DENSITY VARIATION EFFECTS ON CROSS DIMENSION (CD) STRENGTH OF PHENOLIC MULTILAYERED COMPOSITES FABRICATED VIA VARTM

Authors

  • M. A. Nasir Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • Z. Khan Institute of Space & Technology, Islamabad, Pakistan
  • Mudaser Ullah Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • R. A. Pasha Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • R. A. Rahman Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • Q. Ali Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • S. Anas Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • S. Nauman Mechanical Engineering Department, University of Engineering and Technology, Taxila, Pakistan
  • S. Amin Institute of Space & Technology, Islamabad, Pakistan

DOI:

https://doi.org/10.71330/thenucleus.2014.718

Abstract

Different phenolic composites categorized on the basis of different reinforcing fibers, each fiber has a constant length of 50 mm in its respective composite grade, are investigated on the basis of varying number of piles per square area of tested zone. As the piles differ in interested zone then resultantly density is changed for each composite grade, although the resin and hardener are k ept constant for each sample of tested composite type. Vacuum Assisted Resin Transfer Molding (VARTM) technique is used to synthesis all phenolic composites used in this research. During synthesis of each grade the same resin (Resole) and hardener (Ry lex30) are used in VARTM setup, however the fiber volume ratio is changed from 52-60% with respect to density range utilized in this work. Detail design description of VARTM is also discussed and optimized up to maximum scale to acquire compact, uniformly strengthen and porosity banned specimens. Cross Dimension (CD) Tensile and flexure strength variability with respect to density (changing fiber volume ratio) of each grade is viewed on experimental basis and tried to explain their behavior.

References

M.E. Waddoups, Composite Materials Workshop,

Lancaster: Technomic Pub. Co (1968) pp. 254-

A. Mouritz and Z. Mathys, Fire and Materials 24

(2000) 67.

B. Singh, M. Gupta and A. Verma, Composites

Science and Technology 60 (2000) 581.

P. Gopal, L. Dharani and F.D. Blum, Wear 193

(1996) 199.

D. Bender, J. Schuster and D. Heider, Composites

Science and Technology 66 (2006) 2265.

A. Verma, B. Vishwanath and C. Rao, Wear 193

(1996) 193.

S. Wang, S. Adanur and B.Z. Jang, Composites

Part B: Engineering 28 (1997) 215.

K.A. Trick and T.E. Saliba, Carbon 33 (1995)

N.A. St John and J.R. Brown, Composites Part A:

Applied Science and Manufacturing 29 (1998)

P.K. Vallittu, The Journal of Prosthetic Dentistry

(1999) 318.

J.G. A. P. Mouritz and A. A. Goodwin,

Composites Science and Technology 57 (1997)

M.A.H.S.M.A. Suliman, Polymer Testing 17

(1998) 79.

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Published

11-03-2014

How to Cite

[1]
M. A. Nasir, “DENSITY VARIATION EFFECTS ON CROSS DIMENSION (CD) STRENGTH OF PHENOLIC MULTILAYERED COMPOSITES FABRICATED VIA VARTM”, The Nucleus, vol. 51, no. 1, pp. 13–18, Mar. 2014.

Issue

Vol. 51 No. 1 (2014)

Section

Articles

License

For all articles published in The Nucleus, copyright is retained by the authors. Articles are licensed under an open access licence [CC Attribution 4.0] meaning that anyone may download and read the paper for free. In addition, the article may be reused and quoted provided that the original published version is cited properly.

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