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Tension field theories for soft tissues (1978)

Danielson, D. A.

Springer

Bulletin of mathematical biology 40 (1978), S. 161-182

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ISSN: 1522-9602

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Mathematics

Notes: Abstract All soft tissues are modeled as either one-dimensionalstrings, two-dimensionalmembranes, or three-dimensionalsolids. Attention is restricted to tissues in which one of the principal stress components is large and positive in comparison with the other negligible components. Results indicate the following: (1) If a deformed string isconstrained to lie on a surface and is free of tangential pressure, the tension is carried by rays which are geodesics of the surface. If a string or membrane isfree to deform in space without normal pressure, the tension rays are straight lines. If a membrane deforms without tangential surface loads, the tension rays are always geodesics on the deformed surface. If a solid deforms without body forces, the tension rays are straight lines. (2) The stress in a string is a constant if the string is free of tangential pressure and has constant cross-sectional area. The stress in flat tension fields free of tangential surface loads decays inversely with distance along a tension ray from the edge of regression. The stress in a spherically symmetric tension field free of body forces decays inversely with the square of the distance from the center of the sphere. (3) Stress singularities can occur in soft tissues, such as at the corners of a closed rectangular hole in a flat membrane strip. (4) The tension rays in the torsion of soft annular membranes are more steeply inclined from the radial direction than the tension rays for hard metals equally displaced.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02461433

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Paper (German National Licenses)

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Dynamic buckling loads of imperfection- sensitive structures from perturbation procedures. (1969)

Danielson, D. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: Mechanical model for dynamic buckling of elastic imperfection-sensitive structures under step loading, using perturbation method

Keywords: STRUCTURAL MECHANICS

Type: ; 81, 82. (

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Buckling and initial postbuckling behavior of spheroidal shells under pressure. (1969)

Danielson, D. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: Elastic spheroidal shell of revolution under external pressure described by buckling and postbuckling theory

Keywords: STRUCTURAL MECHANICS

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Nonlinear Beam Kinematics by Decomposition of the Rotation Tensor (1987)

Danielson, D. A. ; Hodges, D. H.

In: Other Sources

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Publication Date: 2019-07-13

Description: A simple matrix expression is obtained for the strain components of a beam in which the displacements and rotations are large. The only restrictions are on the magnitudes of the strain and of the local rotation, a newly-identified kinematical quantity. The local rotation is defined as the change of orientation of material elements relative to the change of orientation of the beam reference triad. The vectors and tensors in the theory are resolved along orthogonal triads of base vectors centered along the undeformed and deformed beam reference axes, so Cartesian tensor notation is used. Although a curvilinear coordinate system is natural to the beam problem, the complications usually associated with its use are circumvented. Local rotations appear explicitly in the resulting strain expressions, facilitating the treatment of beams with both open and closed cross sections in applications of the theory. The theory is used to obtain the kinematical relations for coupled bending, torsion extension, shear deformation, and warping of an initially curved and twisted beam.

Keywords: Structural Mechanics

Type: Paper-87-APM-17 , Journal of Applied Mechanics; 109; 258-262|Applied Mechanics, Biomechanics, and Fluids Engineering; Jun 14, 1987 - Jun 17, 1987; Cincinnati, OH; United States

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A geometrically nonlinear theory of elastic plates (1992)

Atilgan, Ali R. ; Danielson, D. A. ; Hodges, Dewey H.

In: Other Sources

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Publication Date: 2019-07-13

Description: A set of kinematic and intrinsic equilibrium equations is derived for plates undergoing large deflection and rotation but with small strain. The large rotation is treated by the general finite rotation of a frame in which the material points that are originally along a normal line in the undeformed plate undergo only small displacements. Exact intrinsic virtual strain-displacement relations are derived; using a reduced 2-D strain energy function from which the warping has been systematically eliminated, a set of intrinsic equilibrium equations follows. It is demonstrated that only five equilibrium equations can be derived in this way, because the component of virtual rotation about the normal is not independent. These equations include terms which cannot be obtained without the use of a finite rotation vector which contains three nonzero components. These extra terms correspond to the difference of in-plane shear stress resultants in other theories.

Keywords: STRUCTURAL MECHANICS

Type: AIAA PAPER 92-2281 , AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference; Apr 13, 1992 - Apr 15, 1992; Dallas, TX; United States

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Nonlinear beam kinematics by decomposition of the rotation tensor (1987)

Hodges, D. H. ; Danielson, D. A.

In: Other Sources

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Publication Date: 2019-07-12

Description: A simple matrix expression is obtained for the strain components of a beam in which the displacements and rotations are large. The only restrictions are on the magnitudes of the strain and of the local rotation, a newly-identified kinematical quantity. The local rotation is defined as the change of orientation of material elements relative to the change of orientation of the beam reference triad. The vectors and tensors in the theory are resolved along orthogonal triads of base vectors centered along the undeformed and deformed beam reference axes, so Cartesian tensor notation is used. Although a curvilinear coordinate system is natural to the beam problem, the complications usually associated with its use are circumvented. Local rotations appear explicitly in the resulting strain expressions, facilitating the treatment of beams with both open and closed cross sections in applications of the theory. The theory is used to obtain the kinematical relations for coupled bending, torsion, extension, shear deformation, and warping of an initially curved and twisted beam.

Keywords: STRUCTURAL MECHANICS

Type: ASME PAPER 87-APM-17 , ASME, Transactions, Journal of Applied Mechanics (ISSN 0021-8936); 54; 258-262

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