Experimental–Numerical Investigation on the Biomimetic Recovery of Natural Tooth Structural Response after Porcelain Veneer Restoration

Genovese, Katia; Cosola, E.; Lamberti, Luciano; Bux, Massimo; Grassi, Felice Roberto; Pappalettere, Carmine; Carlaio, Roberto Gianfranco

doi:10.1111/j.1475-1305.2010.00796.x

Cited by 5 publications

(2 citation statements)

References 76 publications

(145 reference statements)

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“…actual material properties) must be input into the FE model to obtain the force-indentation curve matching the Fd curve determined experimentally. The suitability of the optimization-based hybrid process for mechanical characterization problems of highly nonlinear materials and heterogeneous biological structures is well-documented in literature [65][66][67]. The inverse problem (2.6) was solved with the powerful sequential quadratic programming (SQP) [68] interfaced with the SQP optimization routine of MATLAB, which processed the results of the FE analysis, compared the computed F-d curves with experimental data, computed the error function V and perturbed material parameters for the subsequent design cycles.…”

Section: ð2:6þmentioning

confidence: 99%

Nanoscale characterization of the biomechanical hardening of bovine zona pellucida

Boccaccio

Frassanito

Lamberti

et al. 2012

J. R. Soc. Interface.

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The zona pellucida (ZP) is an extracellular membrane surrounding mammalian oocytes. The so-called zona hardening plays a key role in fertilization process, as it blocks polyspermy, which may also be caused by an increase in the mechanical stiffness of the ZP membrane. However, structural reorganization mechanisms leading to ZP's biomechanical hardening are not fully understood yet. Furthermore, a correct estimate of the elastic properties of the ZP is still lacking. Therefore, the aim of the present study was to investigate the biomechanical behaviour of ZP membranes extracted from mature and fertilized bovine oocytes to better understand the mechanisms involved in the structural reorganization of the ZP that may lead to the biomechanical hardening of the ZP. For that purpose, a hybrid procedure is developed by combining atomic force microscopy nanoindentation measurements, nonlinear finite element analysis and nonlinear optimization. The proposed approach allows us to determine the biomechanical properties of the ZP more realistically than the classical analysis based on Hertz's contact theory, as it accounts for the nonlinearity of finite indentation process, hyperelastic behaviour and material heterogeneity. Experimental results show the presence of significant biomechanical hardening induced by the fertilization process. By comparing various hyperelastic constitutive models, it is found that the Arruda -Boyce eight-chain model best describes the biomechanical response of the ZP. Fertilization leads to an increase in the degree of heterogeneity of membrane elastic properties. The Young modulus changes sharply within a superficial layer whose thickness is related to the characteristic distance between cross-links in the ZP filamentous network. These findings support the hypothesis that biomechanical hardening of bovine ZP is caused by an increase in the number of inter-filaments cross-links whose density should be higher in the ZP inner side.

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Section: ð2:6þmentioning

confidence: 99%

Nanoscale characterization of the biomechanical hardening of bovine zona pellucida

Boccaccio

Frassanito

Lamberti

et al. 2012

J. R. Soc. Interface.

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“…A rapid survey of the optimization literature produced over the last 15 years reveals that GA [44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62], DE [63,64,65,66,67,68,69,70,71,72,73,74,75], SA [76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97], HS [98,99,100,101,102,103,104,105,106,107,108,109,110,…”

Section: Introduction and Theoretical Backgroundmentioning

confidence: 99%

Mechanical Identification of Materials and Structures with Optical Methods and Metaheuristic Optimization

2019

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This study presents a hybrid framework for mechanical identification of materials and structures. The inverse problem is solved by combining experimental measurements performed by optical methods and non-linear optimization using metaheuristic algorithms. In particular, we develop three advanced formulations of Simulated Annealing (SA), Harmony Search (HS) and Big Bang-Big Crunch (BBBC) including enhanced approximate line search and computationally cheap gradient evaluation strategies. The rationale behind the new algorithms—denoted as Hybrid Fast Simulated Annealing (HFSA), Hybrid Fast Harmony Search (HFHS) and Hybrid Fast Big Bang-Big Crunch (HFBBBC)—is to generate high quality trial designs lying on a properly selected set of descent directions. Besides hybridizing SA/HS/BBBC metaheuristic search engines with gradient information and approximate line search, HS and BBBC are also hybridized with an enhanced 1-D probabilistic search derived from SA. The results obtained in three inverse problems regarding composite and transversely isotropic hyperelastic materials/structures with up to 17 unknown properties clearly demonstrate the validity of the proposed approach, which allows to significantly reduce the number of structural analyses with respect to previous SA/HS/BBBC formulations and improves robustness of metaheuristic search engines.

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Laser speckle based digital optical methods in structural mechanics: A review

Torre

Montes

Flores-Moreno

et al. 2016

Optics and Lasers in Engineering

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Experimental–Numerical Investigation on the Biomimetic Recovery of Natural Tooth Structural Response after Porcelain Veneer Restoration

Cited by 5 publications

References 76 publications

Nanoscale characterization of the biomechanical hardening of bovine zona pellucida

Nanoscale characterization of the biomechanical hardening of bovine zona pellucida

Mechanical Identification of Materials and Structures with Optical Methods and Metaheuristic Optimization

Laser speckle based digital optical methods in structural mechanics: A review

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