Global Journal of Science Frontier Research, G: Bio-Tech & Genetics, Volume 22 Issue 2

4. The Khewa district to Kunarr Khaas districts are where calcite marble first began to thrive. We sincerely want the government to produce accurate and comprehensive satellite, regional, topographical, and geological imagery. This will help the government, businesses, and other researchers. 5. In the field of research, calcite marble from the locations that produce good blocks should be utilized for interior decorating of homes, sculptures, and tabletops, while calcite marble from the locations that produce poor blocks should be used for roads, basements, and other sites. 6. The marble extraction process started some years ago. Additionally, tons of marble have been rotting as a result of extractors using outdated equipment. The government must maintain a close eye on upgraded machinery and must force extractors to employ these tools for efficient extraction. 7. To encourage vendors who have been functioning with marble, travertine, and granite to increase their investments in the marble industry, the government should prolong contracts for up to 10 years. 8. The government need to refrain from extracting the calcite marble from areas where nickel, cobalt, and iron concentrations are high. 9. In order to come down with the loss of marble, the business owner needs pay professionals to do the extraction. 10. The government ought to waive or lower the tax in order to encourage marble dealers. 11. The value of marble domestically in the nation will be impacted by illegal marble exports to foreign nations. The Afghan government must stop illicit exports. 12. In order to generate high-quality cement, the government should persuade traders to participate in the cement business. A cknowledgements We'd like to start by thanking Eng. IrfanUllah " Irfan ". He assisted and led us in the engineering faculty lab's physical and mechanical testing with the basic things we had gathered along with publishing our essay in a prestigious international publication. Furthermore, we are appreciative to the University of Kabul Polytechnic Geology & Mine Faculty for their cooperation with our microscopic petrological investigations of Slides. Finally, we'd like to thank our study supervisor teaching assistant Khairuddin "Rasikh," for his assistance with technical issues. R eferences R éférences R eferencias 1. Naghoj. N. M., Youssef. N. A. R., Maaitah. O. N., 2010, Mechanical Properties of Natural Building Stone: Jordanian Building Limestone as an Example, Jordan Journal of Earth and Environmental Sciences, Pages 37- 48. 2. Ayakwah. G. F., et al, 2009, Effects of Weathering and Alteration on Point Load and Slake Durability Indices of Questa Mine Materials, New Mexico, 50 pages. 3. Melfos. V., et al, 2010, Mineralogical, Petrographic and Stable Isotopic Study of ancient White Marble Quarries in Thessaly, Bulletin of the Geological Society of Greece, 11 pages. 4. Graham. L and Don Cameron., 2008, The Building Stones of Southeast England; Mineralogy and Province, British Geological Survey, 16 pages. 5. Abdullah, S., and Chmyriov, V.M. (editors in chief), 2008, Geology and mineral resources of Afghanistan, 2 volumes: British Geological Survey Occasional Publication no. 15, 780 p. 6. Marble and Talc Deposits in Nangrhar Province, Afghanistan , http://www.indmin.com/ 7. USGS/ Afghan Geological Survey, https:// afghanistan.cr.usgs.gov/ 8. Afghanistan Geological Survey (AGS), (2017). Minerals in Afghanistan: Rare-Metal Deposits. British Geological Survey, Afghanistan project. Available fro m https://www.bgs.ac.uk/afghan- minerals/ la st accessed on 13 May 2019. 9. Feroz, N.M., (1975). Regional geology of Afghanistan, Kabul Polytechnic Publisher. 10. https://doi.org/10.2747/0020-6814.47.2.113 11. Peters, S.G., (2011). Summaries and data packages of important areas for mineral investment production opportunities in Afghanistan, U.S. Geological Survey Fact Sheet 2011–3108. 12. Peters, S.G., King, T.V.V., Mack, T.J., and Cormack, M.P., eds., (2011). The U.S. Geological Survey Afghanistan Mineral Assessment Team, (2011). Summaries of important areas for mineral investment and production opportunities of nonfuel minerals in Afghanistan: (U.S.G.S. 2011–1204). Open-File Report. https://pubs.usgs.gov/of/2011/ 1204/ 13. Peters, S.G., King, T.V.V., Mack, T.J., and Chornak, M.P., (2011). Summaries of important areas for mineral investment and production of opportunities of nonfuel minerals in Afghanistan, U.S.G.S. Open- File report 2011– 1204. 14. Peters, S. G., Ludington, S. D., Orris, G. J., Sutphin, D. M., Bliss, J. D., Rytuba, J. J., & Bawiec, W. J. (2007). Preliminary non-fuel mineral resource assessment of Afghanistan 2007. US geological survey open-file report, 1214. 15. Treloar P.J., Izatt C.N. (1993). Tectonics of the Himalayan collision between the Indian Plate and the Afghan Block: A synthesis // Geol. Soc. Spec. Publ. 16. Maria H.B, (2018). Petrographic Analysis. Brazil: Geological Services Sao Paulo, © 2022 Global Journals 1 Year 2022 102 Global Journal of Science Frontier Research Volume XXII Issue ersion I VII ( G ) Petrological, Geochemical and Mechanical Characteristics of Kooz Kunarr Khewa Calcite Marble