<p>Plot represents the number of elements within the finite element model that experience a specific strain magnitude. The plot shows the element strains from all fifteen biting simulations (labelled individual bites) and the combined loading model.</p
von Mises equivalent stress distribution of the bone around the iliac screw under various loading co...
Values of tensile and compressive strains during finite element simulations of unilateral molar biti...
<p><b>Distribution of first and third principal strains from microFE models (a) and DVC measurements...
<p>von Mises stress distribution in the bone of the three finite element models under both loading c...
(A) Dimensions of the computational plate model. (B) Merging of the images with (“7% stretch” in the...
<p>Cumulative map of peak dominant strains over all bites. Red represents regions of the skull where...
Lateral cases 1) in M1 2) in M2 and 3) in M3. Orthal cases 4) in M1 5). In molar M2 and 6) in M3. Qu...
<p>Arrows indicate the biting tooth: (A–C) incisor bites; (D–F) unilateral bites on M1; (G–I) unilat...
<p>A) represents the force vector applied to the electrode holder. B) shows the strain in the base o...
<p>The value of stress (MPa) is indicated in the insert; blue - low level, red - high level of stres...
<p>Nodes were selected at equidistant points along the (A) mid-sagittal plane, (B) zygomatic arch an...
<p>Stress contour plots for beam model based on <i>M. cataphractus</i> for <i>biting</i> (A), <i>sha...
<p>Strain in the first set of simple beam models, plotted against morphological variables (from top)...
<p>(<i>a</i>) <i>Dinornis</i> femur loaded in compression (0° from the longest principal axis) exper...
<p>Top row: Normal strains in the laboratory coordinate system, and . Middle: Principal strains an...
von Mises equivalent stress distribution of the bone around the iliac screw under various loading co...
Values of tensile and compressive strains during finite element simulations of unilateral molar biti...
<p><b>Distribution of first and third principal strains from microFE models (a) and DVC measurements...
<p>von Mises stress distribution in the bone of the three finite element models under both loading c...
(A) Dimensions of the computational plate model. (B) Merging of the images with (“7% stretch” in the...
<p>Cumulative map of peak dominant strains over all bites. Red represents regions of the skull where...
Lateral cases 1) in M1 2) in M2 and 3) in M3. Orthal cases 4) in M1 5). In molar M2 and 6) in M3. Qu...
<p>Arrows indicate the biting tooth: (A–C) incisor bites; (D–F) unilateral bites on M1; (G–I) unilat...
<p>A) represents the force vector applied to the electrode holder. B) shows the strain in the base o...
<p>The value of stress (MPa) is indicated in the insert; blue - low level, red - high level of stres...
<p>Nodes were selected at equidistant points along the (A) mid-sagittal plane, (B) zygomatic arch an...
<p>Stress contour plots for beam model based on <i>M. cataphractus</i> for <i>biting</i> (A), <i>sha...
<p>Strain in the first set of simple beam models, plotted against morphological variables (from top)...
<p>(<i>a</i>) <i>Dinornis</i> femur loaded in compression (0° from the longest principal axis) exper...
<p>Top row: Normal strains in the laboratory coordinate system, and . Middle: Principal strains an...
von Mises equivalent stress distribution of the bone around the iliac screw under various loading co...
Values of tensile and compressive strains during finite element simulations of unilateral molar biti...
<p><b>Distribution of first and third principal strains from microFE models (a) and DVC measurements...
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