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Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi

Year 2017, Volume: 20 Issue: 3, 651 - 662, 15.09.2017

Abstract

Büyük çaplı dairesel testerelerin (S/T) bloklardan plaka kesim
performansları bugüne kadar birçok araştırmacı tarafından incelenmiştir.
Yapılan araştırmalarda özellikle doğal taşların fiziksel ve mekanik özellikleri
ile S/T makinesinin kesim performansı arasındaki ilişkiler irdelenmiştir.



Bu çalışmada, Muğla Milas beyaz mermeri, Afyon şeker mermeri, Antalya
kireçtaşı, Milas açık beyaz mermeri ve Marmara koyu gri mermerinin fabrikalarda
S/T performans ölçümleri detaylıca yapılmıştır. S/T kesimi yapılan bloklardan
numuneler alınarak tek eksenli basınç dayanımı (UCS), Brazilian çekme dayanımı
(BTS), Cerchar aşındırıcılık indeksi (CAI), Shore scleroscope sertliği, Schmidt
çekici sertliği ve yoğunluk deneyleri ISRM ve ASTM standartlarına uygun olarak
yapılmıştır. S/T makinelerinin plaka üretim performanslarının tahmini için
basit ve çoklu regresyon analizleri yapılarak yeni bir performans tahmin modeli
önerilmiştir. Basit regresyon analizlerinde kayacın hangi mekanik özelliğinin
S/T performansına etkisi olduğu belirlenmiştir. Yapılan çoklu regresyon
analizlerinde doğal taşların UCS ve CAI değerleri kullanılarak yeni bir
istatistiksel model önerilmiştir. Önerilen modelin güvenilirliği literatürden
elde edilen S/T kesim performanslarıyla irdelenmiştir. Karşılaştırmalar ve
doğrulamalar önerilen modelin S/T plaka üretim tahmini için güvenilir bir araç
olduğunu göstermektedir. 

References

  • 1. Burgess R. B., “Circular sawing granite with diamond saw blades”, Fifth Industrial Diamond Seminar, 3-10, (1978).
  • 2. Hausberger P., “Causes of the different behaviour of rocks when machined with diamond tools”, Ind Diamond Rev., 3: 1-25, (1989).
  • 3. Ceylanoglu A. And Gorgulu K., “The performance measurement results of stone cutting machines and their relations with some material properties”, Sixth International Symposium on Mine Planning and Equipment Selection, Ostrava, Czech Republic, 393-398, (1997).
  • 4. Brook B., “Principles of diamond tool technology for sawing rock”, Int J Rock Mech Min Sci, 39(1) :41-58, (2002).
  • 5. Wie X., Wang C.Y. and Zhou Z.H., “Study on the fuzzy ranking of granites sawability”, J Mater Process Technol, 139(1-3): 277-280, (2003).
  • 6. Gunaydin O., Kahraman S. And Fener M., “Sawability prediction of carbonate rocks from brittleness indexes”, J S Afr Inst Min Metall, 104: 239-243, (2004).
  • 7. Kahraman S., Fener M. and Gunaydin O., “Predicting the sawability of carbonate rocks using multiple curvilinear regression analysis”, Int J Rock Mech Min Sci, 41(7): 1123-1131, (2004).
  • 8. Norling R.G., “Mechanical properties and the composition of some Swedish natural stone types and their effect on cutting results”, Conference on Diamond in The Construction and Stone industry, Germany, (1971).
  • 9. Clausen R., Wang C.Y. and Meding M., “Characteristics of acoustic emission during single diamond scratching of granite”, Ind Diamond Rev, 3: 96-99, (1996).
  • 10. Zhang S.H. and Lu F., “A new method of grading the sawability of natural rock materials”, Key Eng Mater, 250: 293-296, (2003).
  • 11. Kahraman S., Altun H., Tezekici B.S. and Fener M., “Sawability prediction of carbonate rocks from shear strength parameters using artificial neural networks”, Int J Rock Mech Min Sci, 43(1):157-164, (2006).
  • 12. Delgado NS, Rodriguez-Rey A, Rio LMS, Sarria ID, Calleja L. and Argandona VGR., “The influence of micro hardness on the sawability of Pink Porrino granite (Spain)”, Int J Rock Mech Min Sci, 42(1): 161-166, (2005).
  • 13. Tutmez B, Kahraman S. and Gunaydin O., “Multifactorial fuzzy approach to the sawability classification of building stones”, Constr Build Mater, 21(8): 1672-1679, (2007).
  • 14. Ribeiro RP, Paraguassu AB, Rodrigues J.E., “Sawing of blocks of siliceous dimension stone: influence of texture and mineralogy”, Bull Eng Geol Environ, 66(1): 101-107, (2007).
  • 15. Kahraman S. and Gunaydin O., “Indentation test to estimate the sawability of carbonate rocks”, Bull Eng Geol Environ, 67(4): 507-511, (2008).
  • 16. Guney A., “Performance prediction of large-diameter circular saws based on surface hardness tests for Mugla (Turkey) marbles”, Rock Mech Rock Eng, 44(3): 357-366, (2011).
  • 17. Tumac D., “Predicting the performance of large diameter circular saws based on Schmidt hammer and other properties for some Turkish carbonate rocks”, Int J Rock Mech Min Sci, 75: 159-168, (2015).
  • 18. Tumac D., “Artificial neural network application to predict the sawability performance of large diameter circular saws”, Measurement, 80: 12-20, (2016).
  • 19. International Society of Rock Mechanics (ISRM). “The complete ISRM suggested methods for rock characterization, testing and monitoring”, London: Pergamon Press, (1981).
  • 20. American Society for Testing and Materials (ASTM). “Standard test method for laboratory determination of abrasiveness of rock using the CERCHAR method”, ASTM D7625-10, (2010).
  • 21. Fener M, Kahraman S. and Ozder M.O., “Performance prediction of circular diamond saws from mechanical rock properties in cutting carbonate rocks”, Rock Mech Rock Engng, 40(5): 505-517, (2007).
Year 2017, Volume: 20 Issue: 3, 651 - 662, 15.09.2017

Abstract

References

  • 1. Burgess R. B., “Circular sawing granite with diamond saw blades”, Fifth Industrial Diamond Seminar, 3-10, (1978).
  • 2. Hausberger P., “Causes of the different behaviour of rocks when machined with diamond tools”, Ind Diamond Rev., 3: 1-25, (1989).
  • 3. Ceylanoglu A. And Gorgulu K., “The performance measurement results of stone cutting machines and their relations with some material properties”, Sixth International Symposium on Mine Planning and Equipment Selection, Ostrava, Czech Republic, 393-398, (1997).
  • 4. Brook B., “Principles of diamond tool technology for sawing rock”, Int J Rock Mech Min Sci, 39(1) :41-58, (2002).
  • 5. Wie X., Wang C.Y. and Zhou Z.H., “Study on the fuzzy ranking of granites sawability”, J Mater Process Technol, 139(1-3): 277-280, (2003).
  • 6. Gunaydin O., Kahraman S. And Fener M., “Sawability prediction of carbonate rocks from brittleness indexes”, J S Afr Inst Min Metall, 104: 239-243, (2004).
  • 7. Kahraman S., Fener M. and Gunaydin O., “Predicting the sawability of carbonate rocks using multiple curvilinear regression analysis”, Int J Rock Mech Min Sci, 41(7): 1123-1131, (2004).
  • 8. Norling R.G., “Mechanical properties and the composition of some Swedish natural stone types and their effect on cutting results”, Conference on Diamond in The Construction and Stone industry, Germany, (1971).
  • 9. Clausen R., Wang C.Y. and Meding M., “Characteristics of acoustic emission during single diamond scratching of granite”, Ind Diamond Rev, 3: 96-99, (1996).
  • 10. Zhang S.H. and Lu F., “A new method of grading the sawability of natural rock materials”, Key Eng Mater, 250: 293-296, (2003).
  • 11. Kahraman S., Altun H., Tezekici B.S. and Fener M., “Sawability prediction of carbonate rocks from shear strength parameters using artificial neural networks”, Int J Rock Mech Min Sci, 43(1):157-164, (2006).
  • 12. Delgado NS, Rodriguez-Rey A, Rio LMS, Sarria ID, Calleja L. and Argandona VGR., “The influence of micro hardness on the sawability of Pink Porrino granite (Spain)”, Int J Rock Mech Min Sci, 42(1): 161-166, (2005).
  • 13. Tutmez B, Kahraman S. and Gunaydin O., “Multifactorial fuzzy approach to the sawability classification of building stones”, Constr Build Mater, 21(8): 1672-1679, (2007).
  • 14. Ribeiro RP, Paraguassu AB, Rodrigues J.E., “Sawing of blocks of siliceous dimension stone: influence of texture and mineralogy”, Bull Eng Geol Environ, 66(1): 101-107, (2007).
  • 15. Kahraman S. and Gunaydin O., “Indentation test to estimate the sawability of carbonate rocks”, Bull Eng Geol Environ, 67(4): 507-511, (2008).
  • 16. Guney A., “Performance prediction of large-diameter circular saws based on surface hardness tests for Mugla (Turkey) marbles”, Rock Mech Rock Eng, 44(3): 357-366, (2011).
  • 17. Tumac D., “Predicting the performance of large diameter circular saws based on Schmidt hammer and other properties for some Turkish carbonate rocks”, Int J Rock Mech Min Sci, 75: 159-168, (2015).
  • 18. Tumac D., “Artificial neural network application to predict the sawability performance of large diameter circular saws”, Measurement, 80: 12-20, (2016).
  • 19. International Society of Rock Mechanics (ISRM). “The complete ISRM suggested methods for rock characterization, testing and monitoring”, London: Pergamon Press, (1981).
  • 20. American Society for Testing and Materials (ASTM). “Standard test method for laboratory determination of abrasiveness of rock using the CERCHAR method”, ASTM D7625-10, (2010).
  • 21. Fener M, Kahraman S. and Ozder M.O., “Performance prediction of circular diamond saws from mechanical rock properties in cutting carbonate rocks”, Rock Mech Rock Engng, 40(5): 505-517, (2007).
There are 21 citations in total.

Details

Journal Section Research Article
Authors

Deniz Tumaç

Sahand Tolouei This is me

Publication Date September 15, 2017
Submission Date September 22, 2017
Published in Issue Year 2017 Volume: 20 Issue: 3

Cite

APA Tumaç, D., & Tolouei, S. (2017). Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi. Politeknik Dergisi, 20(3), 651-662. https://doi.org/10.2339/politeknik.339393
AMA Tumaç D, Tolouei S. Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi. Politeknik Dergisi. September 2017;20(3):651-662. doi:10.2339/politeknik.339393
Chicago Tumaç, Deniz, and Sahand Tolouei. “Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi”. Politeknik Dergisi 20, no. 3 (September 2017): 651-62. https://doi.org/10.2339/politeknik.339393.
EndNote Tumaç D, Tolouei S (September 1, 2017) Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi. Politeknik Dergisi 20 3 651–662.
IEEE D. Tumaç and S. Tolouei, “Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi”, Politeknik Dergisi, vol. 20, no. 3, pp. 651–662, 2017, doi: 10.2339/politeknik.339393.
ISNAD Tumaç, Deniz - Tolouei, Sahand. “Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi”. Politeknik Dergisi 20/3 (September 2017), 651-662. https://doi.org/10.2339/politeknik.339393.
JAMA Tumaç D, Tolouei S. Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi. Politeknik Dergisi. 2017;20:651–662.
MLA Tumaç, Deniz and Sahand Tolouei. “Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi”. Politeknik Dergisi, vol. 20, no. 3, 2017, pp. 651-62, doi:10.2339/politeknik.339393.
Vancouver Tumaç D, Tolouei S. Mermer Fabrikalarında Kullanılan Büyük Çaplı Dairesel Testerelerin (S/T) Performans Analizi. Politeknik Dergisi. 2017;20(3):651-62.