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A chondral modeling theory revisited
Mark W. Hamrick
Research output
:
Contribution to journal
›
Article
›
peer-review
89
Scopus citations
Overview
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Mathematics
Cartilage
100%
Ontogeny
55%
Hydrostatic Pressure
48%
Modeling
40%
Cell
23%
Extracellular Matrix
15%
Muscle
13%
Structure-function
13%
Phylogeny
13%
Bone
13%
Pathway
12%
Expand
10%
Kinematics
10%
Predict
9%
Congruence
9%
Scaling
8%
Contraction
8%
Curvature
8%
Interaction
7%
Unit
7%
Performance
6%
Model
3%
Medicine & Life Sciences
Cartilage
54%
Joints
44%
Articular Cartilage
37%
Hydrostatic Pressure
27%
Extremities
25%
Chondrocytes
14%
Growth
14%
Phylogeny
8%
Muscle Contraction
7%
Biomechanical Phenomena
6%
Tendons
6%
Mammals
6%
Extracellular Matrix
5%
Direction compound
5%
Parturition
4%
Muscles
4%
Bone and Bones
4%
Agriculture & Biology
cartilage
65%
limbs (animal)
25%
hydrostatic pressure
18%
ontogeny
14%
chondrocytes
12%
frost
11%
joints (animal)
11%
mechanical loads
7%
tendons
6%
kinematics
6%
postnatal development
5%
adulthood
5%
extracellular matrix
5%
cells
4%
bones
4%
immatures
4%
mammals
3%
muscles
3%
phylogeny
2%
Engineering & Materials Science
Cartilage
81%
Hydrostatic pressure
37%
Phylogeny
14%
Mammals
14%
Tendons
11%
Bone
10%
Muscle
9%
Kinematics
8%
Chemical Compounds
Pressure
36%
Kinematics
29%
Metabolic
16%
Dimension
15%
Shape
13%
Length
12%
Environment
11%
Surface
6%