EKLEMELİ İMALAT YÖNTEMİYLE ÜRETİLMİŞ BAL PETEKLİ YAPILARIN TİTREŞİM DAVRANIŞLARININ NÜMERİK VE DENEYSEL OLARAK İNCELENMESİ
Year 2021,
, 98 - 108, 31.08.2021
Gökmen Atlıhan
,
İsmail Ovalı
,
Abdullah Eren
Abstract
Bu çalışmada, otomotiv sanayisinde kullanılabilecek PLA (Poli-Laktik Asit) malzemesinin yapısı hücresel hibrit malzeme olan bal petekli yapılardan üretilmiş kirişlerin doğal frekans değerleri üzerindeki etkisi incelenmiştir. Yapılan çalışmada dörtgen, beşgen, altıgen ve yuvarlak gibi farklı çekirdek yapısındaki petekler ile bunların kombinasyonu olan altıgen-dörtgen(kare)-daire ve beşgen-altıgen-daire gibi çeşitli bal petekli kirişlerin tasarımı ve üretimi gerçekleştirilmiştir. Üretimi gerçekleştirilen kirişin nümerik (Ansys) ve deneysel titreşim analizleri yapılıp oluşan doğal frekans değerleri karşılaştırılması yapılarak titreşim mod değerlerinin birbirine yakın olduğu görülmüştür. Oluşturulan ankastre mesnetli kirişlerde, bal peteği yapılarının şekillerine göre aynı hacim ve yapıda olanların doğal frekans değerlerinin değiştirilebileceği gösterilmiştir.
Supporting Institution
Pamukkale Üniversitesi Bilimsel Araştırma Projeleri
Project Number
2020FEBE025
Thanks
Pamukkale Üniversitesi Bilimsel Araştırma Projeleri (BAP ) tarafından 2020FEBE025 nolu proje ile desteklenmiştir.
References
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- 4. Cuiver D., Odent J., Delille R., Murariu M., Lauro F., Raquez J., Bennani B. and Dubois P., “Tailoring Polylactide (PLA) Properties For Automotive Applications: Effect Of Addition Of Designed Additives On Main Mechanical Properties”, Elsevier Polymer Testing, Vol. 36, Pages 1-9, 2014.
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- 9. Hosseini S., Willberg C., Kharaghani A. and Gabbert U., “Characterization Of The Guided Wave Propagation İn Simplified Foam, Honeycomb And Hollow Sphere Structures”, Vol. 56, Pages 553-566, 2014.
- 10. Jiang C., Xiang Y., He P. and He H., “Vibration Attenuation Behaviors Of Finite Sandwich Plates With Periodic Core”, Elsevier Applied Acoustics, Vol. 157, Pages 107-109, 2020.
- 11. Khakalo S., Balobanov V. and Niiranen J., “Modelling Size-Dependent Bending, Buckling And Vibrations Of 2D Triangular Lattices By Strain Gradient Elasticity Models: Applications To Sandwich Beams And Auxetics”, Elsevier International Journal of Engineering Science”, Vol. 127, Pages 33-52, 2018.
- 12. Trelease E., “Poliüretan Köpük İle Doldurulmuş Bal Peteği Sandviç Plakların Titreşim Analizi”, Yüksek Lisans Tezi, Elazığ Üniversitesi Fen Bilimleri Enstitüsü, Makine Mühendisliği Anabilim Dalı, Elazığ, Saysa 15-35, 2018.
- 13. Sahu S., Badgayan N., Samanta S., Sahu D. and Sreekanth P., “ Influence Of Cell Size On Out Of Plane Stiffness And in-Plane Compliance Character Of The Sandwich Beam Made With Tunable PCTPE Nylon Honeycomb Core And Hybrid Polymer Nanocomposite Skin”, Mechanical Sciences, Vol. 148, Pages 284-292, 2018.
- 14. Wang Y., Zhang Z., Xue X., and Zhang L., “Free Vibration Analysis Of Composite Sandwich Panels With Hierarchical Honeycomb Sandwich Core”, Elsevier Thin-Walled Structures, Vol. 145, Pages 106-125, 2019.
- 15. Zhang Z., Han B., Zhang Q. and Jin F., “Free Vibration Analysis Of Sandwich Beams with Honeycomb-Corrugation Hybrid Cores”, Composite Structures, Vol. 171, Pages 335-344, 2017.
- 16. Zhang Z., Zhang Q., Li F., Yang J., Liu J., Liu Z. and Jin F., “Modal Characteristics Of Micro-Perforated Sandwich Beams With Square Honeycomb-Corrugation Hybrid Cores: A Mixed Experimental-Numerical Study”, Elsevier Thin-Walled Structures, Vol. 137, Pages 185-196, 2019.
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- 18. Belev M., ve Turgay G., “Alüminyum ve Kompozit Dizaltı Protezlerin Uygunluğunun Deneysel ve Nümerik Olarak Belirlenmesi”, Electronic Journal of Machine Technologies, Vol. 6, Pages 55-69, 2009.
- 19. Özsoy K, Aksoy B, Yücel M., “Design And Manufacture Of Continuous Automatic 3D Printing Device With Conveyor System By Image Processing Technology”, Erzincan Üniversitesi Fen Bilimleri Enstitüsü Dergisi vol.13, Page 392-403, 2020.
- 20. Aksoy B, Özsoy K, Salman OKM, Sayın İ., “Artificial Intelligence Applications for Medical Diagnosis and Production with 3D Printing Technologies”, Artificial Intelligence for Data-Driven Medical Diagnosis, 2021.
Year 2021,
, 98 - 108, 31.08.2021
Gökmen Atlıhan
,
İsmail Ovalı
,
Abdullah Eren
Project Number
2020FEBE025
References
- 1. Alkan, H. “Honeycomb Nedir?, Nerelerde Kullanılır?”, http://www.elektrikport.com/teknik-kutuphane/honeycomb-nedir-nerelerde-kullanilir, Erişim Tarihi, Mayıs, 2021.
- 2. Ahmad N., Ranganath R. and Ghosal A., “Modeling and Experimental Study Of A Honeycomb Beam Filled With Damping Particles”, Elsevier Journal of Sound and Vibration, Vol. 391, Pages 20-34, 2017.
- 3. Ahsanfar M. and Galehdari S., “Optimum Design For Graded Honeycomb As Energy Absorber Device in Elevator Cabin”, Elsevier Procedia Engineering, Vol. 173, Pages 1291-1298, 2017.
- 4. Cuiver D., Odent J., Delille R., Murariu M., Lauro F., Raquez J., Bennani B. and Dubois P., “Tailoring Polylactide (PLA) Properties For Automotive Applications: Effect Of Addition Of Designed Additives On Main Mechanical Properties”, Elsevier Polymer Testing, Vol. 36, Pages 1-9, 2014.
- 5. Debruyne S., Vandepitte D. and Moens D., “Identification Of Design Parameter Variability Of Honeycomb Sandwich Beams From A Study Of Limited Available Experimental Dynamic Structural Response Data”, Elsevier Computers and Structures, Vol. 146, Pages 197-213, 2013.
- 6. Debruyne S., Vandepitte D. and Moens D., “Identification Of Design Parameter Variability Of Honeycomb Sandwich Beams From A Study Of Limited Available Experimental Dynamic Structural Response Data”, Elsevier Computers and Structures, Vol. 146, Pages 197-213, 2013.
- 7. Eloy F., Gomes G., Ancelotti A., Cunha S., Bombard A. and Junqueira D., “A numerical-experimental dynamic analysis of composite sandwich beam with magnetorheological elastomer honeycomb core”, Composite Structures,Vol. 209, Pages 242-257, 2019.
- 8. Heimbs, S., Cichosz, J., Kilchert, S. ve Klaus, M., “Sandwich Panels With Cellular Cores Made Of Folded Composite Material: Mechanical Behaviour And İmpact Performance”, 17th International Conference on Composite Materials (ICCM-17), Edinburgh, Pages 137-150, 2009.
- 9. Hosseini S., Willberg C., Kharaghani A. and Gabbert U., “Characterization Of The Guided Wave Propagation İn Simplified Foam, Honeycomb And Hollow Sphere Structures”, Vol. 56, Pages 553-566, 2014.
- 10. Jiang C., Xiang Y., He P. and He H., “Vibration Attenuation Behaviors Of Finite Sandwich Plates With Periodic Core”, Elsevier Applied Acoustics, Vol. 157, Pages 107-109, 2020.
- 11. Khakalo S., Balobanov V. and Niiranen J., “Modelling Size-Dependent Bending, Buckling And Vibrations Of 2D Triangular Lattices By Strain Gradient Elasticity Models: Applications To Sandwich Beams And Auxetics”, Elsevier International Journal of Engineering Science”, Vol. 127, Pages 33-52, 2018.
- 12. Trelease E., “Poliüretan Köpük İle Doldurulmuş Bal Peteği Sandviç Plakların Titreşim Analizi”, Yüksek Lisans Tezi, Elazığ Üniversitesi Fen Bilimleri Enstitüsü, Makine Mühendisliği Anabilim Dalı, Elazığ, Saysa 15-35, 2018.
- 13. Sahu S., Badgayan N., Samanta S., Sahu D. and Sreekanth P., “ Influence Of Cell Size On Out Of Plane Stiffness And in-Plane Compliance Character Of The Sandwich Beam Made With Tunable PCTPE Nylon Honeycomb Core And Hybrid Polymer Nanocomposite Skin”, Mechanical Sciences, Vol. 148, Pages 284-292, 2018.
- 14. Wang Y., Zhang Z., Xue X., and Zhang L., “Free Vibration Analysis Of Composite Sandwich Panels With Hierarchical Honeycomb Sandwich Core”, Elsevier Thin-Walled Structures, Vol. 145, Pages 106-125, 2019.
- 15. Zhang Z., Han B., Zhang Q. and Jin F., “Free Vibration Analysis Of Sandwich Beams with Honeycomb-Corrugation Hybrid Cores”, Composite Structures, Vol. 171, Pages 335-344, 2017.
- 16. Zhang Z., Zhang Q., Li F., Yang J., Liu J., Liu Z. and Jin F., “Modal Characteristics Of Micro-Perforated Sandwich Beams With Square Honeycomb-Corrugation Hybrid Cores: A Mixed Experimental-Numerical Study”, Elsevier Thin-Walled Structures, Vol. 137, Pages 185-196, 2019.
- 17. Korkmaz, İ.H: “Çift Katmanlı Kemik Modeli ile Diz Protezi Dizilimi Eldesi Ve Sonlu Elemanlar Analizi ile Değerlendirilmesi”, SAU Fen Bil Der, Vol. 16, Pages 189-194, 2014.
- 18. Belev M., ve Turgay G., “Alüminyum ve Kompozit Dizaltı Protezlerin Uygunluğunun Deneysel ve Nümerik Olarak Belirlenmesi”, Electronic Journal of Machine Technologies, Vol. 6, Pages 55-69, 2009.
- 19. Özsoy K, Aksoy B, Yücel M., “Design And Manufacture Of Continuous Automatic 3D Printing Device With Conveyor System By Image Processing Technology”, Erzincan Üniversitesi Fen Bilimleri Enstitüsü Dergisi vol.13, Page 392-403, 2020.
- 20. Aksoy B, Özsoy K, Salman OKM, Sayın İ., “Artificial Intelligence Applications for Medical Diagnosis and Production with 3D Printing Technologies”, Artificial Intelligence for Data-Driven Medical Diagnosis, 2021.