Geoscience Reference
In-Depth Information
[108] N.L. Bowen, The crystallization of haplobasaltic, haplodioritic, and related magmas,
Am. J. Sci. 40 (1915) 161
185.
[109] G.W. Morey, The ternary system H
2
O
a
K
2
SiO
3
a
SiO
2
, J. Am. Chem. Soc. 39 (1917)
1173
1229.
[110] N.L. Bowen, The behavior of inclusions in igneous magmas, J. Geol. 30 (1922) 513
520.
[111] N.L. Bowen, O.F. Tuttle, The system MgO
a
SiO
2
a
H
2
O, Bull. Geol. Soc. Am. 60
460.
[112] H.S. Yoder, The MgO
a
Al
2
O
3
a
SiO
2
a
H
2
O system and the related metamorphic
facies, Am. Sci. Bowen Volume (1952) 569
627.
[113] D.M. Roy, R. Roy, Studies in the system MgO
a
Al
2
O
3
a
SiO
2
a
H
2
O, Bull. Geol. Soc.
Am. 63 (1952) 1293
1294 (Abstract).
[114] D.M. Roy, R. Roy, Synthesis
(1949) 439
and
stability
of minerals
in
the
system
MgO
a
Al
2
O
3
a
SiO
2
a
H
2
O, Am. Miner. 40 (1955) 147
178.
[115] B.W. Nelson, R. Roy, Polymorphic 7
˚
and 14
˚
Phases in the
MgO
a
Al
2
O
3
a
SiO
2
a
H
2
O System and Their Identification, Proceedings of the
Second National Clay Conference, Columbia, Mo. (See Publication of the National
Research Council, No. 327), 1953.
[116] W. Noll, Mineralbildung im system Al
2
O
3
a
SiO
2
a
H
2
O, Neues Jahrbuch Mineralogie
70 (1935) 65
115.
[117] W. Noll, Zur Kenntnis der siallitischen Mineralumbildung. Fortschritte der
Mineralogie, Kristallographite und Petrographie 21 (1937) 85
88.
[118] W. Noll, Neuere Untersuchungen von reaktionen in Wesserhaltigen Silicat-systemen,
Die Chemie 57 (1944) 90
94.
[119] H.F.W. Taylor, Hydrated calcium silicates. Part I. Compound formation at ordinary
temperatures, J. Chem. Soc. 726 (1950) 3682
3690.
[120] H.F.W. Taylor, Hydrothermal reactions in the system CaO
a
SiO
2
a
H
2
O, in:
S. St
¨
rwald (Ed.), Proceedings of the International Symposium on Reactivity of
Solids, Gothenburg. Germany, Auspices of Ingeni¨rvetenskapsakademien and
Chalmers Tekniska H¨gskola, Part 2, 1952, pp. 677
682.
[121] H.F.W. Taylor, Hydrated calcium silicates. Part V. The water content of calcium sili-
cate hydrate—I, J. Chem. Soc. 33 (1953) 163
171.
[122] H.F.W. Taylor, G.E. Bessey, Review of hydrothermal reactions in the system lime-
silica
water, Magazine Concrete Res. 4 (1950) 15
26.
[123] E.T. Carlson, L.S. Wells, Hydrothermal preparation of some strontium silicates,
J. Res. Natl. Bur. Stds. 51 (1953) 2.
[124] R.M. Barrer, E.A.D. White, The hydrothermal chemistry of silicates. Part II.
Synthetic crystalline sodium aluminosilicates, J. Chem. Soc. 286 (1952) 1561
1571.
[125] L.B. Sand, R. Roy, E.F. Osborn, Stability relations of some minerals in the system
Na
2
O
a
Al
2
O
3
a
SiO
2
a
H
2
O, Bull. Geol. Soc. Amer. 64 1469
1470 (Abstract).
[126] I. Friedman, Some aspects of the system H
2
O
a
Na
2
O
a
SiO
2
a
Al
2
O
3
, J. Geol. 59
(1951) 19
31.
[127] H.S. Yoder, H.P. Eugster, Phlogopite synthesis and stability range, Geochim. et
Cosmochim. Acta. 6 (1954) 157
185.
[128] L. Coes, A new dense crystalline silica, Science 118 (1953) 131
133.
[129] B.N. Litvin, Investigations of the Hydrothermal Crystallization in Some Silicate
Systems, Ph.D. Thesis, Institute of Crystallography, Acad. Nauk USSR, 1964.
[130] V.S. Surnina, B.N. Litvin, Crystallization in the systems Na
2
O
a
Bi
2
O
3
a
SiO
2
a
H
2
O
and Na
2
O
a
Bi
2
O
3
a
GeO
2
a
H
2
O, Izvestiya Akad. Nauk USSR, Inorg. Mater. 6 (1970)
1695
1697.