Earth Materials. John O'Brien

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Название Earth Materials
Автор произведения John O'Brien
Жанр География
Серия
Издательство География
Год выпуска 0
isbn 9781119512219



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Stibnite, aragonite, barite, celestite, topaz, enstatite, andalusite, cordierite, epidote, olivine Pinacoids; front, side and basal {001} {010} {001} Two parallel faces perpendicular to a‐, b‐ or c‐axis Barite, celestite, olivine, andalusite, topaz, hemimorphite

       Triclinic crystal system

Schematic illustration of monoclinic crystal forms: (a) front, side, and basal pinacoids, (b) two monoclinic prisms and a side pinacoid.
Crystal form Form indices Form description Minerals that commonly exhibit crystal form
Monoclinic prisms; first, third, and fourth orders {011} {0kl} {110} {hk0} {hkl} Four rectangular faces Gypsum, staurolite, clinopyroxenes, amphiboles, orthoclase, sanidine, sphene (titanite), borax
Pinacoids; front, side, and basal {001} {010} {001} Pair of rectangular faces perpendicular to a‐, b‐, or c‐axis Gypsum, staurolite, sphene (titanite), epidote, micas, clinopyroxenes, amphiboles
Crystal forms Form indices Form description Minerals that commonly exhibit crystal form
Pinacoids {001}{010}{001} {0k1} {hk1} and variations Two parallel faces Kyanite, plagioclase, microcline, amblygonite, rhodonite, wollastonite
Pedions {hk1} Single face Similar
Schematic illustration of triclinic crystal forms: (a) front, side, and basal pinacoids, (b) various pinacoids and a pedion to the lower right.

      A twin law describes the symmetry operation that produces the twins and the plane (hkl) or axis involved in the operation. For example, swallowtail twins in gypsum (Figure 4.31a) are related by reflection across a plane (001), which is not a mirror plane in single gypsum crystals. Carlsbad twins in potassium feldspar (Figure 4.31f) are related by a twofold axis of rotation that is parallel to the c‐axis (001), which is not a rotational axis in single potassium feldspar crystals.

      The surfaces along which twins are joined are called composition surfaces. If the surfaces are planar, they are called composition planes, which may or may not be equivalent to twin planes. Other composition surfaces are less regular. Twins joined along composition planes are called contact twins and do not appear to penetrate one another. Good examples of contact twins are shown in Figure 4.31a and b. Twins joined along less regular composition surfaces are usually related by rotation and are called penetration twins because they appear to penetrate one another. Good examples of penetration twins are shown in Figure 4.31c–f.

Schematic illustration of examples of twinned crystals: (a) swallowtail twins in gypsum; (b) polysynthetic albite twins in plagioclase; (c) penetration twins in galena; (d) penetration twins in pyrite; (e) penetration twins in staurolite; (f) Carlsbad twins in potassium feldspar.

      Source: Wenk and Bulakh (2004). © Cambridge University Press.

      Most twins are growth twins that form during mineral crystallization. Less commonly, twins result from displacive mineral transformations or from deformation. Deformation twins are called mechanical twins. The common mineral calcite typically develops mechanical twins (102) during deformation, and their development can play a significant role in the deformation of calcitic marbles and other metamorphic rocks, especially at low temperatures. This helps to explain why marbles deform more plastically than many other rocks during lower grades of metamorphism