The use of digital image correlation in the biomechanical area: a review
This paper offers an overview of the potentialities and limitations of digital image correlation
(DIC) as a technique for measuring displacements and strain in biomechanical applications …
(DIC) as a technique for measuring displacements and strain in biomechanical applications …
Additively manufactured scaffolds for bone tissue engineering and the prediction of their mechanical behavior: A review
Additive manufacturing (AM), nowadays commonly known as 3D printing, is a revolutionary
materials processing technology, particularly suitable for the production of low-volume parts …
materials processing technology, particularly suitable for the production of low-volume parts …
Additively manufactured porous metallic biomaterials
AA Zadpoor - Journal of Materials Chemistry B, 2019 - pubs.rsc.org
Additively manufactured (AM,= 3D printed) porous metallic biomaterials with topologically
ordered unit cells have created a lot of excitement and are currently receiving a lot of …
ordered unit cells have created a lot of excitement and are currently receiving a lot of …
[HTML][HTML] Review on computational modeling for the property, process, product and performance (PPPP) characteristics of additively manufactured porous magnesium …
Recently, magnesium (Mg) and its alloys are gaining the attention of researchers as these
materials can provide mechanical properties comparable to natural bone. Additive …
materials can provide mechanical properties comparable to natural bone. Additive …
Meta-biomaterials
AA Zadpoor - Biomaterials science, 2020 - pubs.rsc.org
Meta-biomaterials are designer biomaterials with unusual and even unprecedented
properties that primarily originate from their geometrical designs at different (usually smaller) …
properties that primarily originate from their geometrical designs at different (usually smaller) …
Biomechanical properties of artificial bones made by Sawbones: A review
R Zdero, P Brzozowski, EH Schemitsch - Medical Engineering & Physics, 2023 - Elsevier
Biomedical engineers and physicists frequently use human or animal bone for orthopaedic
biomechanics research because they are excellent approximations of living bone. But, there …
biomechanics research because they are excellent approximations of living bone. But, there …
Femoral stem incorporating a diamond cubic lattice structure: Design, manufacture and testing
Background The current total hip prostheses with dense femoral stems are considerably
stiffer than the host bones, which leads to such long-term complications as aseptic …
stiffer than the host bones, which leads to such long-term complications as aseptic …
Development of a porous metallic femoral stem: Design, manufacturing, simulation and mechanical testing
This paper focuses on the development of a porous metallic biomimetic femoral stem
designed to reduce stress shielding and to provide firm implant fixation through bone …
designed to reduce stress shielding and to provide firm implant fixation through bone …
Extracting accurate strain measurements in bone mechanics: A critical review of current methods
Osteoporosis related fractures are a social burden that advocates for more accurate fracture
prediction methods. Mechanistic methods, eg finite element models, have been proposed as …
prediction methods. Mechanistic methods, eg finite element models, have been proposed as …
Generation of 3D shape, density, cortical thickness and finite element mesh of proximal femur from a DXA image
Areal bone mineral density (aBMD), as measured by dual-energy X-ray absorptiometry
(DXA), predicts hip fracture risk only moderately. Simulation of bone mechanics based on …
(DXA), predicts hip fracture risk only moderately. Simulation of bone mechanics based on …