Keyphrases
Tendon
100%
Tendon-bone Interface
64%
Mechanical Properties
63%
Skull
59%
Stiffness
55%
Extracellular Matrix
55%
Fibroblasts
52%
Angular Acceleration
49%
Tissue Constructs
45%
Strain Field
45%
Enthesitis
45%
Magnetic Resonance Imaging
43%
Collagen
43%
Tendon-to-bone Attachment
42%
Stress Concentration
38%
Traumatic Brain Injury
37%
Human Brain
35%
Tendon-to-bone Insertion
34%
Healing
33%
Tendon-to-bone Repair
33%
Brain Tissue
33%
Cellular Mechanotransduction
31%
Mechanobiology
31%
Mechanical Response
31%
Dissimilar Materials
30%
Tendon Enthesis
28%
Quasi-linear Viscoelasticity
28%
White Matter
27%
Toughness
27%
Viscoelasticity
27%
Mathematical Model
25%
Material Properties
24%
Trichomes
23%
Cell Matrix
23%
Surgical Repair
22%
Cell Response
22%
Tissue Engineering
22%
Three-dimensional (3D)
22%
Integrin
22%
Bioartificial Organs
21%
Quasi-linear Viscoelastic Model
21%
Mechanical Microenvironment
21%
Mechanosensing
21%
Bi-material
21%
Biomaterials
20%
Material Model
20%
Three-dimensional Culture
20%
Head Acceleration
19%
Soccer Ball
19%
Load Transfer
19%
Engineering
Engineering
79%
Strain Field
61%
Hydrogel
56%
Angular Acceleration
44%
Multiscale
39%
Stress Concentration
39%
Anisotropic
36%
Mechanical Response
36%
Brain Tissue
34%
Load Transfer
33%
Bone Repair
33%
Biomechanics
32%
Shear Wave
30%
Indentation
29%
Mineralisation
28%
Linear Viscoelastic Model
27%
Two Dimensional
26%
Toughening
26%
Length Scale
25%
Phase Composition
25%
Microenvironments
25%
Displacement Field
24%
Bioartificial Tissue
24%
Tissue Regeneration
23%
Transients
23%
Microscale
22%
Reattachment
22%
Broad Range
22%
Nanoscale
22%
Human Brain
22%
Biological Tissue
21%
Tensiles
21%
Joints (Structural Components)
20%
Material Model
20%
Boundary Condition
20%
Mechanical Testing
20%
Viscoelasticity
20%
Energy Dissipation
19%
Mechanical Loading
18%
Cardiomyocytes
18%
Strain Rate
18%
Mathematical Model
17%
Cell Concentration
16%
Fibre Stress
16%
Design Space
16%
Constant Time
16%
Constitutive Model
16%
Nanometre
15%
Fiber Direction
15%
Stress Relaxation
15%
