Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production

Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production

Usage of pyrolytic carbon (PyC) to produce mechanical heart valves (MHVs) has led to heart valve replacement being a very successful procedure. Thus, the mechanical properties of employed materials for MHV production are fundamental to obtain the required characteristics of biocompatibility and wear...

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Main Authors: Gianpaolo Serino, Mattia Gusmini, Alberto Luigi Audenino, Giovanni Bergamasco, Ornella Ieropoli, Cristina Bignardi
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Processes
Subjects:
nanoindentation
mechanical characterization
low temperature pyrolytic carbon
heart dysfunction
deposition process
Online Access:https://www.mdpi.com/2227-9717/9/2/338
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spelling doaj-1a11a51c8cc244748ab6f6e86096f7462021-02-13T00:04:38ZengMDPI AGProcesses2227-97172021-02-01933833810.3390/pr9020338Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve ProductionGianpaolo Serino0Mattia Gusmini1Alberto Luigi Audenino2Giovanni Bergamasco3Ornella Ieropoli4Cristina Bignardi5Department of Mechanical and Aerospace Engineering (DIMEAS), Politecnico di Torino, 10129 Turin, ItalyDepartment of Mechanical and Aerospace Engineering (DIMEAS), Politecnico di Torino, 10129 Turin, ItalyDepartment of Mechanical and Aerospace Engineering (DIMEAS), Politecnico di Torino, 10129 Turin, ItalyLivaNova (Sorin Group Italia s.r.l.), 13040 Saluggia, ItalyLivaNova (Sorin Group Italia s.r.l.), 13040 Saluggia, ItalyDepartment of Mechanical and Aerospace Engineering (DIMEAS), Politecnico di Torino, 10129 Turin, ItalyUsage of pyrolytic carbon (PyC) to produce mechanical heart valves (MHVs) has led to heart valve replacement being a very successful procedure. Thus, the mechanical properties of employed materials for MHV production are fundamental to obtain the required characteristics of biocompatibility and wear resistance. In this study, two deposition methods of PyC were compared through a multiscale approach, performing three-point bending tests and nanoindentation tests. Adopted deposition processes produced materials that were slightly different. Significant differences were found at the characteristic scale lengths of the deposited layers. Setting changes of the deposition process permitted obtaining PyC characterized by a more uniform microstructure, conferring to the bulk material superior mechanical properties.https://www.mdpi.com/2227-9717/9/2/338nanoindentationmechanical characterizationlow temperature pyrolytic carbonheart dysfunctiondeposition process
collection DOAJ
language English
format Article
sources DOAJ
author Gianpaolo Serino
Mattia Gusmini
Alberto Luigi Audenino
Giovanni Bergamasco
Ornella Ieropoli
Cristina Bignardi
spellingShingle Gianpaolo Serino
Mattia Gusmini
Alberto Luigi Audenino
Giovanni Bergamasco
Ornella Ieropoli
Cristina Bignardi
Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
Processes
nanoindentation
mechanical characterization
low temperature pyrolytic carbon
heart dysfunction
deposition process
author_facet Gianpaolo Serino
Mattia Gusmini
Alberto Luigi Audenino
Giovanni Bergamasco
Ornella Ieropoli
Cristina Bignardi
author_sort Gianpaolo Serino
title Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
title_short Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
title_full Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
title_fullStr Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
title_full_unstemmed Multiscale Characterization of Isotropic Pyrolytic Carbon Used for Mechanical Heart Valve Production
title_sort multiscale characterization of isotropic pyrolytic carbon used for mechanical heart valve production
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2021-02-01
description Usage of pyrolytic carbon (PyC) to produce mechanical heart valves (MHVs) has led to heart valve replacement being a very successful procedure. Thus, the mechanical properties of employed materials for MHV production are fundamental to obtain the required characteristics of biocompatibility and wear resistance. In this study, two deposition methods of PyC were compared through a multiscale approach, performing three-point bending tests and nanoindentation tests. Adopted deposition processes produced materials that were slightly different. Significant differences were found at the characteristic scale lengths of the deposited layers. Setting changes of the deposition process permitted obtaining PyC characterized by a more uniform microstructure, conferring to the bulk material superior mechanical properties.
topic nanoindentation
mechanical characterization
low temperature pyrolytic carbon
heart dysfunction
deposition process
url https://www.mdpi.com/2227-9717/9/2/338
work_keys_str_mv AT gianpaoloserino multiscalecharacterizationofisotropicpyrolyticcarbonusedformechanicalheartvalveproduction
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