논문 상세보기

페그마타이트에서 산출하는 전기석의 운모화작용: 고분해능 투과전자현미경(HRTEM) 연구 KCI 등재

Sericitization of Tourmaline in a Pegmatite: a HRTEM Study

  • 언어ENG
  • URLhttps://db.koreascholar.com/Article/Detail/247520
서비스가 종료되어 열람이 제한될 수 있습니다.
광물과 암석 (Korean Journal of Mineralogy and Petrology)
한국광물학회 (The Mineralogical Society Off Korea)
초록

Partially sericitized tourmaline from a pegmatite, Black Hills, South Dakota, U.S.A., was investigated using high-resolution transmission electron microscopy (HRTEM). Muscovite occurs as the only alteration product of tourmaline, and it is developed extensively as narrow veinlets along the 110 and 100 cleavage directions of tourmaline, indicating that a cleavage-controlled alteration mechanism was dominant. Muscovite was characterized mainly as two-layer polytypes with minor stacking disorder, but tourmaline is almost free of structural defects. HRTEM images of tourmaline-muscovite interfaces revealed that the interfaces between two minerals are composed of well-defined 110 and 100 boundaries of tourmaline. The (001) of muscovite is in general parallel to the c-axis of tourmaline, but tourmaline and replacing muscovite do not show specific crystallographic orientation relationship; muscovite consists of numerous 100-1000a thick subparallel packets, and the angles between the (001) of muscovite and (110) of tourmaline is highly variable. Al/Si ratios of both minerals suggest that tourmaline to muscovite alteration by late magnetic fluids has been facilitated by their similar Al/Si ratio in the incipient alteration stage, in that the hydration reaction with preservation of Al and Si would require only addition of K+ and H2O. Aluminous minerals other than muscovite were not characterized as the alteration products of tourmaline, indicating that tourmaline reacted directly to muscovite; the tourmaline alteration apparently occurred by the presence of residual fluids in which K+ is available and silica was not undersaturated.

저자
  • 안중호 | Ahn, Jung Ho
  • 이정후 | Lee, Jung Hoo