Research Article
BibTex RIS Cite

3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI

Year 2020, Volume: 4 Issue: 1, 18 - 31, 30.04.2020

Abstract

Otomotiv endüstrisi her gün yeni zorluklarla karşı karşıya olup, kısa vadede araçların yeniden şekillendirilmesi, yeni modeller ve tasarımsal düzeltmeler geleneksel imalat yöntemlerini zorlamaktadır. Otomotiv endüstrisi en rekabetçi iş alanlarından biridir. 3D katmanlı imalat, bir yığma teknolojisi olup, maliyetleri ve tedarik süresini olumsuz etkilemeden, otomotiv parçalarının esnek bir şekilde üretilmesini sağlayan bir çözümdür.

Sıklıkla yeni modeller üretmek ve görünüm geliştirmeleri yapmak durumunda kalan otomotiv firmaları, estetik, aerodinamik, güvenlik ve ağırlık azaltma konularındaki teknolojik evrimden etkilenerek gelişmektedir. Dijitalleşme, otomotiv endüstrisinin tasarımlarını daha hızlı ve daha verimli bir şekilde başarılı sonuçlara dönüştürmesine yardımcı olmaktadır. Otomobil üreticileri, 3D katmanlı imalat ile araştırma ve geliştirme süreçlerinin verimliliğini artırabilir ve ürünlerini daha kısa sürede ve verimli bir şekilde piyasaya sürebilir. Otomotiv sektöründe 3D katmanlı imalat yönteminin kullanılmasıyla karmaşık hafif yapıların hızlı bir şekilde üretilmesi mümkündür. Bu çalışma, otomobil endüstrisinde 3D katmanlı imalatının bugünü ve geleceğinin bir incelemesini sunmaktadır.

Supporting Institution

-

Project Number

-

Thanks

-

References

  • Referans1-Denise D.,Additive Manufacturing 3D Printing, DSP Journal, Issue10,Pages1-15, 2015.
  • Referans2- Sarath R.,A design frame work for additive manufacturing based on the integration of axiomatic design approach, inverse problem-solving and an additive manufacturing data base, Thesis of Master of Science, Iowa State University, Ames- Iowa,2018.
  • Referans3-Jhonston T., Smith T., Irwin L., Additive Manufacturing In 2040, Pages1-31,RANDCorporotion, California,2018
  • Referans4-Geissbauer R., Wunderlin J., Thefutureofsparepartsis3D. A look at the challenges and opportunities of 3D printing. Pagers1-143, Strateji&, Boston, 2018. Referans5-Yılmaz D., FutureTechnology Institute, Additive Manufacturing, Pages1-34, ThingTech STM, Ankara,2016
  • Referans6- Jager J., Langer D., Mirchberger S.,,Challenges of Additive Manufacturing, Deloitte, Issue 1, Pages1-32, 2019.
  • Referans7-Giffi C., Gangula B., Illinda P., Deloitte University Press, UP-3D-OpportunityAutoIndustry, Pages1-28, 2014.
  • Referans8- Douglas S., Gilbert W., Costsand Cost Effectiveness of Additive Manufacturing, NIST Special Publication-NIST.SP.1176, 2014.
  • Referans9- Shruti G. S., Sanket N.Y., Additive Manufacturing in Automobile Industry, Internatioan Journal of Research in Aeronautica land Mechanical Engineering, 2321-3051 Vol.7 Issue 4, April 2019.
  • Referans10-Kopp C., Riou A., European Powder Metallurgy Association (EPMA)Additive Manufacturing, Pages 1-44, 2015.
  • Referans11-https://otomobilteknoloji.blogspot.com/pistonun-parcalari/kisimlariyapisalozellikleri/ html. 2018/08
  • Referans12-ThompsonM.K., Design for Additive Manufacturing Trend sopportunities considerations and constraints, CIRP Annals Manufacturing Technology, London, Pages 3-27,2019.
  • Referans13-Dama K., S Malyala, Development of Automotive Flex Body Chassis Structure in Conceptual Design Phase using Additive Manufacturing ,MaterialsToday: Proceedings Volume 4,Pages9919–9923. 2017.
  • Referans14-Sreehitha V., Impact of 3D Printing In Automotive Industies, International Journal of Mechanical And Production Engineering, Volume- 5, Issue-2, Feb.-2017.
  • Referans15-Gupta R., Mathur R., Bhagwat R., Additive Manufacturing State of Art,International Journal of Advance Engineering and Research Development Volume 3, Issue 3, 2016.
  • 16-Surange V., Gharat P., 3D Printing Process Using Fused Deposition Modelling (FDM), International Research Journal of Engineering and Technology (IRJET), Volume: 3 Issue: 032016. Referans17-Osama A., Ahmari, A., Mian S., Additive manufacturing: Challenges, trends, and applications Advances in Mechanical Engineering Vol. 11(2) Pages1–27,2019.
  • Referans18-Ichida Y. Current Status of 3D Printer Use among Automotive Suppliers: Can 3D Printed-Parts Replace Cast Parts? IFEAMA SPSCP Vol.5, Pages69-82, 2015.
  • Referans19-Wu B., Myant C., Weider S., The value of additive manufacturing: future opportunities, Pages 1-15, Imperial Colloge London, Institute for Molecular Science and Engineering Press, Institute for Molecular Science and technology, London, 2017.
  • Referans20-https://www.makexyz.com/3d-models/order/07e6d607c7583e5694d2cbf69084cbae (erişim tarihi: 04/12/2019)
  • Referans21-https://www.stlfinder.com/3dmodels/chevrolet-small-block-v8/(erişim tarihi: 04/12/2019)
  • Referans22 https://www.engine-piston.com.(erişim tarihi: 06/12/2019)
  • Referans Made Using Additive Manufacturing Techniques, Federal Mogul Corporotion Pub. No: US 2014/0299091 A1 ,Ribeiro et al. US 20140299.091A1, Pub. Date: Oct. 9, 2014
  • Referans Application Published Under The Patent Cooperation Treaty (PCT) WO 2014/165734 Al Piston Made Using Additive Manufacturing Techniques.
  • Referans25- https://grabcad.com/tutorials/catia-tutorials-piston-4/Designing of Piston in catia v4. (erişim tarihi: 04/12/2019)
  • Referans26-https://allaboutcad.com/3d-autocad-tutorial-create-a-3d-piston/Making a piston in Auto- CAD 3D.(erişim tarihi: 08/12/2019)
  • Referans27- www.solidworkstutorials.com/SolidworksTutorial - how to make Piston Head (erişim tarihi: 15/12/2019)
  • Referans28-https://www.datakit.com/en/news/datakit-imports-assemblies-from-cad-formats-into-rhino-and-strengthens-its-plugins-bundle-155.html. (erişim tarihi: 04/12/2019)
  • Referans29- Ushakov D.,How to Express Design Intent in Rhino 3D Part I. Assembly Design and Kinematic Simulation, 2009.
  • Referans30- Rodríguez A., Panes, C., Camacho A., The Influence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufactured by FDM: A Comparative Analysis Materials,Pages1-21, 2018.
  • Referans31-Zhou J., Ma Y., Xu J., Fabrication of PLA Filaments and its Printable Performance, Materials Science and Engineering Volume 275, Pages 1-6,2017.
  • Referans32-Shen Z.,Anycubıc İ3 Anycubic Technology Co., Ltd, Quick Start Guide, ShenzhenPages1-43, 2019.
  • Referans L., Jianping Z., Yuming M., JieW.,Jie X.,ICMSE IOP Publishing IOP Conf. Series: 012033 Fabrication of PLA Filaments and its Printable Performance Materials Science and Engineering doi:10.1088/1757-899X/275/1/012033, 275 (2017).
  • Referans34. Adrian R., Juan C.,Camacho A.,The Influence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufactured by FDM: A Comparative Analysis, 1 August 2018
  • Referans46- Giang K.,PLA vs. ABS: What'sthedifference?https://www.3dhubs.com/knowledge-base/pla-vs-abs-whats-difference.
  • Referans36-https://omnexus.specialchem.com/Omnexus/Thematerialselection platform (erişim tarihi 2 Ocak 2020)
  • Referans37- Lopes M ,Jardini A.L., FilhoM., Synthesis and Characterizations of Poly (Lactic Acid) by Ring-Opening Polymerization for Biomedical Applications, Chemical Engineering Transactions, Vol. 38, pages 331-336, 2014.
  • Referans38-Nakajima H., Dijkstra P., Loos K., The Recent Developments in Biobased Polymers to ward General and Engineering Applications, Polymers, 9(10), pages 523-529, 2017.
  • Referans39- ISO-527-1-Plastics-Determination of tensile properties-Second edition-2012-02-15
  • Referans40- ASTM D638 Tensile Properties of Plastics-2016
  • Referans41- ASTM Designation: D638 – 14- Standard Test Method for Tensile Properties of Plastics- December 15, 2014
  • Referans42-- ASTM D638-02-a-2003-Tensile Test Specimen
  • Referans43- BS EN ISO 527-1:1996 BS 2782-3:Method 321:1994 ISO 527-1:1993, Plastics- Determination of tensile properties.
  • Referans44-Wenjie L., Jianping Z., Yuming M., JieW.,Jie X.,ICMSE IOP Publishing IOP Conf. Series: 012033 Fabrication of PLA Filaments and its Printable Performance Materials Science and Engineering doi:10.1088/1757-899X/275/1/012033, 275 (2017).
  • Referans45. Adrian R., JuanC.,Camacho A.,TheInfluence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufacturedby FDM: A Comparative Analysis, 1 August 2018
  • Referans K.,PLA vs. ABS: What's the difference? https://www.3dhubs.com/knowledge-base/pla-vs-abs-whats-difference
Year 2020, Volume: 4 Issue: 1, 18 - 31, 30.04.2020

Abstract

Project Number

-

References

  • Referans1-Denise D.,Additive Manufacturing 3D Printing, DSP Journal, Issue10,Pages1-15, 2015.
  • Referans2- Sarath R.,A design frame work for additive manufacturing based on the integration of axiomatic design approach, inverse problem-solving and an additive manufacturing data base, Thesis of Master of Science, Iowa State University, Ames- Iowa,2018.
  • Referans3-Jhonston T., Smith T., Irwin L., Additive Manufacturing In 2040, Pages1-31,RANDCorporotion, California,2018
  • Referans4-Geissbauer R., Wunderlin J., Thefutureofsparepartsis3D. A look at the challenges and opportunities of 3D printing. Pagers1-143, Strateji&, Boston, 2018. Referans5-Yılmaz D., FutureTechnology Institute, Additive Manufacturing, Pages1-34, ThingTech STM, Ankara,2016
  • Referans6- Jager J., Langer D., Mirchberger S.,,Challenges of Additive Manufacturing, Deloitte, Issue 1, Pages1-32, 2019.
  • Referans7-Giffi C., Gangula B., Illinda P., Deloitte University Press, UP-3D-OpportunityAutoIndustry, Pages1-28, 2014.
  • Referans8- Douglas S., Gilbert W., Costsand Cost Effectiveness of Additive Manufacturing, NIST Special Publication-NIST.SP.1176, 2014.
  • Referans9- Shruti G. S., Sanket N.Y., Additive Manufacturing in Automobile Industry, Internatioan Journal of Research in Aeronautica land Mechanical Engineering, 2321-3051 Vol.7 Issue 4, April 2019.
  • Referans10-Kopp C., Riou A., European Powder Metallurgy Association (EPMA)Additive Manufacturing, Pages 1-44, 2015.
  • Referans11-https://otomobilteknoloji.blogspot.com/pistonun-parcalari/kisimlariyapisalozellikleri/ html. 2018/08
  • Referans12-ThompsonM.K., Design for Additive Manufacturing Trend sopportunities considerations and constraints, CIRP Annals Manufacturing Technology, London, Pages 3-27,2019.
  • Referans13-Dama K., S Malyala, Development of Automotive Flex Body Chassis Structure in Conceptual Design Phase using Additive Manufacturing ,MaterialsToday: Proceedings Volume 4,Pages9919–9923. 2017.
  • Referans14-Sreehitha V., Impact of 3D Printing In Automotive Industies, International Journal of Mechanical And Production Engineering, Volume- 5, Issue-2, Feb.-2017.
  • Referans15-Gupta R., Mathur R., Bhagwat R., Additive Manufacturing State of Art,International Journal of Advance Engineering and Research Development Volume 3, Issue 3, 2016.
  • 16-Surange V., Gharat P., 3D Printing Process Using Fused Deposition Modelling (FDM), International Research Journal of Engineering and Technology (IRJET), Volume: 3 Issue: 032016. Referans17-Osama A., Ahmari, A., Mian S., Additive manufacturing: Challenges, trends, and applications Advances in Mechanical Engineering Vol. 11(2) Pages1–27,2019.
  • Referans18-Ichida Y. Current Status of 3D Printer Use among Automotive Suppliers: Can 3D Printed-Parts Replace Cast Parts? IFEAMA SPSCP Vol.5, Pages69-82, 2015.
  • Referans19-Wu B., Myant C., Weider S., The value of additive manufacturing: future opportunities, Pages 1-15, Imperial Colloge London, Institute for Molecular Science and Engineering Press, Institute for Molecular Science and technology, London, 2017.
  • Referans20-https://www.makexyz.com/3d-models/order/07e6d607c7583e5694d2cbf69084cbae (erişim tarihi: 04/12/2019)
  • Referans21-https://www.stlfinder.com/3dmodels/chevrolet-small-block-v8/(erişim tarihi: 04/12/2019)
  • Referans22 https://www.engine-piston.com.(erişim tarihi: 06/12/2019)
  • Referans Made Using Additive Manufacturing Techniques, Federal Mogul Corporotion Pub. No: US 2014/0299091 A1 ,Ribeiro et al. US 20140299.091A1, Pub. Date: Oct. 9, 2014
  • Referans Application Published Under The Patent Cooperation Treaty (PCT) WO 2014/165734 Al Piston Made Using Additive Manufacturing Techniques.
  • Referans25- https://grabcad.com/tutorials/catia-tutorials-piston-4/Designing of Piston in catia v4. (erişim tarihi: 04/12/2019)
  • Referans26-https://allaboutcad.com/3d-autocad-tutorial-create-a-3d-piston/Making a piston in Auto- CAD 3D.(erişim tarihi: 08/12/2019)
  • Referans27- www.solidworkstutorials.com/SolidworksTutorial - how to make Piston Head (erişim tarihi: 15/12/2019)
  • Referans28-https://www.datakit.com/en/news/datakit-imports-assemblies-from-cad-formats-into-rhino-and-strengthens-its-plugins-bundle-155.html. (erişim tarihi: 04/12/2019)
  • Referans29- Ushakov D.,How to Express Design Intent in Rhino 3D Part I. Assembly Design and Kinematic Simulation, 2009.
  • Referans30- Rodríguez A., Panes, C., Camacho A., The Influence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufactured by FDM: A Comparative Analysis Materials,Pages1-21, 2018.
  • Referans31-Zhou J., Ma Y., Xu J., Fabrication of PLA Filaments and its Printable Performance, Materials Science and Engineering Volume 275, Pages 1-6,2017.
  • Referans32-Shen Z.,Anycubıc İ3 Anycubic Technology Co., Ltd, Quick Start Guide, ShenzhenPages1-43, 2019.
  • Referans L., Jianping Z., Yuming M., JieW.,Jie X.,ICMSE IOP Publishing IOP Conf. Series: 012033 Fabrication of PLA Filaments and its Printable Performance Materials Science and Engineering doi:10.1088/1757-899X/275/1/012033, 275 (2017).
  • Referans34. Adrian R., Juan C.,Camacho A.,The Influence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufactured by FDM: A Comparative Analysis, 1 August 2018
  • Referans46- Giang K.,PLA vs. ABS: What'sthedifference?https://www.3dhubs.com/knowledge-base/pla-vs-abs-whats-difference.
  • Referans36-https://omnexus.specialchem.com/Omnexus/Thematerialselection platform (erişim tarihi 2 Ocak 2020)
  • Referans37- Lopes M ,Jardini A.L., FilhoM., Synthesis and Characterizations of Poly (Lactic Acid) by Ring-Opening Polymerization for Biomedical Applications, Chemical Engineering Transactions, Vol. 38, pages 331-336, 2014.
  • Referans38-Nakajima H., Dijkstra P., Loos K., The Recent Developments in Biobased Polymers to ward General and Engineering Applications, Polymers, 9(10), pages 523-529, 2017.
  • Referans39- ISO-527-1-Plastics-Determination of tensile properties-Second edition-2012-02-15
  • Referans40- ASTM D638 Tensile Properties of Plastics-2016
  • Referans41- ASTM Designation: D638 – 14- Standard Test Method for Tensile Properties of Plastics- December 15, 2014
  • Referans42-- ASTM D638-02-a-2003-Tensile Test Specimen
  • Referans43- BS EN ISO 527-1:1996 BS 2782-3:Method 321:1994 ISO 527-1:1993, Plastics- Determination of tensile properties.
  • Referans44-Wenjie L., Jianping Z., Yuming M., JieW.,Jie X.,ICMSE IOP Publishing IOP Conf. Series: 012033 Fabrication of PLA Filaments and its Printable Performance Materials Science and Engineering doi:10.1088/1757-899X/275/1/012033, 275 (2017).
  • Referans45. Adrian R., JuanC.,Camacho A.,TheInfluence of Manufacturing Parameters on the Mechanical Behaviour of PLA and ABS Pieces Manufacturedby FDM: A Comparative Analysis, 1 August 2018
  • Referans K.,PLA vs. ABS: What's the difference? https://www.3dhubs.com/knowledge-base/pla-vs-abs-whats-difference
There are 44 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Research Article
Authors

Şüheda Özel 0000-0001-5070-5533

Muzaffer Zeren 0000-0001-5490-3799

Neşe Çakıcı Alp 0000-0002-7626-9212

Project Number -
Publication Date April 30, 2020
Submission Date January 19, 2020
Published in Issue Year 2020 Volume: 4 Issue: 1

Cite

APA Özel, Ş., Zeren, M., & Çakıcı Alp, N. (2020). 3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI. International Journal of 3D Printing Technologies and Digital Industry, 4(1), 18-31.
AMA Özel Ş, Zeren M, Çakıcı Alp N. 3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI. IJ3DPTDI. April 2020;4(1):18-31.
Chicago Özel, Şüheda, Muzaffer Zeren, and Neşe Çakıcı Alp. “3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI”. International Journal of 3D Printing Technologies and Digital Industry 4, no. 1 (April 2020): 18-31.
EndNote Özel Ş, Zeren M, Çakıcı Alp N (April 1, 2020) 3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI. International Journal of 3D Printing Technologies and Digital Industry 4 1 18–31.
IEEE Ş. Özel, M. Zeren, and N. Çakıcı Alp, “3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI”, IJ3DPTDI, vol. 4, no. 1, pp. 18–31, 2020.
ISNAD Özel, Şüheda et al. “3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI”. International Journal of 3D Printing Technologies and Digital Industry 4/1 (April 2020), 18-31.
JAMA Özel Ş, Zeren M, Çakıcı Alp N. 3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI. IJ3DPTDI. 2020;4:18–31.
MLA Özel, Şüheda et al. “3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI”. International Journal of 3D Printing Technologies and Digital Industry, vol. 4, no. 1, 2020, pp. 18-31.
Vancouver Özel Ş, Zeren M, Çakıcı Alp N. 3D YAZICILAR İLE KATMANLI İMALAT TEKNOLOJİSİNİN OTOMOTİV ENDÜSTRİSİNDE UYGULANMASI. IJ3DPTDI. 2020;4(1):18-31.

download

International Journal of 3D Printing Technologies and Digital Industry is lisenced under Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı