TY - JOUR T1 - TENSILE MODULUS OF LAMINATE COMPOSITES AU - Kurt, Halil İbrahim AU - Yılmaz, Necip Fazıl AU - Oduncuoğlu, Murat PY - 2018 DA - December Y2 - 2018 JF - The International Journal of Materials and Engineering Technology JO - TIJMET PB - Necip Fazıl YILMAZ WT - DergiPark SN - 2667-4033 SP - 1 EP - 6 VL - 1 IS - 1 LA - en AB - AbstractThe influence of Borax/SiCcontent on the tensile modulus of Carbon/epoxy and Kevlar/epoxy composites was analyzedusing artificial neural network approach with six neuron in one hidden layer inthis study. The correlation coefficient, R2, mean square error and meanabsolute error was used to state the performance and error evaluation criteriaof the proposed model/system. Borax andSiC ratios was changed between 0 and 10%. Addition of SiC caused to an increaseon the tensile modulus of Carbon/epoxy and Kevlar/epoxy composites but Boraxaddition induced the decrease of it of these composites. KW - Tensile modulus KW - ANN KW - Composite KW - Kevlar CR - 1. Hull, D.; Clyne, T. An introduction to composite materials. Cambridge university press: 1996.2. Cha, K.K. Composite materials: Science and engineering. Springer New York: 2013.3. Chawla, K.K. Composite materials: Science and engineering. Springer.4. Kainer, K.U. Metal matrix composites: Custom-made materials for automotive and aerospace engineering. John Wiley & Sons: 2006.5. Mallick, P.K. Fiber-reinforced composites: Materials, manufacturing, and design. CRC press: 2007.6. Prasad, D.S.; Shoba, C.; Ramanaiah, N. Investigations on mechanical properties of aluminum hybrid composites. Journal of Materials Research and Technology 2014, 3, 79-85.7. On the use of nanocellulose as reinforcement in polymer matrix composites. Composites Science and Technology 2014.8. Stress transfer in polyacrylonitrile/carbon nanotube composite fibers. Polymer 2014.9. Polymer/carbon nanotube nano composite fibers–a review. ACS Applied Materials & Interfaces 2014, 140212091302006.10. Chisholm, N.; Mahfuz, H.; Rangari, V.K.; Ashfaq, A.; Jeelani, S. Fabrication and mechanical characterization of carbon/sic-epoxy nanocomposites. Composite Structures 2005, 67, 115-124.11. Donmez Cavdar, A.; Mengeloğlu, F.; Karakus, K. Effect of boric acid and borax on mechanical, fire and thermal properties of wood flour filled high density polyethylene composites. Measurement 2015, 60, 6-12.12. El-Kady, O.; Fathy, A. Effect of sic particle size on the physical and mechanical properties of extruded al matrix nanocomposites. Materials & Design (1980-2015) 2014, 54, 348-353.13. Gupta, A.; Kumar, A.; Patnaik, A.; Biswas, S. Effect of different parameters on mechanical and erosion wear behavior of bamboo fiber reinforced epoxy composites. International Journal of Polymer Science 2011, 2011.14. Erkliğ, A.; Bulut, M.; Fayzulla, B. Toughening effect of microscale particles on the tensile and vibration properties of s-glass-fiber-reinforced epoxy composites. Mechanics of Composite Materials 2018, 54, 119-128.15. Bulut, M.; Alsaadi, M.; Erklig, A. A comparative study on the tensile and impact properties of kevlar, carbon, and s-glass/epoxy composites reinforced with sic particles. Materials Research Express 2018.16. Alsaadi, M.; Erkliğ, A. Effect of perlite particle contents on delamination toughness of s-glass fiber reinforced epoxy matrix composites. Composites Part B: Engineering 2018.17. Bulut, M.; Alsaadi, M.; Erkliğ, A. Tensile and impact characterization of s-glass/epoxy composite laminates containing microscale borax, perlite, and sewage sludge ash particles. Journal of the Brazilian Society of Mechanical Sciences and Engineering 2018, 40, 199.18. Arsenault, R. Metal-matrix composite: Strengthening mechanisms. Annual report, october 1988-september 1989; Maryland Univ., College Park, MD (USA). Metallurgical Materials Lab.: 1989. UR - https://dergipark.org.tr/en/pub/tijmet/issue//439510 L1 - https://dergipark.org.tr/en/download/article-file/528180 ER -