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INDUSTRIAL SIZES DOUBLE NOZZLE AND CARTESIAN TYPE 3D PRINTER DESIGN AND PROTOTYPING

Year 2018, Volume: 2 Issue: 1, 11 - 22, 13.03.2018

Burak Güler Kerim Çetinkaya

Abstract

In
this study the design of three dimensional printer and its prototyping which
are in industrial sizes, cartesian type and have double nozzle run by the
method of FDM were made. The general sizes of three dimensional printer is
990x1035x1540 mm. The size of printing is 600x700x800 mm. The hotbed is
directly heated with 220V. The coffee table legs are made from the filaments of
ABS and PLA. The system consumes 415 w/h energy during the production. It was
investigated of the printing and thickness of layer on the effect of quality of
production.

Keywords

Industrial 3D printer Double nozzle FDM

References

  • 1. Prince, D., “3D printing: an industrialrevolution”, Journal of Electronic Resources in Medical Libraries, 11 (1): 39-45 (2014).
  • 2. Kruth, J. P.,Leu, M. C. And Nakagawa, T., "Progress in additive manufacturing and rapidprototyping",Annals of theCirp, 47 (2): 525-540 (1998).
  • 3. Azari, A. andNikzad S., "The evolution of rapid prototyping in dentistry: a review",RapidPrototypingJournal, 15 (3): 216 - 225 (2009).
  • 4. Hull, C.,Feygin, M., Baron, Y., Sanders, R., Sachs, Lightman, E., A. And Wohlers, T.,"Rapid prototyping: current technology and future potential",Rapid Prototyping Journal, 1 (1): 11-19 (1995).
  • 5. Pham, D. T. andGault, R. S., “A comparison of rapidprototypingtechnologies”, International Journal of Machine Tools &Manufacture, 38 (1): 1257–1287 (1997).
  • 6. Levy, G. N.,Schindel, R. andKruth, J. P., "Rapid manufacturing and rapid tooling with layermanufacturıng (lm) technologıes",State of the art andfutureperspectives, 1 (1): 1-21 (1996).
  • 7. Polzin, C.,Spath, S. andSeitz, H. ,"Characterizationandevaluation of a PMMA-based 3D printingprocess",Department of MechanicalEngineering, 19 (1): 37-43 (2013).
  • 8. G. C. Anzalone, B. Wijnenand J. M. Pearce, “Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer”, Rapid Prototyping Journal,Volume 21 · Number 5 · 2015 · 506–519
  • 9. Vaezi, M.,Chianrabutra, S., Mellor, B. andYang, S. ,"Multiplematerial additive manufacturing - Part 1: A Review", Virtual andPhysicalPrototyping, 1 (1): 19-50 (2013).
  • 10. C. Duran, V. Subbian, M. T. Giovanetti, J. R. Simkinsand F. R. BeyetteJr, “Experimentaldesktop 3D printing using dual extrusion and water-solublepolyvinyl alcohol”, Rapid Prototyping Journal,Volume 21 · Number 5 · 2015 · 528–534
  • 11. B. Stephens, P. Azimi, Z. El Orch, T. Ramos, “Ultra fine particle emissions from desktop 3D printers” Atmospheric Environment, 79 (2013) 334-339
  • 12. Rayna, L. Striukova, “From rapid prototyping to home fabrication: How 3D printing is changingbusiness model innovation”, TechnologicalForecasting&SocialChange, 102 (2016) 214–224

ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ

Year 2018, Volume: 2 Issue: 1, 11 - 22, 13.03.2018

Burak Güler Kerim Çetinkaya

Abstract

Bu çalışmada endüstriyel boyutlarda kartezyen tipi ve çift baskı kafasına sahip FDM yöntemi ile çalışan

üç boyutlu yazıcı tasarımı ve prototipi yapmıştır. 3B yazıcının genel boyutları 990x1035x1540 mm dir.

Yazdırma boyutları 600x700x800 mm dir. Tabla doğrudan 220 V ileısıtılmaktadır. ABS ve PLA

filamentlerinden sehpa ayakları üretimi yapılmıştır. Sistem çalışma sırasında 415 W/h enerji

tüketmektedir. Yazdırma hızı ve katman kalınlığının üretim kalitesine etkisi araştırılmıştır.

Keywords

Endüstriyel 3D yazıcı Çift nozul FDM

References

  • 1. Prince, D., “3D printing: an industrialrevolution”, Journal of Electronic Resources in Medical Libraries, 11 (1): 39-45 (2014).
  • 2. Kruth, J. P.,Leu, M. C. And Nakagawa, T., "Progress in additive manufacturing and rapidprototyping",Annals of theCirp, 47 (2): 525-540 (1998).
  • 3. Azari, A. andNikzad S., "The evolution of rapid prototyping in dentistry: a review",RapidPrototypingJournal, 15 (3): 216 - 225 (2009).
  • 4. Hull, C.,Feygin, M., Baron, Y., Sanders, R., Sachs, Lightman, E., A. And Wohlers, T.,"Rapid prototyping: current technology and future potential",Rapid Prototyping Journal, 1 (1): 11-19 (1995).
  • 5. Pham, D. T. andGault, R. S., “A comparison of rapidprototypingtechnologies”, International Journal of Machine Tools &Manufacture, 38 (1): 1257–1287 (1997).
  • 6. Levy, G. N.,Schindel, R. andKruth, J. P., "Rapid manufacturing and rapid tooling with layermanufacturıng (lm) technologıes",State of the art andfutureperspectives, 1 (1): 1-21 (1996).
  • 7. Polzin, C.,Spath, S. andSeitz, H. ,"Characterizationandevaluation of a PMMA-based 3D printingprocess",Department of MechanicalEngineering, 19 (1): 37-43 (2013).
  • 8. G. C. Anzalone, B. Wijnenand J. M. Pearce, “Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer”, Rapid Prototyping Journal,Volume 21 · Number 5 · 2015 · 506–519
  • 9. Vaezi, M.,Chianrabutra, S., Mellor, B. andYang, S. ,"Multiplematerial additive manufacturing - Part 1: A Review", Virtual andPhysicalPrototyping, 1 (1): 19-50 (2013).
  • 10. C. Duran, V. Subbian, M. T. Giovanetti, J. R. Simkinsand F. R. BeyetteJr, “Experimentaldesktop 3D printing using dual extrusion and water-solublepolyvinyl alcohol”, Rapid Prototyping Journal,Volume 21 · Number 5 · 2015 · 528–534
  • 11. B. Stephens, P. Azimi, Z. El Orch, T. Ramos, “Ultra fine particle emissions from desktop 3D printers” Atmospheric Environment, 79 (2013) 334-339
  • 12. Rayna, L. Striukova, “From rapid prototyping to home fabrication: How 3D printing is changingbusiness model innovation”, TechnologicalForecasting&SocialChange, 102 (2016) 214–224
There are 12 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Burak Güler

Kerim Çetinkaya

Publication Date March 13, 2018
Submission Date January 29, 2018
Published in Issue Year 2018 Volume: 2 Issue: 1

Cite

APA Güler, B., & Çetinkaya, K. (2018). ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ. International Journal of 3D Printing Technologies and Digital Industry, 2(1), 11-22.
AMA Güler B, Çetinkaya K. ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ. IJ3DPTDI. March 2018;2(1):11-22.
Chicago Güler, Burak, and Kerim Çetinkaya. “ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ”. International Journal of 3D Printing Technologies and Digital Industry 2, no. 1 (March 2018): 11-22.
EndNote Güler B, Çetinkaya K (March 1, 2018) ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ. International Journal of 3D Printing Technologies and Digital Industry 2 1 11–22.
IEEE B. Güler and K. Çetinkaya, “ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ”, IJ3DPTDI, vol. 2, no. 1, pp. 11–22, 2018.
ISNAD Güler, Burak - Çetinkaya, Kerim. “ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ”. International Journal of 3D Printing Technologies and Digital Industry 2/1 (March 2018), 11-22.
JAMA Güler B, Çetinkaya K. ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ. IJ3DPTDI. 2018;2:11–22.
MLA Güler, Burak and Kerim Çetinkaya. “ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ”. International Journal of 3D Printing Technologies and Digital Industry, vol. 2, no. 1, 2018, pp. 11-22.
Vancouver Güler B, Çetinkaya K. ENDÜSTRİYEL BOYUTLU ÇİFT BAŞLI KARTEZYEN TİPİ ÜÇ BOYUTLU YAZICI TASARIMI VE PROTOTİP ÜRETİMİ. IJ3DPTDI. 2018;2(1):11-22.

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