Microhardness of the YbAgxIn1 − xCu4 alloy system

Microhardness of the YbAgxIn1 − xCu4 alloy system. Očko, M., Sarrao, J., -., L., Stubičar, N., Aviani, I., Šimek, Ž., & Stubičar, M. Journal of Materials Science, 40(16):4181-4183, 8, 2005.

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We report Vickers microhardness measurements on flux grown single crystals of the YbAgxIn1 − xCu4 alloy system. Although sample dependent, the microhardness exhibits a clear concentration dependence: in general, it decreases with x. The lattice parameter as a function of x exhibits a similar behavior. For x < 0.5, where the lattice parameter is almost constant, the microhardness exhibits a weak enhancement. Similar concentration dependence of the lattice parameter, resistivity and microhardness allows us to conclude that the microhardness reflects the evolution of the YbAgxIn1 − xCu4 alloy system towards more metallic character with increasing x.

@article{
 title = {Microhardness of the YbAgxIn1 − xCu4 alloy system},
 type = {article},
 year = {2005},
 identifiers = {[object Object]},
 pages = {4181-4183},
 volume = {40},
 websites = {http://link.springer.com/10.1007/s10853-005-3821-7},
 month = {8},
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 abstract = {We report Vickers microhardness measurements on flux grown single crystals of the YbAgxIn1 − xCu4 alloy system. Although sample dependent, the microhardness exhibits a clear concentration dependence: in general, it decreases with x. The lattice parameter as a function of x exhibits a similar behavior. For x < 0.5, where the lattice parameter is almost constant, the microhardness exhibits a weak enhancement. Similar concentration dependence of the lattice parameter, resistivity and microhardness allows us to conclude that the microhardness reflects the evolution of the YbAgxIn1 − xCu4 alloy system towards more metallic character with increasing x.},
 bibtype = {article},
 author = {Očko, M and Sarrao, John - Louis and Stubičar, Nada and Aviani, I. and Šimek, Željko and Stubičar, Mirko},
 journal = {Journal of Materials Science},
 number = {16}
}

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