Research output: Contribution to journal › Article › peer-review
Morphology and genesis of ballas and ballas-like diamonds. / Pavlushin, Anton; Zedgenizov, Dmitry; Vasil’ev, Evgeny et al.
In: Crystals, Vol. 11, No. 1, 17, 01.2021, p. 1-23.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Morphology and genesis of ballas and ballas-like diamonds
AU - Pavlushin, Anton
AU - Zedgenizov, Dmitry
AU - Vasil’ev, Evgeny
AU - Kuper, Konstantin
N1 - Funding Information: Funding: This research was supported by Russian Science Foundation (project No. 16-17-10067). Publisher Copyright: © 2020 by the authors. Li-censee MDPI, Basel, Switzerland. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2021/1
Y1 - 2021/1
N2 - Ballas diamond is a rare form of the polycrystalline radial aggregate of diamonds with diverse internal structures. The morphological features of ballas diamonds have experienced repeated revision. The need that this paper presents for development of a crystal-genetic classification was determined by a rich variety of combined and transitional forms of ballas-like diamonds, which include aggregates, crystals, and intergrowths. The new crystal-genetic classification combines already-known and new morphological types of ballas as well as ballas-like diamonds discovered in the placers of Yakutia, the Urals, and Brazil. The ballas-like diamond forms include spherocrystals, aggregates with a single crystal core, split crystals, radial multiple twin intergrowths, and globular crystals. The crystal genetic scheme of the evolution of ballas and ballas-like diamonds is a sequence of the morphological types arranged in accordance with the conventional model of the dependence of the mechanism and diamond growth from carbon supersaturation developed by I. Sunagawa. The evolution of the growth forms of ballas and ballas-like diamonds was tracked based on the macrozonal structure of diamonds varying from a flat-faced octahedron to a fibrous cuboid with its transition forms to the radiating crystal aggregates. The morphological diversity of the ballas-like diamonds depends on the level of supersaturation, and abrupt changes of the level of supersaturation engender abrupt changes in a mechanism of crystal growth. The change in the rate of growth under the influence of adsorption and absorption of the mechanic impurities accompanied the sudden appearance of the autodeformation defects in the form of splitting and multiple radial twinning of crystals. The spherical shape of Yakutia ballas-like diamonds is due to the volumetric dissolution that results in the curved-face crystals of the “Urals” or “Brazilian” type associated with ballas diamonds in placers.
AB - Ballas diamond is a rare form of the polycrystalline radial aggregate of diamonds with diverse internal structures. The morphological features of ballas diamonds have experienced repeated revision. The need that this paper presents for development of a crystal-genetic classification was determined by a rich variety of combined and transitional forms of ballas-like diamonds, which include aggregates, crystals, and intergrowths. The new crystal-genetic classification combines already-known and new morphological types of ballas as well as ballas-like diamonds discovered in the placers of Yakutia, the Urals, and Brazil. The ballas-like diamond forms include spherocrystals, aggregates with a single crystal core, split crystals, radial multiple twin intergrowths, and globular crystals. The crystal genetic scheme of the evolution of ballas and ballas-like diamonds is a sequence of the morphological types arranged in accordance with the conventional model of the dependence of the mechanism and diamond growth from carbon supersaturation developed by I. Sunagawa. The evolution of the growth forms of ballas and ballas-like diamonds was tracked based on the macrozonal structure of diamonds varying from a flat-faced octahedron to a fibrous cuboid with its transition forms to the radiating crystal aggregates. The morphological diversity of the ballas-like diamonds depends on the level of supersaturation, and abrupt changes of the level of supersaturation engender abrupt changes in a mechanism of crystal growth. The change in the rate of growth under the influence of adsorption and absorption of the mechanic impurities accompanied the sudden appearance of the autodeformation defects in the form of splitting and multiple radial twinning of crystals. The spherical shape of Yakutia ballas-like diamonds is due to the volumetric dissolution that results in the curved-face crystals of the “Urals” or “Brazilian” type associated with ballas diamonds in placers.
KW - Ballas diamond
KW - Ballas-like diamond
KW - Crystals splitting
KW - Morphology
KW - Polycrystalline of dia-monds
KW - Twinning
KW - twinning
KW - ballas diamond
KW - morphology
KW - polycrystalline of diamonds
KW - ballas-like diamond
KW - crystals splitting
UR - http://www.scopus.com/inward/record.url?scp=85098780816&partnerID=8YFLogxK
U2 - 10.3390/cryst11010017
DO - 10.3390/cryst11010017
M3 - Article
AN - SCOPUS:85098780816
VL - 11
SP - 1
EP - 23
JO - Crystals
JF - Crystals
SN - 2073-4352
IS - 1
M1 - 17
ER -
ID: 27374494