Experimental characterization and numerical modeling of the compressive mechanical behavior of hazelnut kernels

Articolo su rivista pubblicato in Journal of Food Engineering, volume 166, pp. 364–369.

Autori: Cristiana Delprete, Simone Giacosa, Emanuele Raviolo, Luca Rolle and Raffaella Sesana.

Abstract

The evaluation of mechanical properties of hazelnuts has been developed over the past years mainly to optimize industrial processes. The aim of this study is to reproduce the compressive behavior of hazelnut kernel obtained by experimental and numerical activities; the contribution of pellicle influence to the mechanical behavior is also analyzed. The experimental activity is aimed to measure the mechanical properties of hazelnut kernel and to obtain a model calibration based on experimental data analysed by statistical approach. The finite element models of hazelnut kernels are implemented and a set of numerical compression tests are simulated; the comparison of experimental and numerical responses is shown.

Parole chiave finite element model; hazelnut kernel; mechanical properties; food science

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@article{
	2318_1526763,
	url = {https://hdl.handle.net/2318/1526763},
	author = {Delprete, Cristiana and Giacosa, Simone and Raviolo, Emanuele and Rolle, Luca and Sesana, Raffaella},
	title = {Experimental characterization and numerical modeling of the compressive mechanical behavior of hazelnut kernels},
	year = {2015},
	journal = {Journal of Food Engineering},
	volume = {166},
	abstract = {The evaluation of mechanical properties of hazelnuts has been developed over the past years mainly to optimize industrial processes. The aim of this study is to reproduce the compressive behavior of hazelnut kernel obtained by experimental and numerical activities; the contribution of pellicle influence to the mechanical behavior is also analyzed. The experimental activity is aimed to measure the mechanical properties of hazelnut kernel and to obtain a model calibration based on experimental data analysed by statistical approach. The finite element models of hazelnut kernels are implemented and a set of numerical compression tests are simulated; the comparison of experimental and numerical responses is shown.},
	keywords = {finite element model; hazelnut kernel; mechanical properties; food science},
	doi = {10.1016/j.jfoodeng.2015.06.037},	
	pages = {364--369}
}

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doi:10.1016/j.jfoodeng.2015.06.037

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