of unidirectional dislocations in sapphire by a {"}two-stage deformation{"} technique and a heat-treatment of thin plate is proposed. After deformation of sapphire crystals by basal slip at 1400°C, the samples were further deformed at 1200°C as a second stage. It was found that twinning and cracking normally observed during deformation tests at 1200°C were not observed in the crystals deformed using the two-stage deformation technique, and dislocation densities as high as 1.1 × 109/cm2 were obtained. This is because the glide dislocations generated at 1400°C promoted slip over twinning in the additional deformation at 1200°C. Subsequently, thin plates containing the high density of dislocations were annealed at 1400°C for 30 min. As a result, it was found that dislocations in the thin plate were able to be straightened across its two opposite surfaces. This is believed to be due to the large image forces acting on the dislocations due to the free surface.",

keywords = "Dislocations, High temperature deformation, Transmission electron microscopy, Twinning, α-AlO single crystal (sapphire)",

author = "Atsutomo Nakamura and Lagerl{\"o}f, {K. P.D.} and Katsuyuki Matsunaga and Jun Tohma and Takahisa Yamamoto and Yuichi Ikuhara",

note = "Funding Information: The authors thank Prof. S.Y. Yoon and Dr. H. Yoshida for useful discussions on the mechanical testing of alumina. This study was supported by a Grant-in-Aid for Scientific Research and Special Coordination Funds from the Ministry of Education, Culture, Sports, Science and Technology, and Japan Society of Promotion of Science (JSPS), Japan.",

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AU - Nakamura, Atsutomo

AU - Lagerlöf, K. P.D.

AU - Matsunaga, Katsuyuki

AU - Tohma, Jun

AU - Yamamoto, Takahisa

AU - Ikuhara, Yuichi

N1 - Funding Information: The authors thank Prof. S.Y. Yoon and Dr. H. Yoshida for useful discussions on the mechanical testing of alumina. This study was supported by a Grant-in-Aid for Scientific Research and Special Coordination Funds from the Ministry of Education, Culture, Sports, Science and Technology, and Japan Society of Promotion of Science (JSPS), Japan.

PY - 2005/1/10

Y1 - 2005/1/10

N2 - A method to introduce high density of unidirectional dislocations in sapphire by a "two-stage deformation" technique and a heat-treatment of thin plate is proposed. After deformation of sapphire crystals by basal slip at 1400°C, the samples were further deformed at 1200°C as a second stage. It was found that twinning and cracking normally observed during deformation tests at 1200°C were not observed in the crystals deformed using the two-stage deformation technique, and dislocation densities as high as 1.1 × 109/cm2 were obtained. This is because the glide dislocations generated at 1400°C promoted slip over twinning in the additional deformation at 1200°C. Subsequently, thin plates containing the high density of dislocations were annealed at 1400°C for 30 min. As a result, it was found that dislocations in the thin plate were able to be straightened across its two opposite surfaces. This is believed to be due to the large image forces acting on the dislocations due to the free surface.

AB - A method to introduce high density of unidirectional dislocations in sapphire by a "two-stage deformation" technique and a heat-treatment of thin plate is proposed. After deformation of sapphire crystals by basal slip at 1400°C, the samples were further deformed at 1200°C as a second stage. It was found that twinning and cracking normally observed during deformation tests at 1200°C were not observed in the crystals deformed using the two-stage deformation technique, and dislocation densities as high as 1.1 × 109/cm2 were obtained. This is because the glide dislocations generated at 1400°C promoted slip over twinning in the additional deformation at 1200°C. Subsequently, thin plates containing the high density of dislocations were annealed at 1400°C for 30 min. As a result, it was found that dislocations in the thin plate were able to be straightened across its two opposite surfaces. This is believed to be due to the large image forces acting on the dislocations due to the free surface.

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KW - Transmission electron microscopy

KW - Twinning

KW - α-AlO single crystal (sapphire)

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Control of dislocation configuration in sapphire

Abstract

Keywords

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