1.4.4 Shell, membrane, and truss stress/displacement elements

Length	10.0
Radius	5.0
Thickness	0.5
Centrifugal axis of rotation	(0, 0, 1) through origin
Coriolis axis of rotation	(0, 0, 1) through origin
Gravity load vector	(0, 0, 1)

Material:

Young's modulus	3 × 10⁶
Poisson's ratio	0.3
Density	1.0

Initial conditions:

Hydrostatic pressure datum	12.0
Hydrostatic pressure elevation	0.0

Results and discussion

The calculated reactions are in agreement with the applied loads.

Input files

MCL6 element load tests:

emc6srd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP.

emc6srd8.inp

emc6srda.inp

CORIO.

emc6srdr.inp

ROTA.

MCL9 element load tests:

emc9srd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP.

emc9srd8.inp

emc9srda.inp

CORIO.

emc9srdr.inp

ROTA.

IV. General shells and membranes: general element loading

Problem description

Model:

Square dimensions	7 × 7
Thickness	2.0
Centrifugal axis of rotation	(0, 1, 0) through origin
Coriolis axis of rotation	(0, 0, 1) through origin
Gravity load vector	(0, 0, 1)

Material:

Young's modulus	3 × 10⁶
Poisson's ratio	0.3
Density	1.0
Coefficient of thermal expansion	.0001

Initial conditions:

Initial temperature	ALL, –10
Hydrostatic pressure datum	7.0
Hydrostatic pressure elevation	0.0
Initial velocity	ALL, 1, 10.0
(Coriolis loading)	ALL, 2, 5.0

Results and discussion

The calculated reactions are in agreement with the applied loads.

Input files

S3/S3R element load tests:

esf3sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

esf3sgdi.inp

P, HP, *TEMPERATURE.

esf3sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

esf3sxdi.inp

P, HP, *TEMPERATURE.

esf3sxdr.inp

ROTA.

S4 element load tests:

ese4sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

ese4sgdi.inp

P, HP, *TEMPERATURE.

ese4sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

ese4sxd8.inp

ese4sxda.inp

CORIO.

ese4sxdi.inp

P, HP, *TEMPERATURE.

S4R element load tests:

esf4sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

esf4sgdi.inp

P, HP, *TEMPERATURE.

esf4sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

S4R5 element load tests:

es54sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es54sgdi.inp

P, HP, *TEMPERATURE.

es54sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

S8R element load tests:

es68sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es68sgdi.inp

P, HP, *TEMPERATURE.

es68sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

S8R5 element load tests:

es58sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es58sgdi.inp

P, HP, *TEMPERATURE.

es58sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

S9R5 element load tests:

es59sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es59sgdi.inp

P, HP, *TEMPERATURE.

es59sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

STRI3 element load tests:

es63sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es63sgdi.inp

P, HP, *TEMPERATURE.

es63sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

STRI65 element load tests:

es56sgd1.inp

BX, BY, BZ, GRAV, CENT, P, HP, *TEMPERATURE.

es56sgdi.inp

P, HP, *TEMPERATURE.

es56sxd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D3 element load tests:

em33sfd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D4 element load tests:

em34sfd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D4R element load tests:

em34srd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D6 element load tests:

em36sfd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D8 element load tests:

em38sfd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D8R element load tests:

em38srd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D9 element load tests:

em39sfd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

M3D9R element load tests:

em39srd1.inp

BX, BY, BZ, GRAV, CENT, CENTRIF, P, HP, *TEMPERATURE.

CORIO.

P, HP, *TEMPERATURE.

ROTA.

V. General shells and membranes: unconstrained thermal expansion

Problem description

Unconstrained expansion of a hollow cylinder subject to uniform thermal loading is investigated. One-quarter of the cylinder is modeled with a 6 × 6 mesh of quadrilateral elements with appropriate boundary conditions applied along lines of symmetry. A similar discretization is used (with the diagonals crossed on the quadrilaterals) to test triangular elements.

Model: