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Otomotiv Endüstrisinde Kapı Fitil Hamuru için Raf Ömrünün Araştırılması

Year 2022, Volume: 37 Issue: 3, 843 - 852, 17.10.2022
https://doi.org/10.21605/cukurovaumfd.1190606

Abstract

Otomotiv endüstrisindeki araçlar için en önemli parçalardan birisi olan kapı fitili, yalıtım ve sönümleme sağlar. Ürünün kalitesi, gerekli sıcaklıktaki sızdırmazlık karışımının raf ömrüne büyük ölçüde bağlıdır. Karışımın en önemli parametreleri, viskozitesi ve kavrulma değerleridir. Sıklıkla kullanılan ana iki tip sızdırmazlık karışımının olgunlaşma sürelerini etkileyen önemli faktörleri belirlemek için üretici firma ile görüşmeler yapılmıştır. Bu çalışmanın amacı, sızdırmazlık maddesi için üretim ve depolama süreçlerinde en uygun raf ömrünü belirlemektir. Daha sonra, her iki karışım tipi için kontrol altında bir dizi deney gerçekleştirilmiştir ve bu deneylerin sonuçları yardımıyla doğrusal tahmin modelleri geliştirilmiştir. Bu çalışmada, geliştirilen çok değişkenli regresyon modellerin sonuçları sunulmaktadır. Geliştirilen tahmin modellerinin üreticiler tarafından kullanılabileceği ve deney sonuçlarının literatürde yapılan çalışma sonuçlarıyla örtüştüğü görülmektedir.

References

  • 1. Dikmen, E., Basdogan, I., 2008. Material Characteristics of a Vehicle Door Seal and its Effect on Vehicle Vibrations. Vehicle System Dynamics, 46(11), 975-990.
  • 2. Ilhan, I., Turan, D., Gibson, I., Ten Klooster, R., 2021. Understanding the Factors Affecting the Seal İntegrity in Heat Sealed Flexible Food Packages: A Review. Packaging Technology And Science, 34(6), 321-337.
  • 3. Çağlayan, A., Erdal, B., Kuntay, A., Yüksel, T., Saf, O., Araç Kapı Fitillerinin Ses İletim Kaybının Modellenmesi. Otekon’16 8. Otomotiv Teknolojileri Kongresi, Mayıs 2016, Bursa, 1-5, 23-24.
  • 4. Launay, J., Allanic, N., Mousseau, P., Deterre, R., Plot, C., 2018. Effect of Viscous Dissipation in the Prediction of Thermal Behavior of an Elastomer Cylindrical Flow. Journal of Materials Processing Technology, 252, 680-687.
  • 5. Choi, S.S., 2002. Influence of Storage Time and Temperature and Silane Coupling Agent on Bound Rubber Formation in Filled Styrene– Butadiene Rubber Compounds. Polymer Testing, 21(2), 201-208.
  • 6. Choi, S.S., Ko, E., 2014. Novel Test Method to Estimate Bound Rubber Formation of Silica- filled Solution Styrene-butadiene Rubber Compounds. Polymer testing, 40, 170-177.
  • 7. Cheheb, Z., Mousseau, P., Sarda, A., Deterre, R., 2012. Thermal Conductivity of Rubber Compounds Versus the State of Cure. Macromolecular Materials and Engineering, 297(3), 228-236.
  • 8. Dippel, B., Johlitz, M., Lion, A., 2015. Thermo-mechanical Couplings in Elastomers– Experiments And Modelling. ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 95(11), 1117-1128.
  • 9. Yuan, X., 2021. November. Research on Optimization of Cross-sectional Shape For Aircraft Door Rubber Seal. In Journal of Physics: Conference Series, IOP Publishing, 2133(1), 012005.
  • 10. Şahinoğlu, A., Güllü, A., Ciftci, I., 2019. Analysis of Surface Roughness, Sound Level, Vibration and Current When Machining AISI 1040 Steel. Sigma Journal of Engineering and Natural Sciences, 37(2), 423-437.
  • 11. Akgün, N., Dere, G., Evaluation of Biodiesel Production Using Experimental Design. Journal of Engineering and Natural Sciences, Sigma, 25(3), 259-267.
  • 12. Nnanwube, I.A., Okafor, V.N., Obıbuenyı, J.I., Onukwulı, O.D., Ajemba, R.O., 2020. Optimization of Colour Pigments Removal from Palm Oil Using Activated Ogbunike Kaolinite. Sigma Journal of Engineering and Natural Sciences, 38(1), 253-262.
  • 13. Montgomery, D.C., 1999. Experimental Design for Product and Process Design and Development. Journal of the Royal Statistical Society: Series D (The Statistician), 48(2), 159-177.
  • 14. Montgomery, D.C., 2017. Design and Analysis of Experiments. John Wiley and Son, 55-62.
  • 15. Hinkelmann, K., Kempthorne, O., 2007. Design and Analysis of Experiments, Introduction to Experimental Design, John Wiley and Sons, (1), 382-385.
  • 16. Yang, W.P., Tarng, Y.S., 1998. Design Optimization of Cutting Parameters for Turning Operations Based on the Taguchi Method. Journal of Materials Processing Technology, 84(1-3), 122-129.
  • 17. Hamzaçebı, C., Kutay, F., 2003. Taguchi Metodu: Bir Uygulama. Teknoloji, 6(3-4), 7-17.
  • 18. Reis, M.S., Saraiva, P.M., 2004. A Comparative Study of Linear Regression Methods in Noisy Environments. Journal of Chemometrics, 18(12), 526-536.
  • 19. Yavuz, S., 2009. Hatalari Ardişik Bağimli (Otokorelasyonlu) Olan Regresyon Modellerinin Tahmin Edilmesi. Atatürk Üniversitesi İktisadi ve İdari Bilimler Dergisi, 23(3), 123-140.
  • 20. Alexopoulos, E.C., 2010. Introduction to Multivariate Regression Analysis. Hippokratia, 14(Suppl 1), 23.
  • 21. Setyorini, I., Indrajati, I.N., Dewi, I.R., 2017. Influence of Storage Temperature and Time on Mooney Viscosity and Bound Rubber Formation in Natural Rubber Compounds Filled with Carbon Black and Local Silica. International Proceedings of IRC 2017, 850-858.

Investigation of Shelf Life for Door Seal Mixture in Automotive Industry

Year 2022, Volume: 37 Issue: 3, 843 - 852, 17.10.2022
https://doi.org/10.21605/cukurovaumfd.1190606

Abstract

The door seals for vehicles in automotive industry, which are one of the most important components, provide insulation and damping. Quality of the product highly depends on the shelf life of the seal compound under required temperature. The most important parameters of the compound are its viscosity and scorch values. The aim of this study is to determine the most suitable shelf life in manufacturing and storage processes for seal compound. For stating the important factors affecting shelf life of frequently used main two types of seal compound, interviews are made with the producing firm. Then for both types of compound, series of controlled experiments are performed, and linear estimation models are developed with the help of the results of these experiments. In this study, the results of generated multi variable regression models are presented. It is seen that the generated estimation models can be employed by the producers, and the results of the experiments are overlapping with the results of studies performed in the literature.

References

  • 1. Dikmen, E., Basdogan, I., 2008. Material Characteristics of a Vehicle Door Seal and its Effect on Vehicle Vibrations. Vehicle System Dynamics, 46(11), 975-990.
  • 2. Ilhan, I., Turan, D., Gibson, I., Ten Klooster, R., 2021. Understanding the Factors Affecting the Seal İntegrity in Heat Sealed Flexible Food Packages: A Review. Packaging Technology And Science, 34(6), 321-337.
  • 3. Çağlayan, A., Erdal, B., Kuntay, A., Yüksel, T., Saf, O., Araç Kapı Fitillerinin Ses İletim Kaybının Modellenmesi. Otekon’16 8. Otomotiv Teknolojileri Kongresi, Mayıs 2016, Bursa, 1-5, 23-24.
  • 4. Launay, J., Allanic, N., Mousseau, P., Deterre, R., Plot, C., 2018. Effect of Viscous Dissipation in the Prediction of Thermal Behavior of an Elastomer Cylindrical Flow. Journal of Materials Processing Technology, 252, 680-687.
  • 5. Choi, S.S., 2002. Influence of Storage Time and Temperature and Silane Coupling Agent on Bound Rubber Formation in Filled Styrene– Butadiene Rubber Compounds. Polymer Testing, 21(2), 201-208.
  • 6. Choi, S.S., Ko, E., 2014. Novel Test Method to Estimate Bound Rubber Formation of Silica- filled Solution Styrene-butadiene Rubber Compounds. Polymer testing, 40, 170-177.
  • 7. Cheheb, Z., Mousseau, P., Sarda, A., Deterre, R., 2012. Thermal Conductivity of Rubber Compounds Versus the State of Cure. Macromolecular Materials and Engineering, 297(3), 228-236.
  • 8. Dippel, B., Johlitz, M., Lion, A., 2015. Thermo-mechanical Couplings in Elastomers– Experiments And Modelling. ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 95(11), 1117-1128.
  • 9. Yuan, X., 2021. November. Research on Optimization of Cross-sectional Shape For Aircraft Door Rubber Seal. In Journal of Physics: Conference Series, IOP Publishing, 2133(1), 012005.
  • 10. Şahinoğlu, A., Güllü, A., Ciftci, I., 2019. Analysis of Surface Roughness, Sound Level, Vibration and Current When Machining AISI 1040 Steel. Sigma Journal of Engineering and Natural Sciences, 37(2), 423-437.
  • 11. Akgün, N., Dere, G., Evaluation of Biodiesel Production Using Experimental Design. Journal of Engineering and Natural Sciences, Sigma, 25(3), 259-267.
  • 12. Nnanwube, I.A., Okafor, V.N., Obıbuenyı, J.I., Onukwulı, O.D., Ajemba, R.O., 2020. Optimization of Colour Pigments Removal from Palm Oil Using Activated Ogbunike Kaolinite. Sigma Journal of Engineering and Natural Sciences, 38(1), 253-262.
  • 13. Montgomery, D.C., 1999. Experimental Design for Product and Process Design and Development. Journal of the Royal Statistical Society: Series D (The Statistician), 48(2), 159-177.
  • 14. Montgomery, D.C., 2017. Design and Analysis of Experiments. John Wiley and Son, 55-62.
  • 15. Hinkelmann, K., Kempthorne, O., 2007. Design and Analysis of Experiments, Introduction to Experimental Design, John Wiley and Sons, (1), 382-385.
  • 16. Yang, W.P., Tarng, Y.S., 1998. Design Optimization of Cutting Parameters for Turning Operations Based on the Taguchi Method. Journal of Materials Processing Technology, 84(1-3), 122-129.
  • 17. Hamzaçebı, C., Kutay, F., 2003. Taguchi Metodu: Bir Uygulama. Teknoloji, 6(3-4), 7-17.
  • 18. Reis, M.S., Saraiva, P.M., 2004. A Comparative Study of Linear Regression Methods in Noisy Environments. Journal of Chemometrics, 18(12), 526-536.
  • 19. Yavuz, S., 2009. Hatalari Ardişik Bağimli (Otokorelasyonlu) Olan Regresyon Modellerinin Tahmin Edilmesi. Atatürk Üniversitesi İktisadi ve İdari Bilimler Dergisi, 23(3), 123-140.
  • 20. Alexopoulos, E.C., 2010. Introduction to Multivariate Regression Analysis. Hippokratia, 14(Suppl 1), 23.
  • 21. Setyorini, I., Indrajati, I.N., Dewi, I.R., 2017. Influence of Storage Temperature and Time on Mooney Viscosity and Bound Rubber Formation in Natural Rubber Compounds Filled with Carbon Black and Local Silica. International Proceedings of IRC 2017, 850-858.
There are 21 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Barış Kantoğlu This is me 0000-0002-7832-1619

İrem Düzdar Argun This is me 0000-0002-7642-8121

Ahmet Cihan This is me 0000-0001-9110-2368

Yusuf Güner This is me 0000-0003-1786-5599

Publication Date October 17, 2022
Published in Issue Year 2022 Volume: 37 Issue: 3

Cite

APA Kantoğlu, B., Düzdar Argun, İ., Cihan, A., Güner, Y. (2022). Investigation of Shelf Life for Door Seal Mixture in Automotive Industry. Çukurova Üniversitesi Mühendislik Fakültesi Dergisi, 37(3), 843-852. https://doi.org/10.21605/cukurovaumfd.1190606