Journal ArticleDOI
Brillouin scattering investigation of elastic properties of Cu–Mo solid solution thin films
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In this paper, the elastic properties of CuxMo1−x thin films with thicknesses varying from 200 up to 430 nm, elaborated by ion beam sputtering, have been investigated and two independent effective elastic constants of these films have been determined, allowing the calculation of their elastic moduli.Abstract:
Brillouin scattering has been used to investigate the elastic properties of CuxMo1−x thin films with thicknesses varying from 200 up to 430 nm, elaborated by ion beam sputtering. Two compositions around Cu30Mo70 and Cu70Mo30 and pure Cu and Mo films have been studied. The samples are essentially randomly oriented polycrystals, leading to an isotropic effective symmetry. By fitting all the Brillouin spectral lines, two independent effective elastic constants of these films have been determined, allowing the calculation of their elastic moduli. Results indicate that pure copper thin films’ elastic properties are similar to the bulk copper ones whereas pure molybdenum thin films' Young's modulus is weaker (about 10%) than the bulk Mo one. Concerning Cu–Mo solid solutions, elastic constants values lie between pure copper and molybdenum ones. Finally, the effect of annealing at 760 K on the mechanical properties of the solid solutions in relation with the microstructural evolution is discussed. The annealed so...read more
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Alloys created between immiscible elements
TL;DR: In this article, a survey of the alloys created in binary systems with positive heat of mixing is presented, with an emphasis on the atomic-level structure and calorimetric determination of the positive enthalpy of mixing of several model binary alloys, covering both amorphous and crystalline solid solutions.
Journal ArticleDOI
Elastic and plastic properties of as-cast equimolar TiHfZrTaNb high-entropy alloy
Guy Dirras,Lola Lilensten,Ph. Djemia,Mathilde Laurent-Brocq,David Tingaud,Jean-Philippe Couzinié,Loïc Perrière,Thierry Chauveau,Ivan Guillot +8 more
TL;DR: In this article, the elastic properties of as-cast TiHfZrTaNb high entropy alloy were investigated by ultrasound measurements, yielding G=C44=28 GPa and C11=172 GPa effective isotropic elastic constants, allowing computation of the Young's modulus E, the bulk modulus B and Poisson ratio ν of about 78.5 GPa, 134.6GPa and 0.402.
Journal ArticleDOI
Extrinsic mechanical size effects in thin ZrNi metallic glass films
Matteo Ghidelli,Matteo Ghidelli,Sébastien Gravier,Jean-Jacques Blandin,Ph. Djemia,Frédéric Mompiou,Gregory Abadias,Jean-Pierre Raskin,Thomas Pardoen +8 more
TL;DR: In this article, the authors investigated the mechanical size effects in ZrxNi100-x thin metallic glass films for thicknesses from 200 to 900 nm and showed that increasing the Ni content from 25% to 58% leads to an increase of elastic modulus, Poisson ratio, strength, activation volume, and fracture toughness.
Journal ArticleDOI
Structure, phase stability and elastic properties in the Ti1–xZrxN thin-film system: Experimental and computational studies
TL;DR: In this paper, the composition dependence of the structure and elastic properties of ternary Ti 1 − x Zr x N alloys is systematically investigated by combining thin film growth and ab initio calculations.
Journal ArticleDOI
Measurement of the elastic constants of textured anisotropic thin films from x-ray diffraction data
TL;DR: In this paper, the elastic constants (compliances sij) of a textured anisotropic thin film deposited on a substrate have been determined using x-ray diffraction to measure the intragranular strain and a tensile machine to deform in situ the samples.
References
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Book
Acoustic Fields and Waves in Solids
TL;DR: In this article, the authors apply the material developed in the Volume One to various boundary value problems (reflection and refraction at plane surfaces, composite media, waveguides and resonators).
Journal ArticleDOI
Surface generation and detection of phonons by picosecond light pulses.
TL;DR: A theory of the generation process is presented, and how the spatial shape of the stress pulse is related to the optical, electronic, and acoustical properties of the material is described.
Journal ArticleDOI
Elastic modulus in composition‐modulated silver‐palladium and copper‐gold foils
G. E. Henein,J. E. Hilliard +1 more
TL;DR: In this article, the biaxial elastic modulus was measured by bulge testing in Ag•Pd and Cu•Au thin foils containing one-dimensional composition modulations with wavelengths ranging from 0.9 to 5.5 nm.
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