Plastic deformation in natural diamonds: Rose channels associated to mechanical twinning

M. Schoor; J. C. Boulliard; E. Gaillou; O. Hardouin Duparc; I. Estève; B. Baptiste; B. Rondeau; E. Fritsch

doi:10.1016/j.diamond.2016.04.004

Plastic deformation in natural diamonds: Rose channels associated to mechanical twinning

M. Schoor, J. C. Boulliard, E. Gaillou, O. Hardouin Duparc, I. Estève, B. Baptiste, B. Rondeau, E. Fritsch

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

Abstract

Hollow channels in diamond are well acknowledged to be the result of dissolution processes. In this article we demonstrate that some hollow channels in natural diamonds are the consequence of intense plastic deformation by mechanical twinning. Two mixed-habit diamonds presenting numerous geometrical hollow tubes were studied. X-ray Laue analyses showed the presence of microtwins. At the intersection of microtwins, displacements and cracks are generated, creating the hollow channels observed. The presence of the cracks seems to have released the internal stress, as there was less to no signs of deformation at and around them. Further dissolutions are sometimes but not always seen within the cavities. Mechanical twinning, so far mostly identified in pink to purple diamonds, might be more widespread than originally thought in natural diamonds.

Original language	English
Pages (from-to)	102-106
Number of pages	5
Journal	Diamond and Related Materials
Volume	66
DOIs	https://doi.org/10.1016/j.diamond.2016.04.004
Publication status	Published - 1 Jun 2016
Externally published	Yes

Keywords

High pressure high temperature cracks
Mechanical micro-twin
Natural diamond
Plastic deformation
Rose channels

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10.1016/j.diamond.2016.04.004

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title = "Plastic deformation in natural diamonds: Rose channels associated to mechanical twinning",

abstract = "Hollow channels in diamond are well acknowledged to be the result of dissolution processes. In this article we demonstrate that some hollow channels in natural diamonds are the consequence of intense plastic deformation by mechanical twinning. Two mixed-habit diamonds presenting numerous geometrical hollow tubes were studied. X-ray Laue analyses showed the presence of microtwins. At the intersection of microtwins, displacements and cracks are generated, creating the hollow channels observed. The presence of the cracks seems to have released the internal stress, as there was less to no signs of deformation at and around them. Further dissolutions are sometimes but not always seen within the cavities. Mechanical twinning, so far mostly identified in pink to purple diamonds, might be more widespread than originally thought in natural diamonds.",

keywords = "High pressure high temperature cracks, Mechanical micro-twin, Natural diamond, Plastic deformation, Rose channels",

author = "M. Schoor and Boulliard, \{J. C.\} and E. Gaillou and \{Hardouin Duparc\}, O. and I. Est{\`e}ve and B. Baptiste and B. Rondeau and E. Fritsch",

year = "2016",

month = jun,

day = "1",

doi = "10.1016/j.diamond.2016.04.004",

language = "English",

volume = "66",

pages = "102--106",

journal = "Diamond and Related Materials",

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TY - JOUR

T1 - Plastic deformation in natural diamonds

T2 - Rose channels associated to mechanical twinning

AU - Schoor, M.

AU - Boulliard, J. C.

AU - Gaillou, E.

AU - Hardouin Duparc, O.

AU - Estève, I.

AU - Baptiste, B.

AU - Rondeau, B.

AU - Fritsch, E.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Hollow channels in diamond are well acknowledged to be the result of dissolution processes. In this article we demonstrate that some hollow channels in natural diamonds are the consequence of intense plastic deformation by mechanical twinning. Two mixed-habit diamonds presenting numerous geometrical hollow tubes were studied. X-ray Laue analyses showed the presence of microtwins. At the intersection of microtwins, displacements and cracks are generated, creating the hollow channels observed. The presence of the cracks seems to have released the internal stress, as there was less to no signs of deformation at and around them. Further dissolutions are sometimes but not always seen within the cavities. Mechanical twinning, so far mostly identified in pink to purple diamonds, might be more widespread than originally thought in natural diamonds.

AB - Hollow channels in diamond are well acknowledged to be the result of dissolution processes. In this article we demonstrate that some hollow channels in natural diamonds are the consequence of intense plastic deformation by mechanical twinning. Two mixed-habit diamonds presenting numerous geometrical hollow tubes were studied. X-ray Laue analyses showed the presence of microtwins. At the intersection of microtwins, displacements and cracks are generated, creating the hollow channels observed. The presence of the cracks seems to have released the internal stress, as there was less to no signs of deformation at and around them. Further dissolutions are sometimes but not always seen within the cavities. Mechanical twinning, so far mostly identified in pink to purple diamonds, might be more widespread than originally thought in natural diamonds.

KW - High pressure high temperature cracks

KW - Mechanical micro-twin

KW - Natural diamond

KW - Plastic deformation

KW - Rose channels

U2 - 10.1016/j.diamond.2016.04.004

DO - 10.1016/j.diamond.2016.04.004

M3 - Article

AN - SCOPUS:84964804725

SN - 0925-9635

VL - 66

SP - 102

EP - 106

JO - Diamond and Related Materials

JF - Diamond and Related Materials

ER -

Plastic deformation in natural diamonds: Rose channels associated to mechanical twinning

Abstract

Keywords

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