<p>(A) F1 alone; (B) F2 alone; (C) F3 alone; (D) F1 plus F2; (E) F1 plus F3; (F) F1, F2 and F3 at the same time. The length and direction of the arrow represented the value and direction of the deformation respectively.</p
<p>Hysteresis ΔA (hatched area) was calculated as the difference between the areas under the extensi...
<p>Pore size and stress values along TM1 of several cases where pulling force was applied only to th...
Sparsification closely matches the force-displacement curve of the full graph (i.e., exact solution)...
<p>(A) TD with F1 alone at 5N. (B) F2 alone at 5N. (C) TD with F1 and F2 both at 5N. (D) TD with F2 ...
<p>(A) Deformations of the wing under 1 mm displacement applied to the MVJ (red arrow). The black li...
<p>Spatial pressure distribution of the air-puff along the corneal surface for different deformed sh...
<p>Schematic representation of a movement arc (curved arrow) elicited by one bone (light grey) with ...
<p>A: A snapshot of the resistive forces on segments (black arrows). The blue arrow represents the h...
<p>Deformation in direction along: (A) mm, (B) mm, (C) mm. Line types for (B) and (C) as per (A)...
<p>A) Ontogenic deformations f<i>or C</i>. <i>nasus</i> in reference condition, B) Ontogenic deforma...
<p>(A) Single force. (B) Torque. (C) Composite force. (D) Single force stress disturbances. The circ...
<p>Shown are the strain in the direction of the applied force () and in the perpendicular direction ...
Comparison of impact force over displacement in x-direction of contralateral GT soft tissue marker (...
<p>Two typical force-distance curves when interactions are not detected (black square) and when inte...
A constitutive law of plastic deformation has been proposed by Goya and Ito, and can incorporate the...
<p>Hysteresis ΔA (hatched area) was calculated as the difference between the areas under the extensi...
<p>Pore size and stress values along TM1 of several cases where pulling force was applied only to th...
Sparsification closely matches the force-displacement curve of the full graph (i.e., exact solution)...
<p>(A) TD with F1 alone at 5N. (B) F2 alone at 5N. (C) TD with F1 and F2 both at 5N. (D) TD with F2 ...
<p>(A) Deformations of the wing under 1 mm displacement applied to the MVJ (red arrow). The black li...
<p>Spatial pressure distribution of the air-puff along the corneal surface for different deformed sh...
<p>Schematic representation of a movement arc (curved arrow) elicited by one bone (light grey) with ...
<p>A: A snapshot of the resistive forces on segments (black arrows). The blue arrow represents the h...
<p>Deformation in direction along: (A) mm, (B) mm, (C) mm. Line types for (B) and (C) as per (A)...
<p>A) Ontogenic deformations f<i>or C</i>. <i>nasus</i> in reference condition, B) Ontogenic deforma...
<p>(A) Single force. (B) Torque. (C) Composite force. (D) Single force stress disturbances. The circ...
<p>Shown are the strain in the direction of the applied force () and in the perpendicular direction ...
Comparison of impact force over displacement in x-direction of contralateral GT soft tissue marker (...
<p>Two typical force-distance curves when interactions are not detected (black square) and when inte...
A constitutive law of plastic deformation has been proposed by Goya and Ito, and can incorporate the...
<p>Hysteresis ΔA (hatched area) was calculated as the difference between the areas under the extensi...
<p>Pore size and stress values along TM1 of several cases where pulling force was applied only to th...
Sparsification closely matches the force-displacement curve of the full graph (i.e., exact solution)...
DOI
Add to ORKG