2005
DOI: 10.1002/adem.200500161
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Mechanical Behavior of Multilayered Nanoscale Metal‐Ceramic Composites

Abstract: Single and multilayered structures at nano‐length scale are very attractive materials due to their high strength, toughness, and wear resistance relative to conventional laminated composites. In this study, single layered Al, SiC, and multilayered Al/SiC composites were synthesized by DC/RF magnetron sputtering. The microstructure of the multilayered structures was characterized by scanning electron microscopy (SEM). The elastic and plastic behavior of single and multilayered materials was investigated by nano… Show more

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Cited by 100 publications
(48 citation statements)
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References 56 publications
(53 reference statements)
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“…The difference, although very small, is very probably caused by the elastic anisotropy of Al/SiC laminates due to the layer orientation, as discussed in Ref. [2], While the transverse elastic modulus is measured directly during micropillar compression, nanoindentation tests perpendicular to the layers are influenced by both the transverse and the longitudinal elastic moduli, because of the multiaxial stress state. Thus, when loading perpendicular to the layers, in nanoindentation one would expect a slightly higher modulus because of the contribution from loading parallel to the layers.…”
Section: 12mentioning
confidence: 99%
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“…The difference, although very small, is very probably caused by the elastic anisotropy of Al/SiC laminates due to the layer orientation, as discussed in Ref. [2], While the transverse elastic modulus is measured directly during micropillar compression, nanoindentation tests perpendicular to the layers are influenced by both the transverse and the longitudinal elastic moduli, because of the multiaxial stress state. Thus, when loading perpendicular to the layers, in nanoindentation one would expect a slightly higher modulus because of the contribution from loading parallel to the layers.…”
Section: 12mentioning
confidence: 99%
“…The sample holder was continuously rotated during sputtering to obtain uniform layer thicknesses. The deposition rates were ^7.5 nm min -1 for A1 and 3.9 nm min -1 for SiC [2,19,31,32], A total of 40 layers (20 A1 and 20 SiC) were deposited. The individual layer thickness of A1 and SiC were targeted to be ~60 nm.…”
Section: Materials and Experimental Proceduresmentioning
confidence: 99%
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“…The stress-strain curves extracted from micro-tensile experiments of Al and Al/SiC multilayer films show that, while independent Al layers experience an expected work hardening leading to perfect plasticity, the Al/SiC multilayer film as a whole exhibits work softening (Deng et al, 2005a). This implies that the SiC layers themselves have a strain softening behavior.…”
Section: Numerical Modelmentioning
confidence: 96%
“…This phenomenon has not surfaced in the previous finite element models associated with elastic-perfect-plasticity. However, from the micro-tension tests of Deng et al (2005a), it is inferred that the SiC film actually exhibits strain softening after yielding. The present exploratory work thus focuses on attempting shear band initiation in finite element models by incorporating strain softening of the SiC layers.…”
Section: Introductionmentioning
confidence: 99%