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Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon

Year 2019, Volume: 14 Issue: 3, 68 - 79, 08.07.2019

Abstract

Son
yıllarda ülkemizde boru bağlantı elemanları üretimi yapan üreticiler ithal
ürünlerle rekabet edememektedir ve kuruluşlar üretim durdurmaktadır. Prinç
fittings malzemelerinin Avrupa’da sıhhi tesisat hatlarında kullanımı yaygınken
ülkemizde sadece makine ekipmanlarında uygulamaları mevcuttur. Bu makalede ülkemizde
TSE ve ISO standartlarında fittings üretimi yapan bir kuruluşta güvenilir sıhhi
tesisat sistemleri için prinç redüksiyona ½ inc boru iç diş açma işlemi
araştırılmıştır. CNC Freze ve tornada uygulanan iki farklı tip üretim incelenmiştir.
Prinç fittings redüksiyon ürünün optimum işleme koşulları belirlenerek minimum
enerji sarfiyatı ve maksimum sayıda ürün imalatı gerçekleştirilmiştir. Üniversal
torna tezgahında iç diş açmak için 31–56Wh enerji gerekliyken, Freze tezgahında
27-36Wh enerji sarfiyatı ortaya çıkmıştır. Üretim enerjisi giderlerine en çok
etkili olan parametre %66 oranda tezgâh tipidir. Minimum enerji maliyeti ve
maksimum sayıda seri üretim yapabilmek için CNC Freze tezgâhı kullanılması
gereklidir. 180 RPM devir sayısında diş açarak her iki tezgâhta bu enerji
maliyetleri azaltılabilecektir. Böylelikle enerji tasarrufu ve üretim sayısında
optimizasyon ile prinç fittings malzemeleri güvenilir sıhhi tesisat ve doğalgaz
hatları için kullanımı yaygınlaşabilecektir.

References

  • [1] Weinert, K., Inasaki, I., Sutherland J.W., and Wakabayashi, T., (2004). Dry Machining and Minimum Quantity Lubrication. CIRP Annals, 53(2):511–537.
  • [2] Öztürk, B., Küçük, Ö., Düzdar, İ., and Altınbilek, Y.S., (2017). Exploring the Economial Reasons of the Usage of Unhealthy & Low Resisting Far-east Products in the Water Pipe Systems, The Turkish Journal of Occupational/Environmental Medicine and Safety, 2(3):60-72.
  • [3] Ingarao, G., Lorenzo D.R., and Micari, F., (2011). Sustainability Issues in Sheet Metal Forming Processes. An Overview. J. Clean. Prod. 19(4):337-347.
  • [4] Düzdar, I., Kantoğlu, B., and Öztürk, B., (2017). A New Product Design After Benckmarking Analysis of Helis Gear Pumps and Optimization in Energy Consumption. Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 6:610-617.
  • [5] Balogun, V.A. and Mativenga, P.T., (2013). Modelling of Direct Energy Requirements in Mechanical Machining Processes. J. Clean. Prod., 41:179-186.
  • [6] Bhushan, R.K., (2013). Optimization of Cutting Parameters for Minimizing Power Consumption and Maximizing Tool Life During Machining of Al Alloy SiC Particle Composites. J. Clean. Prod., 39:242-254.
  • [7] Öztürk, B. ve Küçük, Ö., (2019). Bakır ve Pirinç Talaşı ile Takviye Edilmiş Boru Bağlantı Elemanlarının İki Farklı Üretim Türü İçin (SEC) Özel Enerji Tüketim Modeli. Politeknik Dergisi, DOI: 10.2339/politeknik.473105.
  • [8] Hanafi, I., Khamlichi, A., Cabrera, F.M., Almansa, E., and Jabbouri, A., (2012). Optimization of Cutting Conditions for Sustainable Machining of PEEK-CF30 Using TiN Tools. J. Clean. Prod., 33:1-9.
  • [9] Öztürk, B., Uğur, L., and Yildiz, A., (2019). Investigation of Effect on Energy Consumption of Surface Roughness in X-axis and Spindle Servo Motors in Slot Milling Operation, Measurement, 139:92-102, https://doi.org/10.1016/j.measurement.2019.02.009.
  • [10] Mori, M., Fujishima, M., Inamasu, Y., and Oda, Y., (2011). A Study on Energy Efficiency Improvement for Machine Tools. CIRP Annals-Manufacturing Technology, 60:145–148.
  • [11] Liu, N., Zhang, Y.F., and Lu, W.F., (2015). A Hybrid Approach to Energy Consumption Modelling Based on Cutting Power: A Milling Case. J. Clean. Prod., 104:264-272.
  • [12] Negrete, C.C., (2013). Optimization of Cutting Parameters for Minimizing Energy Consumption in Turning of AISI 6061 T6 Using Taguchi Methodology and ANOVA. J. Clean. Prod., 53:195-203.
  • [13] Oda, Y., Mori, M., Ogawa, K., Nishida, S., Fujishima, M., and Kawamura T., (2012). Study of Optimal Cutting Condition for Energy Efficiency Improvement in Ball end Milling with Tool-Workpiece Inclination CIRP Annals-Manufacturing Technology, 61:119–122.
  • [14] Shokoohi, Y., Khosrojerdi, E., Shiadhi, R., (2015). Machining and Ecological Effects of a New Developed Cutting Fluid in Combination with Different Cooling Techniques on Turning Operation. Journal of Cleaner Production, 94:330-339.
  • [15] Yurdakul, M., (2015). Effect of Cutting Parameters on Consumed Power in İndustrial Granite Cutting Processes Performed with The Multi-Disc Block Cutter. International Journal of Rock Mechanics & Mining Sciences, 76:104–111.
  • [16] Neugebauer, R., Schubert, A., Reichmann, B., and Dix, M., (2011). Influence Exerted by Tool Properties on the Energy Efficiency During Drilling and Turning Operations. CIRP Journal of Manufacturing Science and Technology, 4:161–169.
  • [17] Escalona, P.M., Shokrani, A., Newman, S.T., (2015). Influence of Cutting Environments on Surface Integrity and Power Consumption of Austenitic Stainless Steel. Robotics and Computer-Integrated Manufacturing, 36:60–69.
  • [18] Nas, E. And Öztürk, B., (2018). Optimization of Surface Roughness via the Taguchi Method and Investigation of Energy Consumption when Milling Spheroidal Graphite cast Iron Materials. Materials Testing For Production Technologies, 60(5):519-524.
  • [19] Liu, N., Wang, S.B., Zhang, Y.F., and Lu, W.F., (2016). A novel Approach to Predicting Surface Roughness Based on Specific Cutting Energy Consumption When Slot Milling Al-7075. International Journal of Mechanical Sciences, 118:13–20.
  • [20] Küçük, Ö., Öztürk, B., Altınbilek, Y.S. ve Elfarah, T.T.K., 2017. Şehir Su Şebekesi Tesisat Boru Bağlantı Elemanlarının Akışkan Analizine Bağlı Basınç Dayanım Analizinin Yapılması. Kastamonu University Journal of Engineering and Sciences 3(1):32-43.
  • [21] Öztürk, B., Öktem, H., Said, G., Çetindağ, H.A., and Erzincanlı, F., (2016). Investigation of Cooling Rate on Hardness and Microstructure in Casting Fittings Materials. Published in 4th International Symposium on Innovative Technologies in Engineering and Science 3-5, November 2016 (ISITES2016 Alanya/Antalya-Turkey), 1279-128.
  • [22] Öktem, H., Öztürk, B., and Akincioğlu, S., (2017). Investigation of Energy Consumption on Thread Machining of Austempered Ductile Cast Iron Materials. 5th International Conference and Exhibition on Mechanical & Aerospace Engineering, DOI: 10.4172/2168-9792-C1-01, October 02-04, Las Vegas, USA.
  • [23] Korloy, (2018). Korloy Kesici Takım Teknik Özellikler Katoloğu.
  • [24] Fanuc, (2012). Fanuc 1000 CNC Kullanıcı Rehberi.
  • [25] Entes, (2018). Entes Akım Trafosu Ve Ampermetreler Teknik Özellikler Katoloğu.
Year 2019, Volume: 14 Issue: 3, 68 - 79, 08.07.2019

Abstract

References

  • [1] Weinert, K., Inasaki, I., Sutherland J.W., and Wakabayashi, T., (2004). Dry Machining and Minimum Quantity Lubrication. CIRP Annals, 53(2):511–537.
  • [2] Öztürk, B., Küçük, Ö., Düzdar, İ., and Altınbilek, Y.S., (2017). Exploring the Economial Reasons of the Usage of Unhealthy & Low Resisting Far-east Products in the Water Pipe Systems, The Turkish Journal of Occupational/Environmental Medicine and Safety, 2(3):60-72.
  • [3] Ingarao, G., Lorenzo D.R., and Micari, F., (2011). Sustainability Issues in Sheet Metal Forming Processes. An Overview. J. Clean. Prod. 19(4):337-347.
  • [4] Düzdar, I., Kantoğlu, B., and Öztürk, B., (2017). A New Product Design After Benckmarking Analysis of Helis Gear Pumps and Optimization in Energy Consumption. Düzce Üniversitesi Bilim ve Teknoloji Dergisi, 6:610-617.
  • [5] Balogun, V.A. and Mativenga, P.T., (2013). Modelling of Direct Energy Requirements in Mechanical Machining Processes. J. Clean. Prod., 41:179-186.
  • [6] Bhushan, R.K., (2013). Optimization of Cutting Parameters for Minimizing Power Consumption and Maximizing Tool Life During Machining of Al Alloy SiC Particle Composites. J. Clean. Prod., 39:242-254.
  • [7] Öztürk, B. ve Küçük, Ö., (2019). Bakır ve Pirinç Talaşı ile Takviye Edilmiş Boru Bağlantı Elemanlarının İki Farklı Üretim Türü İçin (SEC) Özel Enerji Tüketim Modeli. Politeknik Dergisi, DOI: 10.2339/politeknik.473105.
  • [8] Hanafi, I., Khamlichi, A., Cabrera, F.M., Almansa, E., and Jabbouri, A., (2012). Optimization of Cutting Conditions for Sustainable Machining of PEEK-CF30 Using TiN Tools. J. Clean. Prod., 33:1-9.
  • [9] Öztürk, B., Uğur, L., and Yildiz, A., (2019). Investigation of Effect on Energy Consumption of Surface Roughness in X-axis and Spindle Servo Motors in Slot Milling Operation, Measurement, 139:92-102, https://doi.org/10.1016/j.measurement.2019.02.009.
  • [10] Mori, M., Fujishima, M., Inamasu, Y., and Oda, Y., (2011). A Study on Energy Efficiency Improvement for Machine Tools. CIRP Annals-Manufacturing Technology, 60:145–148.
  • [11] Liu, N., Zhang, Y.F., and Lu, W.F., (2015). A Hybrid Approach to Energy Consumption Modelling Based on Cutting Power: A Milling Case. J. Clean. Prod., 104:264-272.
  • [12] Negrete, C.C., (2013). Optimization of Cutting Parameters for Minimizing Energy Consumption in Turning of AISI 6061 T6 Using Taguchi Methodology and ANOVA. J. Clean. Prod., 53:195-203.
  • [13] Oda, Y., Mori, M., Ogawa, K., Nishida, S., Fujishima, M., and Kawamura T., (2012). Study of Optimal Cutting Condition for Energy Efficiency Improvement in Ball end Milling with Tool-Workpiece Inclination CIRP Annals-Manufacturing Technology, 61:119–122.
  • [14] Shokoohi, Y., Khosrojerdi, E., Shiadhi, R., (2015). Machining and Ecological Effects of a New Developed Cutting Fluid in Combination with Different Cooling Techniques on Turning Operation. Journal of Cleaner Production, 94:330-339.
  • [15] Yurdakul, M., (2015). Effect of Cutting Parameters on Consumed Power in İndustrial Granite Cutting Processes Performed with The Multi-Disc Block Cutter. International Journal of Rock Mechanics & Mining Sciences, 76:104–111.
  • [16] Neugebauer, R., Schubert, A., Reichmann, B., and Dix, M., (2011). Influence Exerted by Tool Properties on the Energy Efficiency During Drilling and Turning Operations. CIRP Journal of Manufacturing Science and Technology, 4:161–169.
  • [17] Escalona, P.M., Shokrani, A., Newman, S.T., (2015). Influence of Cutting Environments on Surface Integrity and Power Consumption of Austenitic Stainless Steel. Robotics and Computer-Integrated Manufacturing, 36:60–69.
  • [18] Nas, E. And Öztürk, B., (2018). Optimization of Surface Roughness via the Taguchi Method and Investigation of Energy Consumption when Milling Spheroidal Graphite cast Iron Materials. Materials Testing For Production Technologies, 60(5):519-524.
  • [19] Liu, N., Wang, S.B., Zhang, Y.F., and Lu, W.F., (2016). A novel Approach to Predicting Surface Roughness Based on Specific Cutting Energy Consumption When Slot Milling Al-7075. International Journal of Mechanical Sciences, 118:13–20.
  • [20] Küçük, Ö., Öztürk, B., Altınbilek, Y.S. ve Elfarah, T.T.K., 2017. Şehir Su Şebekesi Tesisat Boru Bağlantı Elemanlarının Akışkan Analizine Bağlı Basınç Dayanım Analizinin Yapılması. Kastamonu University Journal of Engineering and Sciences 3(1):32-43.
  • [21] Öztürk, B., Öktem, H., Said, G., Çetindağ, H.A., and Erzincanlı, F., (2016). Investigation of Cooling Rate on Hardness and Microstructure in Casting Fittings Materials. Published in 4th International Symposium on Innovative Technologies in Engineering and Science 3-5, November 2016 (ISITES2016 Alanya/Antalya-Turkey), 1279-128.
  • [22] Öktem, H., Öztürk, B., and Akincioğlu, S., (2017). Investigation of Energy Consumption on Thread Machining of Austempered Ductile Cast Iron Materials. 5th International Conference and Exhibition on Mechanical & Aerospace Engineering, DOI: 10.4172/2168-9792-C1-01, October 02-04, Las Vegas, USA.
  • [23] Korloy, (2018). Korloy Kesici Takım Teknik Özellikler Katoloğu.
  • [24] Fanuc, (2012). Fanuc 1000 CNC Kullanıcı Rehberi.
  • [25] Entes, (2018). Entes Akım Trafosu Ve Ampermetreler Teknik Özellikler Katoloğu.
There are 25 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Burak Öztürk 0000-0002-1018-6545

Publication Date July 8, 2019
Published in Issue Year 2019 Volume: 14 Issue: 3

Cite

APA Öztürk, B. (2019). Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon. Technological Applied Sciences, 14(3), 68-79.
AMA Öztürk B. Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon. Technological Applied Sciences. July 2019;14(3):68-79.
Chicago Öztürk, Burak. “Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon”. Technological Applied Sciences 14, no. 3 (July 2019): 68-79.
EndNote Öztürk B (July 1, 2019) Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon. Technological Applied Sciences 14 3 68–79.
IEEE B. Öztürk, “Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon”, Technological Applied Sciences, vol. 14, no. 3, pp. 68–79, 2019.
ISNAD Öztürk, Burak. “Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon”. Technological Applied Sciences 14/3 (July 2019), 68-79.
JAMA Öztürk B. Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon. Technological Applied Sciences. 2019;14:68–79.
MLA Öztürk, Burak. “Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon”. Technological Applied Sciences, vol. 14, no. 3, 2019, pp. 68-79.
Vancouver Öztürk B. Prinç Boru Bağlantı Elemanının Seri Üretim Enerji Tüketiminde Optimizasyon. Technological Applied Sciences. 2019;14(3):68-79.