Você está em: Start > Publications > View > Mixed-mode I plus II fracture characterization of human cortical bone using the Single Leg Bending test
Map of Premises
Publications
Mixed-mode I plus II fracture characterization of human cortical bone using the Single Leg Bending test
Title
Mixed-mode I plus II fracture characterization of human cortical bone using the Single Leg Bending test
Type
Article in International Scientific Journal
Year
2016
Authors
Silva, FGA
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
de Moura, MFSF
(Author)
FEUP
View Personal Page
You do not have permissions to view the institutional email.
Search for Participant Publications
View Authenticus page
View ORCID page
Dourado, N
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Xavier, J
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Pereira, FAM
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Morais, JJL
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Dias, MIR
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Journal
Title:
Journal of the Mechanical Behavior of Biomedical MaterialsImported from Authenticus
Search for Journal Publications
Vol. 54
Pages: 72-81
ISSN:
1751-6161
Publisher:
Elsevier
Indexing
Other information
Authenticus ID:
P-00G-Q1C
Abstract (EN):
Mixed-mode I+II fracture characterization of human cortical bone was analyzed in this work. A miniaturized version of the Single Leg Bending test (SLB) was used owing to its simplicity. A power law criterion was verified to accurately describe the material fracture envelop under mixed-mode I+II loading. The crack tip opening displacements measured by digital image correlation were used in a direct method to determine the cohesive law mimicking fracture behavior of cortical bone. Cohesive zone modeling was used for the sake of validation. Several fracture quantities were compared with the experimental results and the good agreement observed proves the appropriateness of the proposed procedure for fracture characterization of human bone under mixed-mode I+II loading.
Language:
English
Type (Professor's evaluation):
Scientific
No. of pages:
10
Documents
We could not find any documents associated to the publication.
Related Publications
Of the same journal
Tribocorrosion behavior of bio-functionalized highly porous titanium (2017)
Article in International Scientific Journal
Toptan, F; Alves, AC; Pinto, AMP; Ponthiaux, P
Article in International Scientific Journal
Toptan, F; Alves, AC; Pinto, AMP; Ponthiaux, P
The effect of thermal cycling on the shear bond strength of porcelain/Ti-6Al-4V interfaces (2015)
Article in International Scientific Journal
Sendao, IA; Alves, AC; Galo, R; Toptan, F; Silva, FS; Ariza, E
Article in International Scientific Journal
Sendao, IA; Alves, AC; Galo, R; Toptan, F; Silva, FS; Ariza, E
The double cantilever beam test applied to mode I fracture characterization of cortical bone tissue (2010)
Article in International Scientific Journal
Morais, JJL; de Moura, MFSF; Pereira, FAM; Xavier, J; Dourado, N; Dias, MIR; Azevedo, JMT
Article in International Scientific Journal
Morais, JJL; de Moura, MFSF; Pereira, FAM; Xavier, J; Dourado, N; Dias, MIR; Azevedo, JMT
Patient-specific surrogate model to predict pelvic floor dynamics during vaginal delivery (2024)
Article in International Scientific Journal
Moura, R; Oliveira, DA; Parente, MPL; Kimmich, N; Hyncík, L; Hympánová, LH; Renato Natal Jorge
Article in International Scientific Journal
Moura, R; Oliveira, DA; Parente, MPL; Kimmich, N; Hyncík, L; Hympánová, LH; Renato Natal Jorge
On the effect of labour durations using an anisotropic visco-hyperelastic-damage approach to simulate vaginal deliveries (2018)
Article in International Scientific Journal
M. C. P. Vila Pouca; J.P.S. Ferreira; D. A. Oliveira; Parente, MPL; Teresa Mascarenhas; Renato M. Natal Jorge
Article in International Scientific Journal
M. C. P. Vila Pouca; J.P.S. Ferreira; D. A. Oliveira; Parente, MPL; Teresa Mascarenhas; Renato M. Natal Jorge
Copyright 1996-2025 © Faculdade de Direito da Universidade do Porto
I Terms and Conditions
I Acessibility
I Index A-Z
Page created on: 2025-07-08 at 16:24:53 | Privacy Policy | Personal Data Protection Policy | Whistleblowing
Page created on: 2025-07-08 at 16:24:53 | Privacy Policy | Personal Data Protection Policy | Whistleblowing