Add to ORKGIn thiswork,WC–Co micropillars machined by focused ion beamhave been tested under uniaxial compression to investigate the stress–strain behavior and associated deformation mechanisms. The results indicate that yielding phenomena is evidenced by multiple strain bursts. Experimental data is found to fall within the bounds defined by the mechanical responses expected for an unconstrained Co-binder like model alloy and a bulk-like constrained binder region in WC–Co composites; capturing then local phase assemblage and crystal orientation effects.Peer Reviewe
The micropillar compression technique has shown the potential for activating the brittle-to-ductile ...
The strength of metals increases with decreasing sample size, a trend known as the size effect. In p...
The maximum actuation frequency of magnetic shape-memory alloys (MSMAs) significantly increases with...
In thiswork,WC–Co micropillars machined by focused ion beamhave been tested under uniaxial compressi...
In this work, WC–Co micropillars machined by focused ion beam have been tested under uniaxial compre...
The current interest on the development of components on the micrometer size regime demands the eval...
© 2017 Elsevier LtdThe study of mechanical response of materials at small length scales has gained i...
The influence of the chemical nature of the metallic binder on the plastic deformation of cemented c...
International audienceMicroscale dynamic testing is vital to the understanding of material behavior ...
The superelastic behavior of single crystal Cu-Al-Mn-Ni shape memory alloy micro-pillars was studied...
Microscale dynamic testing is vital to the understanding of material behavior at application relevan...
Deformation behavior of an industrial coated cemented carbide (WC-Co substrate coated with CVD multi...
Uniaxial compression experiments were conducted on two magnesium (Mg) single crystals whose crystall...
The effect of the specimen size on the mechanical characteristics of material, a phenomenon commonly...
The maximum actuation frequency of magnetic shape-memory alloys (MSMAs) significantly increases with...
The micropillar compression technique has shown the potential for activating the brittle-to-ductile ...
The strength of metals increases with decreasing sample size, a trend known as the size effect. In p...
The maximum actuation frequency of magnetic shape-memory alloys (MSMAs) significantly increases with...
In thiswork,WC–Co micropillars machined by focused ion beamhave been tested under uniaxial compressi...
In this work, WC–Co micropillars machined by focused ion beam have been tested under uniaxial compre...
The current interest on the development of components on the micrometer size regime demands the eval...
© 2017 Elsevier LtdThe study of mechanical response of materials at small length scales has gained i...
The influence of the chemical nature of the metallic binder on the plastic deformation of cemented c...
International audienceMicroscale dynamic testing is vital to the understanding of material behavior ...
The superelastic behavior of single crystal Cu-Al-Mn-Ni shape memory alloy micro-pillars was studied...
Microscale dynamic testing is vital to the understanding of material behavior at application relevan...
Deformation behavior of an industrial coated cemented carbide (WC-Co substrate coated with CVD multi...
Uniaxial compression experiments were conducted on two magnesium (Mg) single crystals whose crystall...
The effect of the specimen size on the mechanical characteristics of material, a phenomenon commonly...
The maximum actuation frequency of magnetic shape-memory alloys (MSMAs) significantly increases with...
The micropillar compression technique has shown the potential for activating the brittle-to-ductile ...
The strength of metals increases with decreasing sample size, a trend known as the size effect. In p...
The maximum actuation frequency of magnetic shape-memory alloys (MSMAs) significantly increases with...