SUBJECT INDEX 3 8 9
Leipholz problem 309-312 follower force 297-302, 309, 310,
314,
315, 325-327 tangential torque 244, 245, 311,326
Nonlinear elastic 279-289
P Postbuckling considerations:
Koiter's theory 168-169 Principle of:
minimum potential energy 374 stationary value of the total
potential 373 virtual displacements 369 virtual work 369
R Rayleigh quotient 149, 230, 233, 275, 276,
293-295 Rayleigh-Ritz method:
for stable equilibrium problems 248, 376 for unstable
equilibrium problems
156-161 Rayleigh-Timoshenko method 151-155 Ritz method 156, 157,
163, 176, 183, 295,
304, 307, 310, 311,357 Rotating beams 64, 279-295
energy 9, 145, 146 static (bifurcation, equilibrium) 8 Trefftz
146
models: one-degree-of-freedom 19-27
snapthrough 31-34 two-degree-of-freedom 27-31 with imperfections
34-38 limit point 126, 127, 134, 136-140, 201,
215, 220, 221,283, 330, 335, 336, 338, 339, 346, 350
Stability analysis: bifurcation approach 8 dynamic approach 8
energy approach 9
Strain energy 367
T Tilting of forces 62 Timoshenko beam (see Beams,
Timoshenko) Timoshenko's method 147 Timoshenko quotient 149
Trefftz criterion:
columns by the 161-163 low arches by the 215-221 for stability
147
S Shafts 235-249 Southwell Plot 62 Special functions:
Dirac 8-function 48, 52 doublet function 48, 49, 52 Macauley's
bracket 48 unit step function 48
Stability: concept of 6 criterion for:
dynamic (kinetic) 8, 298, 299
U Unit-displacement theorem 375
V Virtual displacements:
definition 369 principle of 369-373
Virtual work: principle of 369-373
W Work principles and theorems 367-378
