Approaches for evaluating Young's and shear moduli in terms of a single SAW velocity via the SAM technique

Doghmane, M.; Hadjoub, F.; Doghmane, A.; Hadjoub, Z.

doi:10.1016/j.matlet.2006.05.080

Cited by 24 publications

(7 citation statements)

References 8 publications

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“…Following the various calculations derived from this equation [18], we will use the general form of the acoustic impedance Z as a function of the density ρ and the Young's modulus E of the transverse acoustic wave:…”

Section: Methodsmentioning

confidence: 99%

Acoustical Investigation of Adhesion in Liquid Metal–Ceramic Interfaces

Hadef¹,

Doghmane²,

Kamli³

2018

Metallofiz. Noveishie Tekhnol.

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In this paper, we briefly review and analyse results of an acoustical investigation of adhesion in metal-ceramic interfaces based on the determination of the slope parameter, which is defined by the linear correlation between the work of adhesion of various liquid metal-ceramic systems and the sound propagation velocity of plate acoustical wave in the corresponding metals. The dependence of values of the work of adhesion slope parameter for several ceramic materials on the acoustic impedances of the corresponding ceramics is examined. The obtained results permit the interpretation of the wave propagation nature in these interfaces according to the existence and the excess of the interfacial bonding.

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Section: Methodsmentioning

confidence: 99%

Acoustical Investigation of Adhesion in Liquid Metal–Ceramic Interfaces

Hadef¹,

Doghmane²,

Kamli³

2018

Metallofiz. Noveishie Tekhnol.

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“…Thus, simplified expressions from Doghmane et al's approach [19] based on the Viktorov formula [20] were used to determine Ê''^^' and G^''^ in terms of Rayleigh's wave velocity, VK where p is the material mass density equal to 5930 kg-m ^ for NÍ5oAl5O(a, %) (value determined by Rusovic and Warlimont for NÍ5o.8Al492(at. %) [21]) and equal to 6295 kg-m*^ for (NÍ4o,Pt|o)Al5O(at.…”

Section: Methodsmentioning

confidence: 99%

Evaluation of Elastic and Plastic Properties of Ni50Al50(at. %) and (Ni40,Pt10)Al50(at. %) Single Crystals Oriented by Means of Scanning Acoustic Microscopy and Depth Sensing Indentation

Cleymand

Villemiane

Arab‐Tehrany

et al. 2013

Journal of Applied Mechanics

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Scanning acoustic microscopy and depth sensing indentation are two techniques used for extracting Young's, shear, and indentation moduli as well as the hardness of materials. In this work, we have applied these techniques on NisoAlsofm. %> and (NÍ4o,Pt¡o)Also(at. %> single crystals oriented (1 0 0) and (1 1 1) to measure their Young's modulus by two different techniques of local measurement and also the hardness of these alloys. Quantitative measurements highlight that the addition of 10 at.% of platinum induces a 5% decrease of Young's modulus (from 195 to 184 GPa) homogeneously spread over the surface orientations investigated,an 8% decrease of the indentation modulus, and a 40% increase of hardness without orientation effect.

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“…In this paper, two approaches are adopted: the first one is the scanning acoustic microscope (SAM) approach [13,14] and the second one is one parameter (OP) approach [15].…”

Section: Calculation Proceduresmentioning

confidence: 99%

Quantification of Electron Work Function Effects on Acoustic Parameters of Metals

Gacem¹,

Hadef²,

Kamli³

et al. 2020

Metallofiz. Noveishie Tekhnol.

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In this study, efforts are made to establish the correlation between electron work function (EWF) and acoustical properties of metals such as Rayleigh velocity and acoustic impedance. As shown, the generalized Rayleigh velocity increases linearly with increasing EWF. This observed behaviour, which is due to the electronic structures, is also extended and computed for acoustic impedance; exponential dependences are deduced. These dependences are quantified by semi-empirical equations. The obtained results help to better estimate the interdependence between electronic properties of metals and their acoustic parameters.

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Approaches for evaluating Young's and shear moduli in terms of a single SAW velocity via the SAM technique

Cited by 24 publications

References 8 publications

Acoustical Investigation of Adhesion in Liquid Metal–Ceramic Interfaces

Acoustical Investigation of Adhesion in Liquid Metal–Ceramic Interfaces

Evaluation of Elastic and Plastic Properties of Ni50Al50(at. %) and (Ni40,Pt10)Al50(at. %) Single Crystals Oriented by Means of Scanning Acoustic Microscopy and Depth Sensing Indentation

Quantification of Electron Work Function Effects on Acoustic Parameters of Metals

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