A methodology based on the Birnbaum–Saunders distribution for reliability analysis applied to nano-materials

Víctor Leiva; Fabrizio Ruggeri; Helton Saulo; Juan F. Vivanco

doi:10.1016/j.ress.2016.08.024

A methodology based on the Birnbaum–Saunders distribution for reliability analysis applied to nano-materials

Víctor Leiva, Fabrizio Ruggeri, Helton Saulo, Juan F. Vivanco

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

The Birnbaum–Saunders distribution has been widely studied and applied to reliability studies. This paper proposes a novel use of this distribution to analyze the effect on hardness, a material mechanical property, when incorporating nano-particles inside a polymeric bone cement. A plain variety and two modified types of mesoporous silica nano-particles are considered. In biomaterials, one can study the effect of nano-particles on mechanical response reliability. Experimental data collected by the authors from a micro-indentation test about hardness of a commercially available polymeric bone cement are analyzed. Hardness is modeled with the Birnbaum–Saunders distribution and Bayesian inference is performed to derive a methodology, which allows us to evaluate the effect of using nano-particles at different loadings by the R software.

Original language	English
Pages (from-to)	192-201
Number of pages	10
Journal	Reliability Engineering and System Safety
Volume	157
DOIs	https://doi.org/10.1016/j.ress.2016.08.024
State	Published - 1 Jan 2017
Externally published	Yes

Keywords

Bayesian analysis
Hardness data
Markov chain Monte Carlo method
R software

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10.1016/j.ress.2016.08.024

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title = "A methodology based on the Birnbaum–Saunders distribution for reliability analysis applied to nano-materials",

abstract = "The Birnbaum–Saunders distribution has been widely studied and applied to reliability studies. This paper proposes a novel use of this distribution to analyze the effect on hardness, a material mechanical property, when incorporating nano-particles inside a polymeric bone cement. A plain variety and two modified types of mesoporous silica nano-particles are considered. In biomaterials, one can study the effect of nano-particles on mechanical response reliability. Experimental data collected by the authors from a micro-indentation test about hardness of a commercially available polymeric bone cement are analyzed. Hardness is modeled with the Birnbaum–Saunders distribution and Bayesian inference is performed to derive a methodology, which allows us to evaluate the effect of using nano-particles at different loadings by the R software.",

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AU - Leiva, Víctor

AU - Ruggeri, Fabrizio

AU - Saulo, Helton

AU - Vivanco, Juan F.

PY - 2017/1/1

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AB - The Birnbaum–Saunders distribution has been widely studied and applied to reliability studies. This paper proposes a novel use of this distribution to analyze the effect on hardness, a material mechanical property, when incorporating nano-particles inside a polymeric bone cement. A plain variety and two modified types of mesoporous silica nano-particles are considered. In biomaterials, one can study the effect of nano-particles on mechanical response reliability. Experimental data collected by the authors from a micro-indentation test about hardness of a commercially available polymeric bone cement are analyzed. Hardness is modeled with the Birnbaum–Saunders distribution and Bayesian inference is performed to derive a methodology, which allows us to evaluate the effect of using nano-particles at different loadings by the R software.

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KW - Hardness data

KW - Markov chain Monte Carlo method

KW - R software

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A methodology based on the Birnbaum–Saunders distribution for reliability analysis applied to nano-materials

Abstract

Keywords

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