Mechanical properties (Tensile, Hardness and Shock resistance) for the phenol formaldehyde resin with Epoxy resin

https://doi.org/10.24237/djes.2019.12203

Authors

  • Mustafa A. Rajab Mechanical. Department, Technical Institute of Baqubah, Middle Technical University, Iraq
  • Ekhlas I. Kader Department of Mechanical Engineering, College of Engineering, University of Diyala, Iraq
  • Ali Adwan Hammod Department of Mechanical Engineering, College of Engineering, University of Diyala, Iraq
  • Abdul Hameed I. Hameed Department of Mechanical Engineering, College of Engineering, University of Diyala, Iraq

Keywords:

phenol formaldehyde, Epoxy resin, Shock resistance, Tensile

Abstract

Phenolic formaldehyde (resole) resin was used at a different weight (10%, 20%, 30%, 40%), with epoxy resins at varying percentages (90%, 80%, 70%, 60%) at 20 C °. In order to study the mechanical properties (which including: Tensile strength, hardness and shock resistance), for the purpose of analysis and comparison with the mechanical properties of alloys, and the selected part for the purpose of replacing the alloy with the composite materials to reduce weight and improve mechanical properties. The results indicate improved properties with increased epoxy resins due to increased bonding between components.

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References

P. Vincenzini and M. Singh “Advanced Inorganic Fibrous Composites V ” , Trans Tech Publications, 2006.

Ebewele, Oboigbaotor R, ''Polymer Science and Technology'', CRC Press, New York, 2000.

Reading, M. 1993. Trends in Polymer Science 1(8): 248-253.

Reading, M., D. Elliot and V.L. Hill. 1993. Journal of Thermal Analysis. 40(3): 949-955.

Jun Zheng , " STUDIES OF PF RESOLE ISOCYANATE HYBRID ADHESIVES ", Ph. D, Thesis, Virginia Polytechnic Institute and State University, 2008.

ASTM, “Annual Book of ASTM Standard”, Section 8, Plastics (I). Vol. (08-01), Easton, M. V. S. A., 1989.

Crawford, R. J., “Plastic Engineering”, 2nd Edition, Pergamon Press USA, 1987.

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”, 3rd Edition , CRC Press, 2007.

E.P.DeGarmo, J.T. Black, and R.A. kohser “ Materials and processes in Manufacturing ” , 10th Edition , john Wiley & Sons , 2008 .

Liyong Tong ,Adrian P.Mouritz ,Michael K.Bannister “3D Fiber Reinforced Polymer Composites” , First Edition , Elsevier Science Ltd , 2002 .

Halem, Ali Hoby,1999 “ Improvement Properties of Reinforced Plastic Materials ”, MSC Thesis , Engineering College , Babylon University , Iraq.

Incropera F.P and DeWitt D.P., Introduction to Heat Transfer, 3rd Edition, John Wiley &Sons , 1996.

B.A.Azhdar “Impact Fracture Toughness of Fiber Reinforced Epoxy Resin” ,M.SC Thesis ,U.O.T ,1992

Ali I.Al-Mosawi “Study of Some Mechanical Properties for Polymeric Composite Material Reinforced by Fibers ” , Al-Qadessiyah Journal For Engineering Science , Vol 2 , No 1 , 2009 . pp.14 – 24 .

Dr. Abbas A. Al-Jeebory, Ali I.Al-Mosawi, Sajed A. Abdul Allah “Effect of percentage of Fibers Reinforcement on Thermal and Mechanical Properties for Polymeric Composite Material ” , Iraqi Journal of Mechanical and Materials Engineering , First Conference of Engineering College , 2009 .

Bogomolov V. and Kartenko N. “Thermal Conductivity of the Opal- Epoxy Resin Nanocomposite ” , Physics of the Solid State , Vol 45,No 5,PP.957-960, 2003.

F.Rondeaux , ph. Bredy and J.M.Rey. “Thermal Conductivity Measurements of Epoxy Systems at Low Temperature” , Cryogenic Engineering Conference (CEC), USA, July 16-20, 2001 .

Dr. Kahtan K.Al-Khazraji , Ali I.Al-Mosawi “Study of Thermal Behavior for Composite Material Consisted from Unsaturated Polyester Resin Reinforced by Palms and Glass Fibers” , Journal of Babylon University , Engineering Sciences , Vol 9 , No 5 , pp.867 – 876, 2004.

Published

2019-06-01

How to Cite

[1]
M. A. Rajab, E. I. Kader, A. A. Hammod, and A. H. I. Hameed, “Mechanical properties (Tensile, Hardness and Shock resistance) for the phenol formaldehyde resin with Epoxy resin”, DJES, vol. 12, no. 2, pp. 35–43, Jun. 2019.