Figure 14Composite 1-kbar, 1-m total chloride solubility diagram using translation - Figure 14Composite 1-kbar, 1-m total chloride solubility diagram using Indonesian how to say

Figure 14Composite 1-kbar, 1-m tota

Figure 14
Composite 1-kbar, 1-m total chloride solubility diagram using the K-feldspar – muscovite – quartz buffer in the mixed sulphide system, showing implied transport, deposition, and zoning relation for the metals with temperature. Dashed extensions of the saturation curves are visual extraplotation. Horizontal arrows are undersaturated transport paths for the metals in an increment of migrating,, cooling solution. Precipitation occurs down the saturation curves when the curves are intersected. With pressure as the third axis, the saturation curves become PT saturation surfaces (after Hemley and Hunt 1992)

Figure 15
Distribution of copper and gold on an upper level of the Dizon deposit, Philippines (from Silitoe and Gappe 1984)
In the innermost zone, chalcopyrite, bornite and magnetite occur. Pyrite is present, but is usually less abundant than chalcopyrite. This zone more or less corresponds to the potassic zone of alteration. Gold usually correlates with copper (Figure 15).
Where minor phyllic overprinting of potassic alteration has occurred, magnetite tends to be replaced by hematite, but the copper mineralogy is unaffected. In outlying or overlying phyllic zones, “pyrite halo” around the economic ore bodies. This can be as large as 60 km2 and can be a useful exploration indicator.
In propyliitic zones, pyrite is the predominant sulphide, with only minor base metal sulphides. There may however be late-stage veins with more base metals (and gold).
Molybdeum mineralization, where it occurs, tends to cut across the other mineralisaztion, both in space (zonation) and time (paragnesis). It can be found through the potassic, phyllic and into the propylitic zones. In some cases it occurs in a distal location, forming a halo around the copper and gold economic mineralization, and it has been used as an exploration tool, but this is by no means always the case. In other cases it is only found in the central zone.
In advanced argillic zone, enargite, luzonite, covellite and tennantie-tetrahedrite can be found.
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Gambar 14Komposit 1-kbar, 1-m total klorida kelarutan diagram menggunakan buffer kuarsa K-feldspar-Moskow – dalam sistem campuran sulfida, menampilkan transportasi tersirat, endapan, dan zonasi hubungan logam dengan suhu. Putus-putus ekstensi saturasi kurva yang visual extraplotation. Horisontal panah yang undersaturated transportasi jalan untuk logam dalam kenaikan dari migrasi,, pendinginan solusi. Curah hujan terjadi turun saturasi kurva ketika kurva dipotong. Dengan tekanan ketiga sumbu, saturasi kurva menjadi PT saturasi permukaan (setelah Hemley dan berburu 1992) Gambar 15 Distribusi tembaga dan emas pada tingkat paling atas deposit Dizon Filipina (dari Silitoe dan Gappe 1984)Di zona terdalam, chalcopyrite, bornite dan magnetit terjadi. Pirit hadir, tetapi biasanya kurang berlimpah daripada chalcopyrite. Zona ini lebih atau kurang sesuai dengan zona potassic perubahan. Emas biasanya berhubungan dengan tembaga (gambar 15).Mana kecil phyllic overprinting potassic perubahan telah terjadi, magnetit cenderung akan digantikan oleh bijih besi, tetapi mineralogi tembaga tidak terpengaruh. Di terluar atau atasnya zona phyllic, "pirit halo" di sekitar bijih ekonomi tubuh. Ini dapat menjadi besar seperti 60 km2 dan dapat menjadi indikator eksplorasi berguna.Dalam zona propyliitic, pirit adalah sulfida dominan, dengan hanya sedikit logam dasar mengandung sulfida. Namun mungkin ada tahap akhir vena dengan lebih logam dasar (dan emas).Molybdeum mineralisasi, mana itu terjadi, cenderung untuk membelah mineralisaztion lain, baik dalam ruang (zonasi) dan waktu (paragnesis). Ini dapat ditemukan melalui potassic, phyllic dan masuk ke zona propylitic. Dalam beberapa kasus itu terjadi di lokasi distal, membentuk lingkaran di sekitar mineralisasi ekonomi tembaga dan emas, dan telah digunakan sebagai alat eksplorasi, tetapi hal ini tidak selalu terjadi. Dalam kasus lain hanya ditemukan di zona tengah.Di zona argillic maju, enargite, luzonite, covellite dan tennantie-tetrahedrite dapat ditemukan.8. evolusi dalam waktu
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