Computational approach to evaluating the strength of eggs: Implications for laying in organic egg production

Albert G. Sellés; J. Marcè-Nogué; Bernat Vila; Marco A. Pérez; Lluís Gil; Àngel Galobart; J. Fortuny

doi:10.1016/j.biosystemseng.2019.06.017

Computational approach to evaluating the strength of eggs: Implications for laying in organic egg production

Albert G. Sellés^*, J. Marcè-Nogué, Bernat Vila, Marco A. Pérez, Lluís Gil, Àngel Galobart, J. Fortuny

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

6 Citations (Scopus)

Abstract

With the aim of characterising the different stress patterns in several egg types and evaluating the resistivity of the eggshell while impacting in free fall, experimental tests and computational simulations have been performed on eggs of the species Gallus gallus (domestic hen), Struthio camelus (ostrich), and Testudo sp. (tortoise). The different types of failure were determined for each taxa and stress distribution maps were recorded and correlated between experimental results and simulations using finite element analysis (FEA). For domestic hens, the numerical results obtained in both tests have highly correlation with the results obtained in previous works; for ostrich (S. camelus) and tortoise (Testudo sp.) eggshells, this new data represented a useful tool to understand in further works the failure mechanisms of the eggshells. More interestingly, the present study provides the first empirical and mathematic results that allow confident safety intervals to be established that relate to the laying process in the poultry industry.

Original language	English
Pages (from-to)	146-155
Number of pages	10
Journal	Biosystems Engineering
Volume	186
DOIs	https://doi.org/10.1016/j.biosystemseng.2019.06.017
Publication status	Published - Oct 2019

Keywords

Eggshell
Failure mechanism
Reproduction
Strength

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10.1016/j.biosystemseng.2019.06.017

Cite this

@article{02bb6243d3b442a19150e82b311ac733,

title = "Computational approach to evaluating the strength of eggs: Implications for laying in organic egg production",

abstract = "With the aim of characterising the different stress patterns in several egg types and evaluating the resistivity of the eggshell while impacting in free fall, experimental tests and computational simulations have been performed on eggs of the species Gallus gallus (domestic hen), Struthio camelus (ostrich), and Testudo sp. (tortoise). The different types of failure were determined for each taxa and stress distribution maps were recorded and correlated between experimental results and simulations using finite element analysis (FEA). For domestic hens, the numerical results obtained in both tests have highly correlation with the results obtained in previous works; for ostrich (S. camelus) and tortoise (Testudo sp.) eggshells, this new data represented a useful tool to understand in further works the failure mechanisms of the eggshells. More interestingly, the present study provides the first empirical and mathematic results that allow confident safety intervals to be established that relate to the laying process in the poultry industry.",

keywords = "Eggshell, Failure mechanism, Reproduction, Strength",

author = "Sell{\'e}s, {Albert G.} and J. Marc{\`e}-Nogu{\'e} and Bernat Vila and P{\'e}rez, {Marco A.} and Llu{\'i}s Gil and {\`A}ngel Galobart and J. Fortuny",

note = "Funding Information: This research paper is a contribution to the CERCA program ( Generalitat de Catalunya ) and was supported by the research projects CGL 2011-30069-C02-01 and CGL2017-82654-P of the Ministerio de Ciencia e Innovaci{\'o}n and Ministerio de Econom{\'i}a , Industria y Competitividad , respectively, and the European Regional Development Fund of the European Union . We are grateful to Alejandro Molina, Daniel Bracamonte, Miguel Briz, and Sara Montalat for their valuable help in the experimental tests. Our special thanks to Albert Mart{\'i}nez Silvestre and Joaquim Soler Massana from the “Centre de Recuperaci{\'o} d{\textquoteright}Amfibis i R{\`e}ptils de Catalunya (CRARC)” for the tortoise eggs and useful comments. J.F. is member of the consolidated research group 2017 SGR 86 GRC of the Generalitat de Catalunya. Funding Information: This research paper is a contribution to the CERCA program (Generalitat de Catalunya) and was supported by the research projects CGL 2011-30069-C02-01 and CGL2017-82654-P of the Ministerio de Ciencia e Innovaci?n and Ministerio de Econom?a, Industria y Competitividad, respectively, and the European Regional Development Fund of the European Union. We are grateful to Alejandro Molina, Daniel Bracamonte, Miguel Briz, and Sara Montalat for their valuable help in the experimental tests. Our special thanks to Albert Mart?nez Silvestre and Joaquim Soler Massana from the ?Centre de Recuperaci? d'Amfibis i R?ptils de Catalunya (CRARC)? for the tortoise eggs and useful comments. J.F. is member of the consolidated research group 2017 SGR 86 GRC of the Generalitat de Catalunya. Publisher Copyright: {\textcopyright} 2019 IAgrE",

year = "2019",

month = oct,

doi = "10.1016/j.biosystemseng.2019.06.017",

language = "English",

volume = "186",

pages = "146--155",

journal = "Biosystems Engineering",

issn = "1537-5110",

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T1 - Computational approach to evaluating the strength of eggs

T2 - Implications for laying in organic egg production

AU - Sellés, Albert G.

AU - Marcè-Nogué, J.

AU - Vila, Bernat

AU - Pérez, Marco A.

AU - Gil, Lluís

AU - Galobart, Àngel

AU - Fortuny, J.

N1 - Funding Information: This research paper is a contribution to the CERCA program ( Generalitat de Catalunya ) and was supported by the research projects CGL 2011-30069-C02-01 and CGL2017-82654-P of the Ministerio de Ciencia e Innovación and Ministerio de Economía , Industria y Competitividad , respectively, and the European Regional Development Fund of the European Union . We are grateful to Alejandro Molina, Daniel Bracamonte, Miguel Briz, and Sara Montalat for their valuable help in the experimental tests. Our special thanks to Albert Martínez Silvestre and Joaquim Soler Massana from the “Centre de Recuperació d’Amfibis i Rèptils de Catalunya (CRARC)” for the tortoise eggs and useful comments. J.F. is member of the consolidated research group 2017 SGR 86 GRC of the Generalitat de Catalunya. Funding Information: This research paper is a contribution to the CERCA program (Generalitat de Catalunya) and was supported by the research projects CGL 2011-30069-C02-01 and CGL2017-82654-P of the Ministerio de Ciencia e Innovaci?n and Ministerio de Econom?a, Industria y Competitividad, respectively, and the European Regional Development Fund of the European Union. We are grateful to Alejandro Molina, Daniel Bracamonte, Miguel Briz, and Sara Montalat for their valuable help in the experimental tests. Our special thanks to Albert Mart?nez Silvestre and Joaquim Soler Massana from the ?Centre de Recuperaci? d'Amfibis i R?ptils de Catalunya (CRARC)? for the tortoise eggs and useful comments. J.F. is member of the consolidated research group 2017 SGR 86 GRC of the Generalitat de Catalunya. Publisher Copyright: © 2019 IAgrE

PY - 2019/10

Y1 - 2019/10

N2 - With the aim of characterising the different stress patterns in several egg types and evaluating the resistivity of the eggshell while impacting in free fall, experimental tests and computational simulations have been performed on eggs of the species Gallus gallus (domestic hen), Struthio camelus (ostrich), and Testudo sp. (tortoise). The different types of failure were determined for each taxa and stress distribution maps were recorded and correlated between experimental results and simulations using finite element analysis (FEA). For domestic hens, the numerical results obtained in both tests have highly correlation with the results obtained in previous works; for ostrich (S. camelus) and tortoise (Testudo sp.) eggshells, this new data represented a useful tool to understand in further works the failure mechanisms of the eggshells. More interestingly, the present study provides the first empirical and mathematic results that allow confident safety intervals to be established that relate to the laying process in the poultry industry.

AB - With the aim of characterising the different stress patterns in several egg types and evaluating the resistivity of the eggshell while impacting in free fall, experimental tests and computational simulations have been performed on eggs of the species Gallus gallus (domestic hen), Struthio camelus (ostrich), and Testudo sp. (tortoise). The different types of failure were determined for each taxa and stress distribution maps were recorded and correlated between experimental results and simulations using finite element analysis (FEA). For domestic hens, the numerical results obtained in both tests have highly correlation with the results obtained in previous works; for ostrich (S. camelus) and tortoise (Testudo sp.) eggshells, this new data represented a useful tool to understand in further works the failure mechanisms of the eggshells. More interestingly, the present study provides the first empirical and mathematic results that allow confident safety intervals to be established that relate to the laying process in the poultry industry.

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KW - Failure mechanism

KW - Reproduction

KW - Strength

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JO - Biosystems Engineering

JF - Biosystems Engineering

ER -

Computational approach to evaluating the strength of eggs: Implications for laying in organic egg production

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Keywords

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