Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-22T06:55:05.199Z Has data issue: false hasContentIssue false

Drugmanite, Pb2(Fe3+,Al) (PO4)2(OH) · H2O, a new mineral from Richelle, Belgium

Published online by Cambridge University Press:  05 July 2018

R. Van Tassel
Affiliation:
Institut royal des Sciences naturelles de Belgique, BrusselsBelgium
A.-M. Fransolet
Affiliation:
Institut de Minéralogie, Université de Liège, Liège, Belgium
K. Abraham
Affiliation:
Institut für Mineralogie, Ruhr-Universität, Bochum Federal Republic of Germany

Summary

Drugmanite occurs as rare colourless transparent platy crystals, up to 0.2 mm, aggregated in bunches, in vugs of a mineralized and silicified limestone. Hardness < 6. Crystals monoclinic, forms {001} {110}, parameters from indexed X-ray powder pattern (and monocrystal measurements): a = 11.110 (11.111) Å, b = 7.976 (7.986), c = 4.644 (4.643), β = 90°18′ (90°.41°). Space group P21/a with Z = 2 giving Dcalc = 5.55. Strongest lines are 4.63 Å (9), 3.752 (IO), 3.350 (8), 3.247 (8), 2.912 (9). Mean refractive index 1.88 from reflectance measurements. Strong dispersion r < v, optic axial plane // (olo), 2Vα = 33±2°. Electron microprobe analysis gave P 8.89, Al 0.85, Fe 6.19, Pb 59.76%, leading to Pb4.02 ( Al0.45)P4.00O17.02·3H2O or Pb2(Al0.22) (PO4)2 (OH)·H2O. Associated minerals are pyromorphite, anglesite, corkite and phosphosiderite. Named for J. Drugman, Belgian mineralogist (1875–1950).

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1979

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abraham, (K.), Kautz, (K.), Tillmanns, (E.), and Walenta, (K.), 1978. Neues Jahrb. Mineral. Monatshefte. 193-6.Google Scholar
Brasseur, (H.), 1975. Bull. Soc. roy. Sci. Liege,. 44, 209-12.Google Scholar
Cox, (A. A.), 1967. A program for least-squares refinement of unit cell dimensions. The City University London, Dept. Physics, Crystallogr. Laboratory.Google Scholar
Denaeyer, (M. E.), 1951. Bull. Soc.fr. Mineral. Cristallogr. 74, 1-9.Google Scholar
Duncumb, (P.) and Reed, (S. J. B.), 1968. The calculation of stopping power and backscatter effects in electron probe microanalysis. In Quantitative electron probe microanalysis. NBS Spec. Publ, n°. 298, 133-54.Google Scholar
Fransolet, (A.-M.), Jedwab, (J.), and Van Tassel, (R.), 1974a. Ann. Soc. géol. Belg. 97, 23-6.Google Scholar
Fransolet, (A.-M.), Jedwab, (J.), and Van Tassel, (R.) 1974b. Ann. Soc. géol. Belg. 97, 27-38.Google Scholar
Fransolet, (A.-M.), Jedwab, (J.), and Van Tassel, (R.) 1974c. Ann. Soc. géol. Belg. 97, 321-30.Google Scholar
Fransolet, (A.-M.), Jedwab, (J.), and Van Tassel, (R.) 1974d. Ann. Soc. géol. Belg. 97, 331-40.Google Scholar
Fransolet, (A.-M.), Jedwab, (J.), and Van Tassel, (R.) 1977. Ann. Soc. géol. Belg. 100, 1-7.Google Scholar
Heinrich, (K. F. J.), 1967. The absorption correction model for microprobe analysis. In abstracts 2nd Nat. Conf. Electron Microprobe Analysis. Boston, Mass.Google Scholar
Mandarino, (J. A.), 1976. Can. Mineral. 14, 498-502.Google Scholar
Mélon, (J.), Bourguignon, (P.), and Fransolet, (A.-M.), 1976. Les minéraux de Belgique. Edit. Lelotte, G., Dison, Belgium, 282 pp.Google Scholar
Moore, (P. B.), Irving, (A. J.), and Kampf, (A. R.), 1975. Am. Mineral. 60, 957-64.Google Scholar
Philibert, (J.), 1963. A method for calculating the absorption correction in electron probe microanalysis. In X-ray optics and X-ray microanalysis, vol. 3, NY, Acad. Press.Google Scholar
Pirlet, (H.), 1967. Ann. Soc. géol. Belg. 90, 299-328.Google Scholar
Reed, (S. J. B.), 1965. Brit. Journ. Appl. Phys. 16, 913-26.CrossRefGoogle Scholar
Strunz, (H.), 1978. Mineralogische Tabellen. 7. Auflage. Akad. Verlagsgesellschaft, Geest und Portig K.-G., Leipzig.Google Scholar
Yarowitz, (H.), Myklebust, (R. L.), and Heinrich, (K. F. J.), 1973. Frame: An on-line correction procedure for quantitative electron probe microanalysis. NBS Techn. Note 796.CrossRefGoogle Scholar