Fatigue crack growth resistance in SiC particulate and whisker reinforced P/M 2124 aluminum matrix composites
نویسندگان
چکیده
Fatigue crack growth is examined in P/M 2124 aluminum alloys reinforced with SiC particles (SiCp) and whiskers (SiCw) over a wide spectrum of growth rates from 10 to 10 m per cycle. Effects of aging treatment, orientation of crack growth direction with respect to the rolling direction, mean stress (or stress ratio), and reinforcement volume percent on the fatigue crack growth threshold are investigated in terms of crack tip shielding mechanisms. Comparison to fatigue crack growth in the unreinforced alloy indicates that crack growth resistance in the composites is superior to the monolithic alloy at low stress intensity ranges, DK. Specifically, at the lower growth rates the superior crack growth resistance of the composites is due to the formation of tortuous crack paths and a consequently enhanced roughness induce crack closure. Fatigue response near threshold is found to be relatively insensitive to changes in aging treatment with observed variations reflecting the associated changes in plastic behavior. In whisker reinforced composites, the orientation of the crack with respect to the rolling direction had a significant effect on fatigue crack growth rate while in the particulate reinforced composites orientational effects were not significant. Increasing the volume fraction resulted in higher crack growth resistance at low growth rates in the particulate reinforced materials. At high stress ratios, resistance in both whisker and particulate reinforced composites was lowered, and the measured fatigue crack propagation threshold, DKth, was found to be independent of the reinforcement morphology and volume percent. © 1997 Elsevier Science S.A.
منابع مشابه
Particle size, volume fraction and matrix strength effects on fatigue behavior and particle fracture in 2124 aluminum-SiCp composites
The effects of particle size, volume fraction and matrix strength on the stress-controlled axial fatigue behavior and the probability of particle fracture were evaluated for 2124 aluminum alloy reinforced with SiC particles. Average particle sizes of 2, 5, 9 and 20/~m and volume fractions of 0.10, 0.20 and 0.35 were examined for four different microstructural conditions. Tensile and yield stren...
متن کاملFatigue-Crack Propagation Behavior of Ductile/Brittle Laminated Composites
A study has been made of the fatigue-crack propagation properties of a series of laminated Nbreinforced Nb3Al intermetallic-matrix composites with varying microstructural scale but nominally identical reinforcement volume fraction (20 pct Nb). It was found that resistance to fatigue-crack growth improved with increasing metallic layer thickness (in the range 50 to 250 mm) both in the crack-divi...
متن کاملبررسی تأثیر فرآیند اکستروژن بر ریزساختار و استحکام کامپوزیت Al6061-SiC
Al-SiC composites are among the most demanding metal matrix composites due to their excellent strength, good ductility, good corrosion resistance, low coefficient of thermal expansion and reasonable price. Manufacturing of cast metal matrix composites usually involves some problems such as inhomogeneous distribution of the particles due to poor wetability of ceramics to molten alloys, porosity ...
متن کاملAn Overview of Metal Matrix Composite: Processing and Sic Based Mechanical Properties
In view of large interest in the improve of Al/Al alloy based Metal matrix Composite and high-temperature ceramics on the base of silicon carbide, a comprehensive review of the data on structure, properties and the known methods of processing of silicon carbide seems timely. The most striking feature of silicon carbide is its polytypism, i.e. formation of a great number of structural changes wi...
متن کاملMicrostructure Characterization and Mechanical Properties of Al-SiCp Composites
In recent years the aluminum matrix composites are gaining wide spread applications in automotive, aerospace, defense, sport and other industries. The reason for this is their exciting properties like high specific strength, stiffness, hardness, wear resistance, dimensional stability and designer flexibility. The present work reports on mechanical properties and microstructure analysis of Al-Si...
متن کامل