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Refractory- and metallurgical-type chromite ores, Zambales ophiolite, Luzon, Philippines

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Abstract

The Zambales ophiolite is the major source of chromite ore in the Philippines. The chromitites are concordant cumulates and are associated with distinct chromitite-bearing sequences within the mantle peridotites. Refractory and metallurgical chromite deposits are spatially separated and related to different lithologic associations, which crystallized from different parental magmas. — Refractory chromite ores (30–44 wt% Cr2O3; 20–30 wt% Al2O3) are linked with the peridotite-troctolite-olivine gabbro lineage. Two main types were found: (1) Al-rich refractory ores associated with harzburgites and feldspathic periodotites and (2) more Cr-rich varieties associated with lherzolites. — Metallurgical chromite ores (45–53 wt% Cr2O3; 12–18 wt% Al2O3) are linked with the peridotite-pyroxenite-norite lineage. Two main types were also found: (1) Cr-rich metallurgical ores associated with orthopyroxenites and (2) more Al-rich varieties related to clinopyroxenites. — The chemical composition of chromite within the deposits varies depending on the chromite/silicate ratios of the ore types and grades continuously into accessory chrome spinels in the wall-rock peridotites. — The geochemistry of accessory chrome spinels in various peridotites and mafic cumulates depends on the mineralogical composition and the stratigraphic position of their host rocks.

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Author notes

  1. M. Hock

    Present address: BEB Erdgas und Erdöl GmbH, Riethorst 12, D-3000, Hannover 51

Authors and Affiliations

  1. Institut für Mineralogie und Lagerstättenlehre, Rheinisch-Westfälische Technische Hochschule Aachen, Wüllnerstraße 2, D-5100, Aachen, Germany

    M. Hock, G. Friedrich, W. L. Plüger & A. Wichowski

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  1. M. Hock
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  2. G. Friedrich
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  3. W. L. Plüger
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  4. A. Wichowski
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Additional information

New address: BEB Erdgas und Erdöl GmbH, Riethorst 12, D-3000 Hannover 51

The terms chrome-spinels and chromite are used as follows: 1. Chrome-spinel is only used for those occuring as accessory minerals in various ultramafic and mafic rocks (= accessory chrome-spinels). Their chemical composition has been determined only by microprobe analysis. — 2. Chromite is used for ore and ore deposits (=chromitites); the chemical composition has been determined by wet chemistry (AAS) or by microprobe analysis

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Hock, M., Friedrich, G., Plüger, W.L. et al. Refractory- and metallurgical-type chromite ores, Zambales ophiolite, Luzon, Philippines. Mineral. Deposita 21, 190–199 (1986). https://doi.org/10.1007/BF00199799

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