ELECTRON MICKOSCOPY 



Calif. Dopt. Xal. Res., Div. Mines Bull. 169, 

 130-150 (1955). 



12. T.\GGART, M. S., Mulligan, W. O., and 



Studer, H. p., "Electron micrographic 

 studios of clays," Nail. Acad. Sci.—Natl. 

 Res. Council Publ. 395, 31-64 (1955). 



13. Neuwirth, E., "The determination of clay 



minerals with the electron microscope," 

 Tschcnnaks mineralog. u. petrog. mitt., 5, 

 347-3G1 (1956). 



14. SuiTO, EiJi, "Electron microscopy of clay 



minerals," Nendokagaku no Shimpo, 1, 166- 

 180 (1959). 



15. Bates, T. F. and Comer, J. J., "Further ob- 



servations on the morphology of chrysotile 

 and halloysite," "Clays and Clay Min- 

 erals," 237-248, Pergamon Press, New York, 

 1959. 



16. Bates, T. F., Sand, L. B., and Mink, J. F., 



"Tubular crj'stals of chrysotile asbestos," 

 Science, 111, 512-513 (1950). 



17. Noll, W. and Kircher, H., "Zur morphologic 



des chrysotilasbest," Naturwiss., 37, 540-1 

 (1950). 



18. ZussMAN, J., Brindley, G. W., and Comer, 



J. J., "Electron diffraction studies of serpen- 

 tine minerals," Am. Mineral., 42, 133-153 

 (1957). 



19. Kalousek, G. L. and Muttart, L. E., "Stud- 



ies on the chrysotile and antigorite compo- 

 nents of serpentine," Am. Mineral., 42, 1-22 

 (1957). 



20. Corbet, H. C. and Wolffes, J., "The use of 



a freeze-drying technique in the investiga- 

 tion of sodium-montmorillonite by electron 

 microscopy," "Proc. Stockholm Conf. on 

 Electron Microscopy," 334-335 (1956). 



21. Mering, J., Oberlin, A., and Villiere, J., 



"Etude par electrodeposition de la mor- 

 phologic des montmorillonites. Effet des 

 cation calcium," Bull. Soc. franc, mineral, 

 et crist., 79, 515-522 (1956). 



22. HoFMANN, U., Fahn, R., and Weiss, A., 



"Thixotropie bei kaolinit und innerkristal- 

 line quellung bei montmorillonit. Wirkung 

 der austauschfahigen kationen der flussig- 

 keit und der elektrolj^te einer wassrigen 

 losung," Kolloid-Z., 151, 97-115 (1957). 



23. Roy, D. M. and Roy, R., "An experimental 



study of the formation and properties of 

 synthetic serpentines and related layer 

 silicate minerals," Am. Mineral., 39, 957- 

 975 (1954). 



24. Comer, J. J., Stetson, H. W., and Lyons, 



S. C, "A new replica technique for making 

 electron micrographs of surfaces of paper 



sheets," Tech. Assn. Pulp Paper Ind., 38, 

 620 (1955). 



25. Schmieder, F., "Electron microscopic investi- 



gation of the relation between covering 

 quality and grain size of pigments," Kolloid- 

 Z., 95, 29-33 (1941). 



26. Honda, T. and Mukai, F., "Electron micro- 



scopic observation of pigment (hematite) 

 particles in a porcelain glaze," Rept. Osaka 

 Pref. Ind. Research Inst., 3, 56-57 (1950). 



27. Cooper, A. C, "The electron microscope 



examination of pigment powders and their 

 dispersions in oil media," 1st Int. Cong. 

 Electron Micros. Paris, 1950, Proc. 461-463, 

 Paris Ed. Rev. Optique. 



28. Smith, N. D. P., "The electron microscope in 



the study of paints," Trans. Inst. Metal 

 Finishing, Advance Copy, No. 12, 10 pp. 

 (1955). 



29. Bates, T. F. and Black, M. V., "Electron 



microscope investigation of opal glass," 

 Glass hid., 29, 487 (1948). 



30. Fadeeva, V. S. AND Yakovleva, M. E., 



"Investigation of opaque zirconium glazes 

 with the electron microscope," Doklady 

 Akad. Nauk SSSR, 81, 667-669 (1951). 



31. Meldau, R. and Harsewinkel, "Electron 



microscopy investigations of diamond pow- 

 ders; Electron-optical study of types I and 

 II diamonds," Industrial Diam. Rev., 11, 

 7-8 (1951). 



32. Radczewski, O. E., Muller, H. O., and 



EiTEL, W., "The hydration of tricalcium 

 aluminate," Naturiviss., 27, 837-838 (1939). 



33. Sliepcevich, C. M., Gildart, L., and Katz, 



D. M., "Crystals from Portland cement 

 hydration; an electron microscope study," 

 Ind. Eng. Chem., 35, 1178-1187 (1943). 



34. Shekhter, a. B., Ser-Serbina, N. N., and 



Rebinder, p. a., "Investigation with the 

 electron microscope of the effect of a surface 

 admixture on the crystallization of hydrated 

 minerals of cement clinker," Doklady Akad. 

 Nauk., SSSR, 89, 129-132 (1953). 



35. Cartwright, J. and Skidmore, J. W., "The 



measurement of size and concentration of 

 airborne dusts with the electron micro- 

 scope," Ministry Fuel and Power (G. Brit.) 

 Safety in Mines Research Estab. Research 

 Rept. No. 79, 31 p., 1953. 



36. Talbot, J. H., "Identification of minerals 



present in mine dusts by electron diffraction 

 and electron microscopy," Proc. Stockholm 

 Conf. on Electron Microscopy, 353-355, 1956. 



37. Pfefferkorn, G., "Vergleichende unter- 



suchungen uber den mineralinhalt von 



198 



