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Taşıt Lastikleri Sırt Desen Tasarımında Üç Boyutlu Baskı Teknolojisinin Kullanılabilirliğinin İncelenmesi Üzerine Deneysel Çalışma

Year 2020, Volume: 6 Issue: 1, 62 - 69, 30.04.2020

Abstract

Taşıt lastiklerinin sırt desenlerinin; sürüş güvenliği, sürüş konforu, yakıt tüketimi, frenleme ve gürültü performans değerleri gibi farklı parametrelere bağlı olarak bilgisayar destekli tasarım programları yardımıyla üç boyutlu olarak tasarım çalışmaları yapılmaktadır. Lastik üretim kalıpları; yapıları itibariyle oldukça karmaşık ve imalatları çok pahalı olan sistemlerdir. Kaliteli bir taşıt lastiği üretiminde, lastik üretim kalıpları oldukça önemli bir yere sahiptir. Bilgisayar ortamında yapılan tasarımlardaki hatalar çoğu zaman tasarım sırasında fark edilememesinden dolayı imalat sırasında ortaya çıkmaktadır. Lastik kalıplarının imalatı yapıldıktan sonra ortaya çıkan tasarım hatalarından dolayı zaman ve maliyet açısından büyük zararlar yaşanmaktadır. Bu çalışma kapsamında lastik sırt desen prototip imalatı için; eklemeli üretim (Additive Manufacturing) yöntemlerinde deneysel çalışmalar yapılarak en uygun prototoip üretim yöntemin bulunması hedeflenmiştir. Bu amaçla geliştirilen lastik sırt desen prototip imalatı; Fused Deposition Modelling (FDM) ve Binder Jetting (3DP) teknolojilerine sahip olan iki farklı üç boyutlu baskı makineleri kullanılarak yapılmıştır. Ortaya çıkan üç boyutlu katı modellerin görüntü, kalite ve prototip üretim süreleri gibi teknik özellikler birbirleriyle karşılaştırılmıştır.

References

  • 1. Erol, D., “Vehicle Tires”, Electronic Journal of Vehicle Technologies, Vol. 3, Issue 3, Pages 37-50, 2011.
  • 2. Graham, W. R., “Modelling the vibration of tyre sidewalls”, Journal of Sound and Vibration, Vol. 332, Issue 21, Pages 5345-5374, 2013.
  • 3. Wei, Y., Yang, Y., Chen, Y., Wang, H., Xiang, D., and Li, Z., “Analysis of coast-by noise of heavy truck tires”, Journal of Traffic and Transportation Engineering, Vol. 3, Issue 2, Pages 172-179, 2016.
  • 4. Curtiss, W. W., “Principles of Tire Design”, Tire Science and Technology, Vol. 1, Issue 1, Pages 77-98, 1973.
  • 5. Chu, C. H., Song, M. C., and Luo, V. C., “Computer aided parametric design for 3D tire mold production”, Computers in Industry, Vol. 57, Issue 1, Pages 11-25, 2006.
  • 6. Dong, Y., Su, F., Sun, G., Liu, Y., and Zhang, F., “A feature-based method for tire pattern reverse modeling”, Advances in Engineering Software, Vol. 124, Pages 73-89, 2018.
  • 7. Dizon, J. R. C., Espera Jr, A. H., Chen, Q., and Advincula, R. C., “Mechanical characterization of 3D-printed polymers”, Additive Manufacturing, Vol. 20, Pages 44-67, 2018.
  • 8. Hull, C. W., Apparatus for production of three dimensional objects by stereolithography. United States Patent No: US4575330, 1986.
  • 9. Ngo, T. D., Kashani, A., Imbalzano, G., Nguyen, K. T., and Hui, D. Additive manufacturing (3D printing): A review of materials, methods, applications and challenges. Composites Part B: Engineering, 143(1), 172-196, 2018.
  • 10. Internet: Additively.com, “Stereolithography technology (SLA)”, https://www.additively.com/en/learn-about/stereolithography
  • 11. Brenken, B., Barocio, E., Favaloro, A., Kunc, V., and Pipes, R. B., “Fused filament fabrication of fiber-reinforced polymers: A review”, Additive Manufacturing, Vol. 21, Issue 1, Pages 1-16, 2018.
  • 12. Internet: Additively.com, “Fused Deposition Modeling technology (FDM)”, https://www.additively.com/en/learn-about/fused-deposition-modeling, 2020.
  • 13. Holland, S., Tuck, C., and Foster, T., “Selective recrystallization of cellulose composite powders and microstructure creation through 3D binder jetting”, Carbohydrate polymers, Vol. 200, Pages 229-238, 2018.
  • 14. Liravi, F., and Toyserkani, E., “Additive manufacturing of silicone structures: A review and prospective”, Additive Manufacturing, Vol. 24, Pages 232-242, 2018.
  • 15. Upadhyay, M., Sivarupan, T., and El Mansori, M., “3D printing for rapid sand casting-A review”, Journal of Manufacturing Processes, Vol. 29, Pages 211-220, 2017.
  • 16. Internet: Additively.com, “Binder Jetting Technology technology (3DP)”, https://www.additively.com/en/learn-about/binder-jetting, 2020.

The Experimental Study on Examination of the Usability of Three Dimensional Printing Technologies in Tread Pattern Design of Vehicle Tires

Year 2020, Volume: 6 Issue: 1, 62 - 69, 30.04.2020

Abstract

Depending on different parameters such as driving safety, driving comfort, fuel consumption, braking and noise performance values, three-dimensional design studies of tread patterns of vehicle tires are carried out with the help of computer aided design programs. Tire production molds are the systems which are very complex and very expensive to manufacture due to their structure. In the production of a quality vehicle tire, tire production molds have a very important place. Errors in computer-generated designs are often unrecognizable in the process of designing and appear during the manufacturing process. Due to the design faults that occur after the manufacturing of the tire molds, there are great losses in terms of time and cost. In the scope of this study for the production of prototypes of the tire tread pattern; it is aimed to find the most suitable prototype production method by making experimental studies in additive manufacturing methods. Tire tread pattern prototype developed for this purpose is manufactured by using different three-dimensional printing machines with Stereolithography (SLA), Fused Deposition Modeling (FDM) and Binder Jetting (3DP) technologies. Technical properties such as image, quality and prototype production durations of the three dimensional solid models produced are compared with each other.

References

  • 1. Erol, D., “Vehicle Tires”, Electronic Journal of Vehicle Technologies, Vol. 3, Issue 3, Pages 37-50, 2011.
  • 2. Graham, W. R., “Modelling the vibration of tyre sidewalls”, Journal of Sound and Vibration, Vol. 332, Issue 21, Pages 5345-5374, 2013.
  • 3. Wei, Y., Yang, Y., Chen, Y., Wang, H., Xiang, D., and Li, Z., “Analysis of coast-by noise of heavy truck tires”, Journal of Traffic and Transportation Engineering, Vol. 3, Issue 2, Pages 172-179, 2016.
  • 4. Curtiss, W. W., “Principles of Tire Design”, Tire Science and Technology, Vol. 1, Issue 1, Pages 77-98, 1973.
  • 5. Chu, C. H., Song, M. C., and Luo, V. C., “Computer aided parametric design for 3D tire mold production”, Computers in Industry, Vol. 57, Issue 1, Pages 11-25, 2006.
  • 6. Dong, Y., Su, F., Sun, G., Liu, Y., and Zhang, F., “A feature-based method for tire pattern reverse modeling”, Advances in Engineering Software, Vol. 124, Pages 73-89, 2018.
  • 7. Dizon, J. R. C., Espera Jr, A. H., Chen, Q., and Advincula, R. C., “Mechanical characterization of 3D-printed polymers”, Additive Manufacturing, Vol. 20, Pages 44-67, 2018.
  • 8. Hull, C. W., Apparatus for production of three dimensional objects by stereolithography. United States Patent No: US4575330, 1986.
  • 9. Ngo, T. D., Kashani, A., Imbalzano, G., Nguyen, K. T., and Hui, D. Additive manufacturing (3D printing): A review of materials, methods, applications and challenges. Composites Part B: Engineering, 143(1), 172-196, 2018.
  • 10. Internet: Additively.com, “Stereolithography technology (SLA)”, https://www.additively.com/en/learn-about/stereolithography
  • 11. Brenken, B., Barocio, E., Favaloro, A., Kunc, V., and Pipes, R. B., “Fused filament fabrication of fiber-reinforced polymers: A review”, Additive Manufacturing, Vol. 21, Issue 1, Pages 1-16, 2018.
  • 12. Internet: Additively.com, “Fused Deposition Modeling technology (FDM)”, https://www.additively.com/en/learn-about/fused-deposition-modeling, 2020.
  • 13. Holland, S., Tuck, C., and Foster, T., “Selective recrystallization of cellulose composite powders and microstructure creation through 3D binder jetting”, Carbohydrate polymers, Vol. 200, Pages 229-238, 2018.
  • 14. Liravi, F., and Toyserkani, E., “Additive manufacturing of silicone structures: A review and prospective”, Additive Manufacturing, Vol. 24, Pages 232-242, 2018.
  • 15. Upadhyay, M., Sivarupan, T., and El Mansori, M., “3D printing for rapid sand casting-A review”, Journal of Manufacturing Processes, Vol. 29, Pages 211-220, 2017.
  • 16. Internet: Additively.com, “Binder Jetting Technology technology (3DP)”, https://www.additively.com/en/learn-about/binder-jetting, 2020.
There are 16 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Conference Paper
Authors

Derviş Erol 0000-0002-3438-9312

Battal Doğan 0000-0001-5542-4853

Mustafa Bozdemir 0000-0002-9332-2054

Publication Date April 30, 2020
Submission Date February 6, 2020
Acceptance Date April 29, 2020
Published in Issue Year 2020 Volume: 6 Issue: 1

Cite

IEEE D. Erol, B. Doğan, and M. Bozdemir, “The Experimental Study on Examination of the Usability of Three Dimensional Printing Technologies in Tread Pattern Design of Vehicle Tires”, GJES, vol. 6, no. 1, pp. 62–69, 2020.

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