Skip to content
RDL
Network
Ecosystem
Switch app
TR
About
FAQ
Sign in
Get started
Structural modeling reveals microstructure-strength relationship for human ascending thoracic aorta — James Thunes (2018) | RDL Network
Back
Cite
Save
Save for later
Share
Home
Publications
Structural modeling reveals microstructure-strength relationship for human ascending thoracic aorta
Shared by
David Vorp
University of Pittsburgh
Structural modeling reveals microstructure-strength relationship for human ascending thoracic aorta
Article
2018
en
Authors
+2 more
JT
James Thunes
JP
Julie A. Phillippi
TG
Thomas G. Gleason
Discussion
(0)
Sign in
to like and join the discussion.
No comments yet. Be the first to comment.
Related publications
Article
2010
Dissection Properties of Aneurysmal and Nonaneurysmal Human Ascending Thoracic Aorta: Preliminary Results
Salvatore Pasta
,
Julie A. Philippi
,
Thomas G. Gleason
,
David Vorp
Article
2003
Effect of aneurysm on the tensile strength and biomechanical behavior of the ascending thoracic aorta
David Vorp
,
Brian J. Schiro
,
Marek Ehrlich
,
Tatu Juvonen
,
Mehmet Ergın
,
Bartley P. Griffith
Article
2011
Effect of aneurysm on the mechanical dissection properties of the human ascending thoracic aorta
Salvatore Pasta
,
Julie A. Phillippi
,
Thomas G. Gleason
,
David Vorp
Article
2014
A mechanistic model on the role of “radially-running” collagen fibers on dissection properties of human ascending thoracic aorta
Siladitya Pal
,
Alkiviadis Tsamis
,
Salvatore Pasta
,
A. D’Amore
,
Thomas G. Gleason
,
David Vorp
,
Spandan Maiti
Article
2020
Computational modeling of the strength of the ascending thoracic aortic media tissue under physiologic biaxial loading conditions
Spandan Maiti
,
James Thunes
,
Ronald N. Fortunato
,
Thomas G. Gleason
,
David Vorp
Discussion(0)
No comments yet. Be the first to comment.