Title :
Dynamic Young modulus of a ceramic-aluminum particle-reinforced composite: measurement and modeling
Author :
Ledbetter, Hassel ; Fortunko, Christopher
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
Abstract :
The authors studied the dynamic Young modulus, E, of a particle-reinforced aluminum alloy. The particles consisted of Al2 O3 spheres with average sizes of 30, 45, and 100 μm. The measurement methods consisted of megahertz-frequency pulse-echo superposition and kilohertz-frequency standing-wave resonance. The modeling method consisted of taking the long-wavelength limit of the ensemble average of the sound velocity of plane waves scattered by a well-stirred distribution of spheres. Input to the model consists only of the particle and matrix elastic constants. With one exception, all the measurements agree with theory within 0.7%. The results confirm the model, show that particle size fails to affect E, and demonstrate a 17% negative departure (at c=0.30) from a linear rule-of-mixture
Keywords :
Young´s modulus; alumina; aluminium alloys; elastic moduli measurement; particle reinforced composites; 100 micron; 30 micron; 45 micron; Al2O3 spheres; dynamic Young modulus; kilohertz-frequency standing-wave resonance; long-wavelength limit; megahertz-frequency pulse-echo superposition; particle reinforced Al alloy; plane waves; sound velocity; Acoustic scattering; Composite materials; Frequency measurement; Microstructure; Particle measurements; Pulse measurements; Residual stresses; Resonance; Ultrasonic variables measurement; Young´s modulus;
Conference_Titel :
Ultrasonics Symposium, 1991. Proceedings., IEEE 1991
Conference_Location :
Orlando, FL
DOI :
10.1109/ULTSYM.1991.234278
