Numerical simulation of the inelastic behavior of a structurally graded material

Orlov, Alexey; Sufiiarov, Vadim; Борисов, Е. В.; Polozov, Igor; Masaylo, Dmitriy; Popovich, Anatoliy; Chukovenkova, Mariya; Soklakov, Alexander; Mikhaluk, D.S.

doi:10.22226/2410-3535-2019-1-97-102

Cited by 10 publications

(2 citation statements)

References 13 publications

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“…The material used to manufacture the endoprosthesis struts is titanium alloy Ti‐6Al‐4V. The mechanical properties of Ti‐6Al‐4V were determined as a result of a tensile test carried out by the authors on the round test specimens manufactured by selective laser melting and subsequent heat treatment 27–29,34,35 . The mechanical properties of Ti‐6Al‐4V are shown in Tables 3 and 4.…”

Section: Methodsmentioning

confidence: 99%

Structural analysis of an endoprosthesis designed with graded density lattice structures

Sufiiarov

Borisov

Sokolova

et al. 2020

Numer Methods Biomed Eng

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The most common causes of conducting a hip revision surgery after total hip replacement are aseptic loosening (aseptic instability) of the endoprosthesis, bone destruction as a result of contact with the endoprosthesis, and a periprosthetic fracture. These are the effects of load transfer to the bone tissue in arthroplasty resulting due to the difference in stiffness of the endoprosthesis and the bone. Titanium alloy is widely used in endoprostheses manufacturing because of its high biocompatibility, good wear properties, and corrosion resistance, but such endoprostheses are stiffer than the femur. These problems have raised interest in searching for the best materials and topology for a femoral implant. Nowadays additive technology is of great interest as it enables to create materials with graded density. These materials consist of multiple lattice structures with variable parameters and topology. By varying the parameters of lattice structures one can adjust the mechanical properties of the material as required. These materials find their application in hip endoprostheses manufacturing, allowing to adjust the parameters of the lattice structures, and deliver a product with femur‐like mechanical properties. The porous structure also ensures bone tissue ingrowth into the prosthesis. The authors designed and simulated an endoprosthesis made of graded density lattice structures with femur‐like mechanical properties. Using a numerical simulation software Ansys Mechanical authors determined the effect of the topology on the structural behavior of the femur and defined the endoprosthesis‐femur combined performance under various load cases.

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Section: Methodsmentioning

confidence: 99%

Structural analysis of an endoprosthesis designed with graded density lattice structures

Sufiiarov

Borisov

Sokolova

et al. 2020

Numer Methods Biomed Eng

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“…Подобный подход к расчетам является затратным по вычислительным ресурсам. В работе [12] рассмотрено моделирование механических характеристик ФГМ на основании экспериментальных данных с использованием билинейной модели пластичности путем введения параметра, характеризующего неоднородность свойств материала. Этот способ позволяет приблизить результаты численного моделирования к результатам эксперимента.…”

Section: Introductionunclassified

Конечно-Элементное Моделирование Одноосного Растяжения Образцов Из Функционально-Градиентного Материала С Использованием Мультилинейной Модели Пластичности

Суфияров¹,

Орлов²,

Борисов³

et al. 2021

Журнал Технической Физики

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In this paper, the authors suggested a finite element approach to the simulation of mechanical properties of functionally graded materials (FGM) using a multilinear plastic material model. The approach was used to simulate tensile test experiments on the homogeneous specimens manufactured at two laser power regimes and composite specimens based on the materials considered. We showed a correlation between the simulation results and the experiment. We studied the mechanical effect of geometry and size of inserts in the composite specimens and determined that changing the size and geometry of the inserts can modify the mechanical characteristics of the specimen. We found that the multilinear plastic material model provides the highest level of agreement between simulation and experimental results and, unlike the bilinear model, is more comprehensive.

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Micromechanical simulations of additively manufactured aluminum alloys

Романова

Балохонов

Zinovieva

et al. 2021

Computers & Structures

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Numerical simulation of the inelastic behavior of a structurally graded material

Cited by 10 publications

References 13 publications

Structural analysis of an endoprosthesis designed with graded density lattice structures

Structural analysis of an endoprosthesis designed with graded density lattice structures

Конечно-Элементное Моделирование Одноосного Растяжения Образцов Из Функционально-Градиентного Материала С Использованием Мультилинейной Модели Пластичности

Micromechanical simulations of additively manufactured aluminum alloys

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