최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기韓國鑛物學會誌 = Journal of the Mineralogical Society of Korea, v.15 no.1, 2002년, pp.44 - 58
A new polymorph of tridymite, an incommensurately modulated phase (IC phase), has been identified. While the symmetry of the IC lattice is same as that of the Ll phase, the geometry of the IC lattice structure is same as the basis of the L3 structure with a different modulation (modulation vector q=...
Ashworth, J.R.(1989) Transmission electron microscopy of coexisting low-tridymite polymorphs, Miner. Mag., 53, 89-97.
Baur, W.H. (1977) Silicon-oxygen bond lengths, bridging angles Si-O-Si and synthetic low tridymite, Acta Cryst., B33, 2615-2619.
Carpenter, M.A. and Wennemer, M. (1985) Characterization of synthetic tridymites by transmission electron microscopy, Am. Miner., 70, 517-528.
Dollase, W.A. (1967) The crystal structure at 220 $^{\circ}C$ of orthorhombic high tridymite from the Steinbach meteorite. Acta Cryst., 23, 617-623.
Dollase, W.A. and Baur, W.H. (1976) The superstructure of meteoritic low tridymite solved by computer simulation, Am. Miner., 61, 971-978.
Graetsch, H. (1994) Structural characteristics of opaline and microcrystalline silica minerals, Reviews in Mineralogy, 29, 209-232.
Graetsch, H. and Florke, O.W. (1991) X-ray powder diffraction patterns and phase relation of tridymite modifications, Zeit. Krist., 195, 31-48.
Heaney, PJ. (1994) Structure and chemistry of the low-pressure silica polymorphs, Reviews in Mineralogy, 29, 1-40.
Hoffmann, W., Kockmeyer, M., Lons, J., and Vach, Chr. (1983) The transformation of monoclinic lowtridymite MC to a phase with an incommensurate superstructure (abstract), Fortschritte der Mineralogie, 61, 96-98.
Hua, G.T., Welberry, T.R., Withers, R.L., and Thompson, J.G. (1988) An electron diffraction and lattice-dynamical study of the diffuse scattering in $\beta$ -cristobalite, SiO $_2$ , lApp. Cryst., 21, 458-465.
Kato, K. and Nukui, A. (1976) Die Kristallstruktur des monoclinen Trif-Tridymits (in German), Acta Cryst., B32, 2486-2491.
Kihara, K. (1977) An orthorhombic superstructure of tridymite existing between about 105 and 180 $^{\circ}C$ , Zeit. Krist., 146, 185-203.
Kihara, K. (1978) Thermal change in unit-cell dimensions, and a hexagonal structure of tridymite, Zeit. Krist., 148, 237-253.
Kihara, K. (1995) Disorder and successive transitions in the tridymite forms of SiO $_2$ , Phys. Chem. Minerals, 22, 223-232.
Kihara, K., Matsumoto, T., and Imamura, M. (1986) Structural change of orthorhombic-l tridymite with temperature: A study based on second-order thermal-vibrational parameters, Zeit. Krist., 177, 27-38.
Kim, Y.J., Nettleship, I., and Kriven, W.M. (1992) Phase transformations in dicalcium silicate. II. TEM studies of crystallography, microstructures and mechanisms, J. Am. Ceram. Soc,, 75, 2407-2419.
Konnert, J. and Appleman, D.E. (1978) The crystal structure of low tridymite, Acta Cryst., B34, 391403.
Nukui, A., Nakazawa, H., and Akao, M. (1978) Thermal changes in monoclinic tridymite, Am. Miner., 63, 1252-1259.
Lons, J. and Hoffmann, W. (1987) Zur Kristallstruktur der inkommensurablen Raum-temperaturphase des Tridymites (in German, abstract), Zeit Krist., 178, 141-143.
Phillips, B.L., Thompson, lG., Xiao, Y., and Kirkpatrick, RJ. (1993) Constraints on the structure and dynamic of the cristobalite phase of SiO $_2$ and AlPO $_4$ from $^31$ p, $^27$ Al and $^29$ Si NMR spectroscopy up to 800K, Phys, Chem. Minerals, 20, 341-352.
Pryde, A.K.A. and Heine, V. (1998) Analysis of the incomrnensurately modulated OS phase of SiO $_2$ tridymite, Phys, Chem. Minerals, 25, 603-610.
Reid, A.M., William, RJ., and Takeda, H. (1974) Coexiting bronzite and clinobronzite and the thermal evolution of Steinbach meteorite, Earth and Planetary Science Letters, 22, 67-74.
Smelik, E.A. and Reeder, R.R. (1990) A study of the thermal behavior of terrestrial tridymite by continuous X-ray diffraction, Phys. Chem. Minerals, 17, 197-206.
Spearing, D.R., Farnan, 1., and Stebbins, J.F. (1992) Dynamics of the $\alpha$ - $\beta$ phase transitions in quartz and cristobalite as observed by in situ hightemperature $^29$ Si and $^17$ O NMR, Phys, Chem. Minerals, 17, 307-321.
Wennemer, M. and Thompson, A.B. (1984) Tridymite polymorphs and polytypes, Schweizerische Mineralogisch und Petrographaphische Mitteilungen, 64, 335-353.
Withers, R.L., Thompson, J.B., Xiao, Y., and Kirkpatrick, R.J. (1994) An electron diffraction study of the polymorphs of $SiO_2$ -tridymite, Phys. Chem. Minerals, 21, 421-433.
Xiao, Y., Kirkpatrick, RJ., and Kim, YJ. (1993) Structural phase transitions of tridyrnite: A $^29$ Si MAS NMR investigation, Am. Miner., 78, 241-244.
Xiao, Y., Kirpatrick, R.J., and Kim, Y.J. (1995) Investigations of MX-1 tridymite by $^{29}$ Si MAS NMR, Phys, Chem. Minerals, 22, 30-40.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.