Finite Element Analysis of the Material’s Area Affected during a Micro Thermal Analysis Applied to Homogeneous Materials - Journal of Surface Engineered Materials and Advanced Technology

JSEMAT > Vol.1 No.1, April 2011

Journal of Surface Engineered Materials and Advanced Technology

Volume 1, Issue 1 (April 2011)

ISSN Print: 2161-4881 ISSN Online: 2161-489X

Google-based Impact Factor: 0.29 Citations

Finite Element Analysis of the Material’s Area Affected during a Micro Thermal Analysis Applied to Homogeneous Materials ()

HTML

Download as PDF (Size: 675KB) PP. 1-8

DOI: 10.4236/jsemat.2011.11001 5,866 Downloads 11,587 Views Citations

Author(s)

Yoann Joliff, Lénaïk Belec, Jean-François Chailan

Affiliation(s)

ABSTRACT

Micro-thermal analysis (µ-TA), with a miniaturized thermo-resistive probe, allows topographic and thermal imaging of surfaces to be carried out and permits localized thermal analysis of materials. In order to estimate the effective volume of material thermally affected during this localized measurement, simulations, using finite element method were used. Several parameters and conditions were considered. So, thermal conductivity was found to be the driving physical parameter in thermal exchanges. Indeed, the evolution of the heat affected zone (HAZ) versus thermal conductivity can well be described by a linear interpolation. Therefore it is possible to estimate the HAZ before experimental measurements. This result is an important progress especially for accurate interphase characterization in heterogeneous materials.

KEYWORDS

Micro-Thermal Analysis, Localized Thermal Analysis, Heat Affected Zone, Thermal Conductivity, Finite Element Method

Share and Cite:

Joliff, Y. , Belec, L. and Chailan, J. (2011) Finite Element Analysis of the Material’s Area Affected during a Micro Thermal Analysis Applied to Homogeneous Materials. Journal of Surface Engineered Materials and Advanced Technology, 1, 1-8. doi: 10.4236/jsemat.2011.11001.

Cited by

[1]	Off-Gas System Scale-Up of HIsarna Iron-Making Process: A CFD-Based Approach
	… Materials Transactions B, 2022

[2]	The effect of the contact point asymmetry on the accuracy of thin films thermal conductivity measurement by scanning thermal microscopy using Wollaston probes
	Journal of Applied …, 2022

[3]	Sensitivity and spatial resolution for thermal conductivity measurements using noncontact scanning thermal microscopy with thermoresistive probes under ambient …
	Tasciuc - Oxford Open Materials …, 2021

[4]	Quantitative temperature sensing and thin film thermal conductivity measurement by non-contact scanning thermal microscopy
	2020

[5]	A Review on Principles and Applications of Scanning Thermal Microscopy (SThM)
	2019

[6]	Contribution à l'étude de l'influence des interphases sur les propriétés mécaniques à l'échelle macroscopique d'un composite unidirectionnel: approche numérique
	2018

[7]	Influence des interphases sur la cinétique de diffusion de l'eau dans un composite UD époxy/fibres de verre
	2017

[8]	Quantitative Thermal Microscopy Measurement with Thermal Probe Driven by dc+ ac Current
	International Journal of Thermophysics, 2016

[9]	APPORT DE LA MODELISATION NUMERIQUE DANS LA COMPREHENSION ET L’AMELIORATION DE LA DURABILITE DES MATERIAUX HETEROGENES - NOTIONS D’INTERFACE ET D’INTERPHAS
	2016

[10]	IMPACT OF THE NUMERICAL MODEL ASSUMPTIONS ON THE WATER DIFFUSION KINETICS OF A UD COMPOSITES
	2015

[11]	APPORT DE LA MODELISATION NUMERIQUE DANS LA COMPREHENSION ET L’AMELIORATION DE LA DURABILITE DES MATERIAUX HETEROGENES-NOTIONS D’INTERFACE ET D’INTERPHASE
	Doctoral dissertation, Université de Toulon, 2015

[12]	Study of the moisture/stress effects on glass fibre/epoxy composite and the impact of the interphase area
	Composite Structures, 2014

[13]	Modified water diffusion kinetics in an unidirectional glass/fibre composite due to the interphase area: Experimental, analytical and numerical approach
	Composite Structures, 2013

[14]	Experimental, analytical and numerical study of water diffusion in unidirectional composite materials–interphase impact
	Computational Materials Science, 2012

[15]	WATER DIFFUSION IN COMPOSITE MATERIALS–INTERFACIAL PHENOMENA: EXPERIMENTAL, ANALYTICAL AND NUMERICAL APPROACH
	Y Joliff, L Belec, MB Heman, JF Chailan - researchgate.net, 2012

[16]	Developments in imaging and analysis techniques for micro-and nanosize particles and surface features
	Developments in Surface Contamination and Cleaning: Detection, Characterization, and Analysis of Contaminants, 2012

[17]	A VERSATILE MATERIAL OF THE XXIST CENTURY: APATITIC COMPOUNDS WITH MULTIFUNCTIONAL PROPERTIES
	Grigore Bozga

Journals Menu

Follow SCIRP

	+1 323-425-8868
	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

	Paper Publishing WeChat

Journals Menu

Home

About SCIRP

Service

Policies