By A. Mammoli, C. A. Brebbia, A. Klemm
Until eventually lately, engineering fabrics can be characterized effectively utilizing rather uncomplicated trying out tactics. notwithstanding, complex fabrics know-how has resulted in the advance of fabrics with complicated meso-, micro- and nano-structures which may now not be characterized with uncomplicated checking out approaches. fabrics modelling and characterisation became ever extra heavily intertwined. Characterisation, in essence, connects the summary fabric version with the real-world behaviour of the cloth in query. Characterisation of complicated fabrics frequently calls for a mix of experimental and computational thoughts. This e-book includes papers to be provided on the 5th foreign convention, convened to facilitate the sharing of modern paintings among researchers who use computational equipment, those that practice experiments and people who do either, in all components of fabrics characterisation. The papers conceal such issues as: Advances in Composites; Thermal research; Nano-Materials; harm Mechanics; Computational versions and Experiments; Mechanical Characterisation and checking out; Nano--Composites; strength fabrics; Chemo-Mechanical difficulties; cutting edge Experiments; Recycled fabrics; and Corrosion difficulties.
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Extra resources for Materials Characterisation V: Computational Methods and Experiments (Wit Transactions on Engineering Sciences)
This work presents an overview on the use of advanced HRTEM techniques for the quantitative analysis of nanocrystals and how these results can be used to implement nanocrystals models, which can analytically describe the material features on an atomic level. The presented findings show the combined use of experimental data and theoretical tools, such as image simulation and ab initio surface energy calculations, for the advanced quantitative characterization of nanocrystalline systems. The combination of experimental and theoretical efforts on HRTEM characterization represents a powerful tool for the nanocrystal 3D morphology elucidation with atomic resolution and the chemical/structural properties assessment in a quantitative way.
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Balmayore, M. , Some relevant aspects of the use of FT-IR associated techniques in the study of surfaces and coatings. Progress in Organic Coatings, 44, pp. 233-242, 2002.  Poliskie, M. , Fourier Transform Infrared (FT-IR) spectroscopy for coating characterization and failure analysis. Organic Finishing, pp. 44-47, 2008. , Analyses of the surfaces of concrete by Raman and FT-IR spectroscopies: comparative study of hardened samples after demoulding and after organic post-treatment. Surface and Interface Analysis, In press.