2019
DOI: 10.1016/j.ijnonlinmec.2019.01.008
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Power-Laws hereditariness of biomimetic ceramics for cranioplasty neurosurgery

Abstract: In this paper the authors deals with the heredity behavior of hydroxyapatite-based composite used for cranioplastic surgery. It is shown that biomimetic prostheses, for their microstructural morphology, have a mechanical behavior that can be well described by an isotropic fractional-order hereditary model. The three-axial isotropic behavior is framed in the context of fractional-order calculus and same details about thermodynamical restrictions of memory functions used in the formulation of the three-axial iso… Show more

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Cited by 15 publications
(11 citation statements)
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“…Other interesting contributions on thermodynamics in fractional-order viscoelasticity may be found in some recent papers [29]. A multiaxial model of fractional-order hereditariness for isotropic materials has been recently provided [30] upon introducing thermodynamic restrictions on the orders of the power laws involved in the mathematical models of transverse and axial creep as well as relaxation functions.…”
Section: Materials Hereditariness: Viscoelasticitymentioning
confidence: 99%
“…Other interesting contributions on thermodynamics in fractional-order viscoelasticity may be found in some recent papers [29]. A multiaxial model of fractional-order hereditariness for isotropic materials has been recently provided [30] upon introducing thermodynamic restrictions on the orders of the power laws involved in the mathematical models of transverse and axial creep as well as relaxation functions.…”
Section: Materials Hereditariness: Viscoelasticitymentioning
confidence: 99%
“…10,11 In other studies, a power-law variation of the geometric and physical properties of the porous medium was considered, leading to a fractional-order relationship between incoming flow and pressure applied to the control section. 12 The common base of aforementioned approaches is represented by the linear elastic behavior of the fibrous tissue representing the meniscus. However, it is well-known as reported in relevant scientific literature that the stress in collagen tissue representing meniscus depends on past history of strain and not only on the actual value of the strain.…”
Section: Introductionmentioning
confidence: 99%
“…The great potential of fractional-order impedance models (FOIMs) for capturing natural properties of materials in a variety of disciplines has been long recognized and established experimentally [10][11][12][13]. Applications in medicine and biology are most prevalent as these dynamical systems feature core properties such as multi-scale dynamics, diffusion, viscoelasticity and relaxation [8,[14][15][16]. The same properties are often used to model dynamics in the areas of geology, manufacturing, food industry and chemical products.…”
Section: Introductionmentioning
confidence: 99%