İLERİ MİKROSKOPİ YÖNTEMLERİ İLE PARLAK KESİT ANALİZLERİ
Yıl 2017,
Cilt: 12 Sayı: 4, 1 - 8, 20.10.2017
Kadir Karaman
,
Ercan Şahinoğlu
İbrahim Alp
,
Ayhan Kesimal
,
Ali Osman Yılmaz
Öz
Bu çalışmanın amacı pirit içeren kayaçların parlak kesit analizlerini,
yeni bir teknik olan trinoküler araştırma mikroskobuna entegre clemex görüntü
analiz sistemi ve motorize tabla kullanarak yapmaktır. Motorize tabla ile bütün
kesitin patern oluşturarak taranması mümkün olmuştur. Clemex görüntü analiz
sistemi ile çok kısa sürede analizler yapılabilmiştir. Bu nedenle manuel olarak
yapılan analizlere göre daha güvenilir ve daha hızlı olduğu anlaşılmıştır. Çalışılan
kayaçlardaki pirit oranı (%0.09-%2.13) ve pirite ait en küçük (24µm), en büyük (895µm)
ve ortalama dane çapları (48µm-132µm)hesaplanmıştır. Sonuç olarak daha kısa
sürede daha doğru sonuçlar alma açısından motorize tabla ve clemex gibi
sistemlerin kullanılmasının önem taşıdığı anlaşılmıştır.
Kaynakça
- 1. İrfan, T.Y., (1996). Mineralogy, Fabric Properties and Classification of Weathered Granites in Hong Kong. Q.J. Eng. Geol. 29, 5–35.
- 2. Prikryl, R., (2001). Some Microstructural Aspects of Strength Variation in Rocks. International Journal of Rock Mechanics and Mining Sciences 38, 671–682.
- 3. Tuğrul, A. and Zarif, I.H., (1999). Correlation of Mineralogical and Textural Characteristics with Engineering Properties of Selected Granitic Rocks from Turkey, Engineering Geology 51, 303–317.
- 4. Brace, W.F., (1961). Dependence of Fracture Strength of Rocks on Grain Size. In: Proc. 4th Symp. Rock Mech., Univ. Park, Penn., PA, pp:99–103.
- 5. Onodera, T.F. and Asoka Kumara, H.M., (1980). Relation between Texture and Mechanical Properties of Crystalline Rocks. Bull. Int. Assoc. Eng. Geol. 22, 173–177.
- 6. Chermant, J.L., (1996). Automatic Image Analysis Today. In: Chermant, J.L. (Ed.), Microscopy Microanalysis Microstructure. 7, 5/6, 20th Anniversary of the French Section of the International Society for Stereology, pp:279–288.
- 7. Craig, J.R. and Vaughan, D.J., (1994). Ore Microscopy and Ore Petrology, Second ed. John Wiley and Sons, New York, 434p.
- 8. Reedy, C.L., (2006). Review of Digital İmage Analysis of Petrographic Thin Sections in Conservation Research. Journal of the American Institute for Conservation 45 2), 127–146.
- 9. Lane, G.R., Martin, C., and Pirard, E., (2008). Techniques and Applications for Predictive Metallurgy and ore Characterization Using Optical Image Analysis. Minerals Engineering 21, 568–577.
- 10. Hunt, J., Berry, R., and Bradshaw, D., (2011). Characterising Chalcopyrite Liberation and Flotation Potential: Examples from an IOCG Deposit. Minerals Engineering 24, 1271–1276.
- 11. Köse, C., Alp, İ., and İkibaş C., (2012). Statistical Methods for Segmentation and Quantification of Minerals in Ore Microscopy. Minerals Engineering 30, 19–32.
Yıl 2017,
Cilt: 12 Sayı: 4, 1 - 8, 20.10.2017
Kadir Karaman
,
Ercan Şahinoğlu
İbrahim Alp
,
Ayhan Kesimal
,
Ali Osman Yılmaz
Kaynakça
- 1. İrfan, T.Y., (1996). Mineralogy, Fabric Properties and Classification of Weathered Granites in Hong Kong. Q.J. Eng. Geol. 29, 5–35.
- 2. Prikryl, R., (2001). Some Microstructural Aspects of Strength Variation in Rocks. International Journal of Rock Mechanics and Mining Sciences 38, 671–682.
- 3. Tuğrul, A. and Zarif, I.H., (1999). Correlation of Mineralogical and Textural Characteristics with Engineering Properties of Selected Granitic Rocks from Turkey, Engineering Geology 51, 303–317.
- 4. Brace, W.F., (1961). Dependence of Fracture Strength of Rocks on Grain Size. In: Proc. 4th Symp. Rock Mech., Univ. Park, Penn., PA, pp:99–103.
- 5. Onodera, T.F. and Asoka Kumara, H.M., (1980). Relation between Texture and Mechanical Properties of Crystalline Rocks. Bull. Int. Assoc. Eng. Geol. 22, 173–177.
- 6. Chermant, J.L., (1996). Automatic Image Analysis Today. In: Chermant, J.L. (Ed.), Microscopy Microanalysis Microstructure. 7, 5/6, 20th Anniversary of the French Section of the International Society for Stereology, pp:279–288.
- 7. Craig, J.R. and Vaughan, D.J., (1994). Ore Microscopy and Ore Petrology, Second ed. John Wiley and Sons, New York, 434p.
- 8. Reedy, C.L., (2006). Review of Digital İmage Analysis of Petrographic Thin Sections in Conservation Research. Journal of the American Institute for Conservation 45 2), 127–146.
- 9. Lane, G.R., Martin, C., and Pirard, E., (2008). Techniques and Applications for Predictive Metallurgy and ore Characterization Using Optical Image Analysis. Minerals Engineering 21, 568–577.
- 10. Hunt, J., Berry, R., and Bradshaw, D., (2011). Characterising Chalcopyrite Liberation and Flotation Potential: Examples from an IOCG Deposit. Minerals Engineering 24, 1271–1276.
- 11. Köse, C., Alp, İ., and İkibaş C., (2012). Statistical Methods for Segmentation and Quantification of Minerals in Ore Microscopy. Minerals Engineering 30, 19–32.