Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.

The vertical axis represents either or direction, and transverse axis represents the direction.

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Bibliographic Details
Main Author:	Nguyen Van Viet (22216476) (author)
Other Authors:	Wael Zaki (22216479) (author), Marwan El-Rich (10884948) (author)
Published:	2025
Subjects:	Biophysics Medicine Biotechnology Space Science Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified zero mean curvature yield strength higher white polylactic acid varies nonlinearly along reduced stress shielding optimal load transfer mechanical stress throughout maximum percentage difference material distribution allows critical yield surface accurately captured using cranial titanium implants enhancing implant longevity enhanced bone ingrowth wave velocity anisotropy trabecular part length cranial bone implants bone implants implant may implant body natural bone work lays weight ratio waves transmit tuneable properties tissue integration three dimensions suitable candidate study presents result indicates reaction analysis porous architecture numerical model numerical analysis novel design key factor interconnected porosity gradient index elastic stiffness efficient method different patterns considered ideal closely replicate 6 %.
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author	Nguyen Van Viet (22216476)
author2	Wael Zaki (22216479) Marwan El-Rich (10884948)
author2_role	author author
author_facet	Nguyen Van Viet (22216476) Wael Zaki (22216479) Marwan El-Rich (10884948)
author_role	author
dc.creator.none.fl_str_mv	Nguyen Van Viet (22216476) Wael Zaki (22216479) Marwan El-Rich (10884948)
dc.date.none.fl_str_mv	2025-09-09T17:37:41Z
dc.identifier.none.fl_str_mv	10.1371/journal.pone.0332104.g007
dc.relation.none.fl_str_mv	https://figshare.com/articles/figure/Spatial_anisotropy_a_-_d_and_on_directional_anisotropy_e_and_f_of_SNFG_titanium_cranial_bone_implants_with_primitive_diamond_IWP_and_gyroid_topologies_all_with_against_varying_orientations_/30088797
dc.rights.none.fl_str_mv	CC BY 4.0 info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv	Biophysics Medicine Biotechnology Space Science Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified zero mean curvature yield strength higher white polylactic acid varies nonlinearly along reduced stress shielding optimal load transfer mechanical stress throughout maximum percentage difference material distribution allows critical yield surface accurately captured using cranial titanium implants enhancing implant longevity enhanced bone ingrowth wave velocity anisotropy trabecular part length cranial bone implants bone implants implant may implant body natural bone work lays weight ratio waves transmit tuneable properties tissue integration three dimensions suitable candidate study presents result indicates reaction analysis porous architecture numerical model numerical analysis novel design key factor interconnected porosity gradient index elastic stiffness efficient method different patterns considered ideal closely replicate 6 %.
dc.title.none.fl_str_mv	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
dc.type.none.fl_str_mv	Image Figure info:eu-repo/semantics/publishedVersion image
description	<p>The vertical axis represents either <b>or</b> <b>direction, and transverse axis represents the</b> <b>direction.</b></p>
eu_rights_str_mv	openAccess
id	Manara_a75b4ee9c7d40f97c74d4a8a6abbdfd7
identifier_str_mv	10.1371/journal.pone.0332104.g007
network_acronym_str	Manara
network_name_str	ManaraRepo
oai_identifier_str	oai:figshare.com:article/30088797
publishDate	2025
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rights_invalid_str_mv	CC BY 4.0
spelling	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.Nguyen Van Viet (22216476)Wael Zaki (22216479)Marwan El-Rich (10884948)BiophysicsMedicineBiotechnologySpace ScienceBiological Sciences not elsewhere classifiedPhysical Sciences not elsewhere classifiedzero mean curvatureyield strength higherwhite polylactic acidvaries nonlinearly alongreduced stress shieldingoptimal load transfermechanical stress throughoutmaximum percentage differencematerial distribution allowscritical yield surfaceaccurately captured usingcranial titanium implantsenhancing implant longevityenhanced bone ingrowthwave velocity anisotropytrabecular part lengthcranial bone implantsbone implantsimplant mayimplant bodynatural bonework laysweight ratiowaves transmittuneable propertiestissue integrationthree dimensionssuitable candidatestudy presentsresult indicatesreaction analysisporous architecturenumerical modelnumerical analysisnovel designkey factorinterconnected porositygradient indexelastic stiffnessefficient methoddifferent patternsconsidered idealclosely replicate6 %.<p>The vertical axis represents either <b>or</b> <b>direction, and transverse axis represents the</b> <b>direction.</b></p>2025-09-09T17:37:41ZImageFigureinfo:eu-repo/semantics/publishedVersionimage10.1371/journal.pone.0332104.g007https://figshare.com/articles/figure/Spatial_anisotropy_a_-_d_and_on_directional_anisotropy_e_and_f_of_SNFG_titanium_cranial_bone_implants_with_primitive_diamond_IWP_and_gyroid_topologies_all_with_against_varying_orientations_/30088797CC BY 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/300887972025-09-09T17:37:41Z
spellingShingle	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations. Nguyen Van Viet (22216476) Biophysics Medicine Biotechnology Space Science Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified zero mean curvature yield strength higher white polylactic acid varies nonlinearly along reduced stress shielding optimal load transfer mechanical stress throughout maximum percentage difference material distribution allows critical yield surface accurately captured using cranial titanium implants enhancing implant longevity enhanced bone ingrowth wave velocity anisotropy trabecular part length cranial bone implants bone implants implant may implant body natural bone work lays weight ratio waves transmit tuneable properties tissue integration three dimensions suitable candidate study presents result indicates reaction analysis porous architecture numerical model numerical analysis novel design key factor interconnected porosity gradient index elastic stiffness efficient method different patterns considered ideal closely replicate 6 %.
status_str	publishedVersion
title	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
title_full	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
title_fullStr	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
title_full_unstemmed	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
title_short	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
title_sort	Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.
topic	Biophysics Medicine Biotechnology Space Science Biological Sciences not elsewhere classified Physical Sciences not elsewhere classified zero mean curvature yield strength higher white polylactic acid varies nonlinearly along reduced stress shielding optimal load transfer mechanical stress throughout maximum percentage difference material distribution allows critical yield surface accurately captured using cranial titanium implants enhancing implant longevity enhanced bone ingrowth wave velocity anisotropy trabecular part length cranial bone implants bone implants implant may implant body natural bone work lays weight ratio waves transmit tuneable properties tissue integration three dimensions suitable candidate study presents result indicates reaction analysis porous architecture numerical model numerical analysis novel design key factor interconnected porosity gradient index elastic stiffness efficient method different patterns considered ideal closely replicate 6 %.

Spatial anisotropy (a)-(d) and, on directional anisotropy (e) and (f) of SNFG titanium cranial bone implants with primitive, diamond, IWP, and gyroid topologies, all with , against varying orientations.

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