product from composite material which consists of an aluminum metal matrix reinforced by a 18% volume fraction of graphite fiber. Use the given properties of aluminum and graphite to determine: a. The density of the composite. b. The Mass fractions of the aluminum and graphite. ¢. The transverse Young’s modulus of the aluminum/ graphite composite. d. The axial Young’s modulus of the aluminum/ graphite composite. e. Compare the results of the transverse and axial Young’s modulus of the pure aluminum alloy with the results of the transverse and axial Young’s modulus of the composite found in 3 and 4 and give the improvement or reduction percentages. Given: Aluminum p,, = 0.0027g/mm3, E;,=E,=70GPa Graphite p=0.0018 g / mm’, E;;=220 GPa, E;;=20 GPa
product from composite material which consists of an aluminum metal matrix reinforced by a 18% volume fraction of graphite fiber. Use the given properties of aluminum and graphite to determine: a. The density of the composite. b. The Mass fractions of the aluminum and graphite. ¢. The transverse Young’s modulus of the aluminum/ graphite composite. d. The axial Young’s modulus of the aluminum/ graphite composite. e. Compare the results of the transverse and axial Young’s modulus of the pure aluminum alloy with the results of the transverse and axial Young’s modulus of the composite found in 3 and 4 and give the improvement or reduction percentages. Given: Aluminum p,, = 0.0027g/mm3, E;,=E,=70GPa Graphite p=0.0018 g / mm’, E;;=220 GPa, E;;=20 GPa
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Q2: A product from composite material which consists of an aluminum metal matrix reinforced by a 18% volume fraction of graphite fiber. Use the given properties of aluminum and graphite to determine: a. The density of the composite. b. The Mass fractions of the aluminum and graphite. ¢. The transverse Young’s modulus of the aluminum/ graphite composite. d. The axial Young’s modulus of the aluminum/ graphite composite. e. Compare the results of the transverse and axial Young’s modulus of the pure aluminum alloy with the results of the transverse and axial Young’s modulus of the composite found in 3 and 4 and give the improvement or reduction percentages. Given: Aluminum p,, = 0.0027g/mm3, E;,=E,=70GPa Graphite p=0.0018 g / mm’, E;;=220 GPa, E;;=20 GPa
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