Kauçuk Hava Süspansiyon Körüklerinin Üretim Yöntemi Ve Yorulma Ömrünün Ürün Kalitesi Üzerine Etkisinin Belirlenmesi
Abstract
Bu çalışmada, taşıtlardaki
süspansiyon sistemlerinin bir parçası olan hava süspansiyon körüğünün üretim
tipinin ürün kalite özellikleri üzerine etkisi incelenmiştir. Üretilen
körüklerin ilgili standartlar göz önünde bulundurularak fiziksel ve mekanik
özellikleri belirlenmiştir. Üretilen körüğün mekanik performanslarının
belirlenmesine yönelik çalışma kapsamında Patlatma Test Makinesi,
Taşıma-Genişleme ve Ömür Test Makinesi kullanılmıştır. İmal edilen hava
süspansiyon körüklerinin mekanik özelliklerini incelemek amacıyla patlatma,
taşıma, genişleme ve ömür testleri gerçekleştirilmiştir. Testler sonrasında,
körüğe ait patlatma basıncı, taşıma yükü değeri, tekrarlı yükleme durumunda
kuvvet değerlerindeki değişimler belirlenmiştir. Ayrıca, körüğün taşıma yükü ve
yatay yer değiştirme değerleri altında boyutsal değişimleri tespit edilmiştir.
References
- [1] Oman, S., Fajdiga, M. and Nagode, M., “Estimation of air-spring life based on accelerated experiments”, Materials and Design, 31: 3859–3868, (2010).
- [2] Rebernik, J., “Development of air-spring optimization program”, Faculty of mechanical engineering, University of Ljubljana; (2008).
- [3] Mars, W.V. and Fatemi, A. A., “Literature survey on fatigue analysis approaches for rubber”, Int J Fatigue, 24: 949–961, (2002).
- [4] Mars, W.V. and Fatemi, A. A., “Factors that effect the fatigue life of rubber: a literature survey”, Rubber Chem Technol, 76: 391–412, (2003).
- [5] Cadwell, S., Merrill, R., Sloman, C. and Yost, F., “Dynamic fatigue life of rubber”, Ind Eng Chem, 12: 19–23 [Analytical edition],(1940).
- [6] Gent, A.N., “Engineering with Rubber. How to design rubber components”, Berlin: Rubber Division., (2001).
- [7] Cardon, A.H. and Emri, I., “Durability analysis of structural composite systems”, Faculty of Engineering (T.W), Free University Brussels; (1996).
- [8] Oman, S., Nagode, M. and Fajdiga, M., “The material characterization of the air-spring bellows sealing layer”, Matererial and Design, 30: 1141–1450, (2009).
- [9] Fischer, G., and Streicher, M., “Procedure for validation tests on air-springs for commercial vehicles”, SAE technical paper series, 982841, November (1998).
Determination of the Effect of the Manufacturing Style And Fatigue Life of the Rubber Air Suspension Bellows on Product Quality
Abstract
In this study, the effect of the production type of
air suspension on the product quality characteristics has been investigated;
which are part of the suspension systems in vehicle. The physical and
mechanical properties of fabricated air spring bellows were determined taking
into account the relevant standards. In scope of the work for determining
mechanical performance of fabricated air spring bellows, The Explode Test
Machine, The Conveying-Widening and Life Test Machines were used. For analyzing
the mechanical properties of manufactured air spring bellows; explode,
conveying-widening and life tests has been effectuated. After the tests,
explode pressure of air spring bellows, value of carrying load, the changes of
the value of force in case of repeatedly loading were determined. Moreover, the
value of loading capacity of the air spring bellows and the dimensional changes
within the horizontal displacement values were determined.
References
- [1] Oman, S., Fajdiga, M. and Nagode, M., “Estimation of air-spring life based on accelerated experiments”, Materials and Design, 31: 3859–3868, (2010).
- [2] Rebernik, J., “Development of air-spring optimization program”, Faculty of mechanical engineering, University of Ljubljana; (2008).
- [3] Mars, W.V. and Fatemi, A. A., “Literature survey on fatigue analysis approaches for rubber”, Int J Fatigue, 24: 949–961, (2002).
- [4] Mars, W.V. and Fatemi, A. A., “Factors that effect the fatigue life of rubber: a literature survey”, Rubber Chem Technol, 76: 391–412, (2003).
- [5] Cadwell, S., Merrill, R., Sloman, C. and Yost, F., “Dynamic fatigue life of rubber”, Ind Eng Chem, 12: 19–23 [Analytical edition],(1940).
- [6] Gent, A.N., “Engineering with Rubber. How to design rubber components”, Berlin: Rubber Division., (2001).
- [7] Cardon, A.H. and Emri, I., “Durability analysis of structural composite systems”, Faculty of Engineering (T.W), Free University Brussels; (1996).
- [8] Oman, S., Nagode, M. and Fajdiga, M., “The material characterization of the air-spring bellows sealing layer”, Matererial and Design, 30: 1141–1450, (2009).
- [9] Fischer, G., and Streicher, M., “Procedure for validation tests on air-springs for commercial vehicles”, SAE technical paper series, 982841, November (1998).
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Research Article |
| Authors | |
| Publication Date | December 1, 2018 |
| Submission Date | November 14, 2017 |
| Published in Issue | Year 2018 Volume: 21 Issue: 4 |
Cite
Cited By
Effects of Forces and Material Types on Fatigue Analysis of Beams
Celal Bayar Üniversitesi Fen Bilimleri Dergisi
https://doi.org/10.18466/cbayarfbe.1324800
Air leakage test system for product without atmosphere air connection
Journal of Mechatronics and Artificial Intelligence in Engineering
https://doi.org/10.21595/jmai.2023.23293
Hava Körüklerinin Statik ve Dinamik Sönümleme Özelliklerinin Sonlu Elemanlar Yöntemi ile İncelenmesi
European Journal of Science and Technology
Hasan KASIM
https://doi.org/10.31590/ejosat.897413
This work is licensed under Creative Commons Attribution-ShareAlike 4.0 International.