Study of the mechanical and thermal properties of Polyester Composites Prepared with Nylon66

https://doi.org/10.53730/ijhs.v6nS1.6299

Authors

  • Anwar M. Ahmed Department of Chemistry, College of Education for Girls, University of Mosul, Mosul, Iraq
  • Ebtahag Z. Sulyman Department of Chemistry, College of Education for Girls, University of Mosul, Mosul, Iraq

Keywords:

unsaturated polyester resin, Nylon 66, Hardness strength, Compressive strength Compressive strength, Impact strength, Thermal conductivity

Abstract

In this research, polymeric composites were prepared from unsaturated polyester resin as a base material with Nylon 66 as a reinforcement material with different weight percentages (1%,2%,3%,4%,5%) and through the results it was found that the highest value was (Hardness strength, Compressive strength, Impact strength) when reinforced by weight (5%) at room temperature, but when treated at temperatures  (8.55) ℃, it was found that both the tensile strength and compressive strength increased at 55 ℃ and decreased at 8 ℃, while Impact resistance decreases at temperatures (8.55) ℃  It was also found that the thermal conductivity decreased at all temperatures (8.55)℃, which indicates that the polymeric composites consisting of unsaturated polyester resin reinforced with Nylon 66 are good heat insulators.

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References

Penczek, P.; Czub, P.; Pielichowski, J. Unsaturated polyester resins: Chemistry and technology. In Crosslinking in Materials Science; Ameduri, B., Ed.; Springer: Berlin/Heidelberg, Germany,vol. 184, pp. 1–95, 2005.

Waigaonkar, S.; Babu, B.; Rajput, A. Curing Studies of Unsaturated Polyester Resin Used in FRP Products, Jaico: India; 123-130, 2011.

Ton.That, M.T.; Cole, K.; Jen, C.K.; Franca, D. Polyester cure monitoring by means of different techniques. Polym. Compos, 21, 605-618, 2000.

A.T. Lee, M. Michel ,E. Ferrier, Brahim Benmokrane, Influence of curing conditions on mechanical behaviour of glued joints of carbon fibre-reinforced polymer composite/concrete, Construction and Building Materials,227, 116385,2019.

Jenarthanan, M.P.; Marappan, K.; Giridharan, R. Evaluation of mechanical properties of e-glass and aloe vera fiber reinforced with polyester and epoxy resin matrices. Pigment. Resin Technol, 48, 243–248, 2019 .

Bingol, M.; Cavdar, K. New investigations on higher mechanical properties of woven glass fiber reinforced SMC composites. Indian J. Eng. Mater. Sci. , 25, 315–320,2018.

Khorasani, M.A.M.; Sahebian, S.; Zabett, A. Effects of toughened polyester on fatigue behavior of glass fiber reinforced polyester composite for wind turbine blade. Polym. Compos. , 42, 70–82, 2021.

Huang, Q.T.; Garoushi, S.; Lin, Z.M.; He, J.W.; Qin, W.; Liu, F.; Vallittu, P.K.; Lassila, L.V.J. Properties of discontinuous S2-glass fiber-particulate-reinforced resin composites with two different fiber length distributions. J. Prosthodont. Res. , 61, 471–479, 2017.

Ahmed, S.R.; Khanna, S. Tensile properties of glass fiber-reinforced polyester composites at extreme cold temperatures. Polym. Compos. , 41, 3698–3706, 2020.

Serin, H.; Yildizhan, S. Tensile properties and cost-property efficiency analyses of expanded polystyrene/chopped glass fiber/epoxy novel composite. J. Mech. Sci. Technol. , 35, 145–151, 2021.

Guo, B.Q.; Wang, X.J.; Wang, R.R.; Ma, Y.C. Mild-thermal fabrication and phase conformation of chopped glass fiber-reinforced low-density unsaturated polyester resin with NH4HCO3. Iran. Polym. J. , 27, 997–1010, 2018.

Matuana, L.M.; Park, C.B.; Balatinecz, J.J. Cell morphology and property relationships of microcellular foamed PVC/wood-fiber composites. Polym. Eng. Sci. , 38, 1862–1872, 1998.

Hong, C.M.; Wang, X.J.; Pan, Z.G.; Zhang, Y.F. Curing thermodynamics and kinetics of unsaturated polyester resin with different chain length of saturated aliphatic binary carboxylic acid. J. Therm. Anal. Calorim. , 122, 427–436., 2015.

Kang, J.Y.; Huang, M.; Zhang, M.F.; Zhang, N.; Song, G.; Liu, Y.Z.; Shi, X.Z.; Liu, C.T. An effective model for fiber breakage prediction of injection-molded long fiber reinforced thermoplastics. J. Reinf. Plast. Compos. , 39, 473–484, 2020.

Teixeira, D.; Giovanela, M.; Gonella, L.B.; Crespo, J.S. Influence of injection molding on the flexural strength and surface quality of long glass fiber-reinforced polyamide 6.6 composites. Mater. Des. 2015, 85, 695–706.

Hong, C.M.; Wang, X.J.; Pan, Z.G.; Zhang, Y.F. Curing thermodynamics and kinetics of unsaturated polyester resin with different chain length of saturated aliphatic binary carboxylic acid. J. Therm. Anal. Calorim., 122, 427–436, 2015.

Ibrahiem ,R. E., Sulyman, E. Z., "Preparation Polymeric Composites from Epoxy with Randomly Woven Fibre Glass and Studies the Mechanical roperties." Rafidain Journal of Science 28.3, 104-115, 2019.

Al-Safi, R.A.," Study of thermal and mechanical properties Nouveau and its overlays", Master's Thesis, Technological University,2001.

Waad, E. S., Sulyman , E. Z.," Preparation of Polymeric Composites from Saturated Poly ester glass powder (flourscent ) and Study of it s mechanical properties " , Iraqi Journal of Labor Research and Consumer Protection , 13.1., 2020.

N. Z. Sulyman, E.Z. Sulyman 3T. A. Hallow," Study The Thermal Properties And Effect Of Acidic Solutions To Unsaturated Polyester Composite With Iron Filing", Systematic Reviews in Pharmacy,12(1),PP.1199-1205,2021.

Sirichai Kanking, Piyaporn Niltui, Ekachai Wimolmala and Narongrit Sombatsompop, “Use of bagasse fiber ash as secondary particulate in silica or carbon black filled natural rubber compound,” Materials and Design 41: 74–82 ,2012.

M.A. Hammed, T.A. Mandeel, "Preparation and characterization of Nano Natural Silica composite with polyester resin & polystyrene and study of Mechanical properties",Journal of Al-Anbar University for Pure Science,8(3),87-90 ,2014.زز

Kaushal Arrawatia, Kedar Narayan Bairwa, Raj Kumar ,Processing and Mechanical Behavior of Banana Fibre Reinforced Epoxy based Composite with Alumina and silicon Carbide, Int J Sci Res Sci & Technol., 8 (6) , 434-441, November-December-2021.

H. M. Kawade and N. G. Narve, “Natural FibreReinforced Polymer Composites: A Review”,International Journal for Scientific Researchand Development,. 5(9), 445-449,2017.

Callister, W.D., " Materials Science and Engineering " , John Wiley and Sons .Inc. 8 th edition ,2009.

Abd Al-Hussien ,H.J.,"Effect of immersion in chemical Solution on the mechanical& physical properties for composite material reinforced by nano alumina Particles ,Iraqi Journal of Science ,5(3),1952-1963,2015.

B. Neher, R. Hossain, K. Fatima, M. A. Gafur,M. A. Hussain and F. Ahmed, “Study of thePhysical, Mechanical and Thermal Properties ofBanana Fibre Reinforced HDPE Composites”,Materials Sciences and Applications, Vol. 11, 245-262, 2020.

Dr. Kahtan K.Al-Khazraji , Ali I.Al-Mosawi “Effect Study of Magnesium Oxide on Thermal Conductivity of Unsaturated Polyester Resin” , Journal of Babylon University , Engineering Sciences , 9(5) , 867 – 876, 2004.

Cantab,M.A.,Lond ,B,Sc .,"Practical Physics ", Bradfield College ,96-97,1952.

Rashad , B. J., Al-Falahi , A. H., Al-Dabagh , B. M., " Study of Some Mechanical Properties and Thermal Conductivity of Epoxy / TiO2-ZnO Hybrid Nano Composites " , Anbar University Journal of Pure Science, 11.2, 2017.

Published

26-04-2022

How to Cite

Ahmed, A. M., & Sulyman, E. Z. (2022). Study of the mechanical and thermal properties of Polyester Composites Prepared with Nylon66. International Journal of Health Sciences, 6(S1), 6265–6277. https://doi.org/10.53730/ijhs.v6nS1.6299

Issue

Section

Peer Review Articles