Research Article
Year 2019,
Volume: 3 Issue: 3, 51 - 56, 30.09.2019
Abstract
References
- [1] Thakur, V.K., Thakur, M.K., Gupta, R.K. (2014). Review: raw natural fiber-based polymer composites. Int. J. Polym. Anal. Charact, 19, 256-271.[2] Ku, H., Wang, H., Pattarachaiyakoop, N., Trada, M. (2011). A review on the tensile properties of natural fiber reinforced polymer composites. Compos. Part B Eng, 42, 856-873.[3] Barari, B., Ellingham, T., Qamhia, I., Pillai, K., El-Hajjar, R., Turng, T. et al. (2016). Mechanical characterization of scalable cellulose nano-fiber based composites made using liquid composite molding process. Compos. Part B Eng 277-284.[4] Unterweger, C., Brüggemann, O., Fürst, C. (2014). Synthetic fibers and thermoplastic short-fiber-reinforced polymers: properties and characterization. Polym. Compos, 35, 227-236.[5] Santos, T., Vasconcelos, G., Souza, W., Costa, M., Botelho, E. (2015). Suitability of carbon fiber-reinforced polymers as power cable cores: Galvanic corrosion and thermal stability evaluation. Mater Design, 65, 780-788.[6] Pei, X-Q., Bennewitz, R., Schlarb, A.K. (2015). Mechanisms of friction and wear reduction by carbon fiber reinforcement of Peek. Tribol Lett, 58, 1-10.[7] Bahadur, S., Zheng Y. (1990). Mechanical and tribological behavior of polyester reinforced with short glass fibers. Wear, 137, 251-266.[8] Zhang, S. (1998) State-of-the-art of polymer tribology Tribol. Int 31, 49-60.[9] Zhang, Y., Zhu, S., Liu, Y., Yang, B., Wang, X. (2015). The mechanical and tribological properties of nitric acid-treated carbon fiber-reinforced polyoxymethylene composites J. Appl. Polym. Sci, 132.[10] Herrera-Franco, P.J. and Valadez-Gonza´lez, A. (2004). Mechanical properties of continuous natural fibre-reinforced polymer composites. Composites Part A 35, 339–345.[11] Selzer R. and Friedrich K. (1997). Mechanical properties and failure behaviour of carbon fibre-reinforced polymer composites under the influence of moisture, Composites Part A 28A, 595- 604.[12] Faris M. AL-Oqla, Sapuan, S.M. (2014). Natural fiber reinforced polymer composites in industrial applications: feasibility of date palm fibers for sustainable automotive industry. Journal of Cleaner Production 66, 347-354.[13] Phetphaisita, C. W., Namahoota, J., Saengkiettiyutb, K., Ruamcharoenc, J. (2015). Polphat Ruamcharoen Green metal organic coating from recycled PETs and modified naturalrubber for the automobile industry. Progress in Organic Coatings 86, 181–189. [14] Ku, H., Wang, H., Pattarachaiyakoop, N., Trada, M. (2011). A review on the tensile properties of natural fiber reinforced polymer composites, Composites: Part B 42, 856–873.[15] Miao, C. and Hamad, W.Y. (2013). Cellulose reinforced polymer composites and nanocomposites: a critical review, Cellulose, 20:2221–2262.[16] Saffet, G (2018-Ocak). Otomotiv Endüstrisinde Kullanılan Polimer Matrisli Kompozit Malzemeler, Yüksek Lisans Tezi, Pamukkale Üniversitesi, Fen Bilimleri Enstitüsü.[17] Muhammad Hanafi Md S. (2017). Mechanical Properties of Coconut Shell Powder Reinforced PVC Composites in Automotive Applications, Journal of Mechanical Engineering, Vol 14(2), 49-61.[18] Savaşçı, Ö.T., Uyanık, N., Akovalı, G. (1999). Plastikler ve Plastik Teknolojisi, PAGEV Yayınları, İstanbul.
Year 2019,
Volume: 3 Issue: 3, 51 - 56, 30.09.2019
Abstract
Research on reducing the weights of automobiles, achieving
fuel consumption and reducing harmful exhaust emissions focuses on the
investigation of new materials. Polymer matrix is the most commonly used
material with respect to composite applications within the scope of
abovementioned research domain. Since polymer materials are inexpensive and
have improved physical and mechanical properties, they are used as a
substitution to metallic materials in several applications. The front barrier
of a car made of glass fiber-reinforced polymer composite is capable of
succeeding a crash test of 35-mph.
Besides providing a similar level of crash security as steel, polymer
composites are also capable of providing improved performance with features
such as vibration control. The use of polymer materials in the interior and
exterior design of automobiles increases each day. Polymer materials are preferred for various
car parts, such as consoles, door baffle boards, floor mats, air conditioning
pipes and grids etc. The present study focuses on the analysis of the
mechanical properties of polypropylene used in front consoles of the vehicles.
In this respect, front consoles of various automobile models, which were made
of polypropylene, were analyzed.
Keywords
References
- [1] Thakur, V.K., Thakur, M.K., Gupta, R.K. (2014). Review: raw natural fiber-based polymer composites. Int. J. Polym. Anal. Charact, 19, 256-271.[2] Ku, H., Wang, H., Pattarachaiyakoop, N., Trada, M. (2011). A review on the tensile properties of natural fiber reinforced polymer composites. Compos. Part B Eng, 42, 856-873.[3] Barari, B., Ellingham, T., Qamhia, I., Pillai, K., El-Hajjar, R., Turng, T. et al. (2016). Mechanical characterization of scalable cellulose nano-fiber based composites made using liquid composite molding process. Compos. Part B Eng 277-284.[4] Unterweger, C., Brüggemann, O., Fürst, C. (2014). Synthetic fibers and thermoplastic short-fiber-reinforced polymers: properties and characterization. Polym. Compos, 35, 227-236.[5] Santos, T., Vasconcelos, G., Souza, W., Costa, M., Botelho, E. (2015). Suitability of carbon fiber-reinforced polymers as power cable cores: Galvanic corrosion and thermal stability evaluation. Mater Design, 65, 780-788.[6] Pei, X-Q., Bennewitz, R., Schlarb, A.K. (2015). Mechanisms of friction and wear reduction by carbon fiber reinforcement of Peek. Tribol Lett, 58, 1-10.[7] Bahadur, S., Zheng Y. (1990). Mechanical and tribological behavior of polyester reinforced with short glass fibers. Wear, 137, 251-266.[8] Zhang, S. (1998) State-of-the-art of polymer tribology Tribol. Int 31, 49-60.[9] Zhang, Y., Zhu, S., Liu, Y., Yang, B., Wang, X. (2015). The mechanical and tribological properties of nitric acid-treated carbon fiber-reinforced polyoxymethylene composites J. Appl. Polym. Sci, 132.[10] Herrera-Franco, P.J. and Valadez-Gonza´lez, A. (2004). Mechanical properties of continuous natural fibre-reinforced polymer composites. Composites Part A 35, 339–345.[11] Selzer R. and Friedrich K. (1997). Mechanical properties and failure behaviour of carbon fibre-reinforced polymer composites under the influence of moisture, Composites Part A 28A, 595- 604.[12] Faris M. AL-Oqla, Sapuan, S.M. (2014). Natural fiber reinforced polymer composites in industrial applications: feasibility of date palm fibers for sustainable automotive industry. Journal of Cleaner Production 66, 347-354.[13] Phetphaisita, C. W., Namahoota, J., Saengkiettiyutb, K., Ruamcharoenc, J. (2015). Polphat Ruamcharoen Green metal organic coating from recycled PETs and modified naturalrubber for the automobile industry. Progress in Organic Coatings 86, 181–189. [14] Ku, H., Wang, H., Pattarachaiyakoop, N., Trada, M. (2011). A review on the tensile properties of natural fiber reinforced polymer composites, Composites: Part B 42, 856–873.[15] Miao, C. and Hamad, W.Y. (2013). Cellulose reinforced polymer composites and nanocomposites: a critical review, Cellulose, 20:2221–2262.[16] Saffet, G (2018-Ocak). Otomotiv Endüstrisinde Kullanılan Polimer Matrisli Kompozit Malzemeler, Yüksek Lisans Tezi, Pamukkale Üniversitesi, Fen Bilimleri Enstitüsü.[17] Muhammad Hanafi Md S. (2017). Mechanical Properties of Coconut Shell Powder Reinforced PVC Composites in Automotive Applications, Journal of Mechanical Engineering, Vol 14(2), 49-61.[18] Savaşçı, Ö.T., Uyanık, N., Akovalı, G. (1999). Plastikler ve Plastik Teknolojisi, PAGEV Yayınları, İstanbul.
There are 1 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | September 30, 2019 |
| Submission Date | January 16, 2019 |
| Acceptance Date | September 22, 2019 |
| Published in Issue | Year 2019 Volume: 3 Issue: 3 |
Cite
Cited By
Investigation of the wear and friction profile of TPU-based polymers at different infill ratios
International Journal of Automotive Science and Technology
https://doi.org/10.30939/ijastech..1398109
Recent advances in tribological behavior of functionally graded composites: A review
Engineering Science and Technology, an International Journal
https://doi.org/10.1016/j.jestch.2021.05.003
International Journal of Automotive Science and Technology (IJASTECH) is published by Society of Automotive Engineers Turkey
