ASME Transactions, 81. sējums,3. izdevumsAmerican Society of Mechanical Engineers., 1960 Vols. 2, 4-11, 62-68 include the Society's Membership list; v. 55-80 include the Journal of applied mechanics (also issued separately) as contributions from the Society's Applied Mechanics Division. |
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1.–3. rezultāts no 87.
322. lappuse
... layer . In so doing , one probably would reduce the turbulent intensity and the mean shear , but would increase the volume over which the quadrupoles are distributed so that the net effect is not certain . Similarly , for a given ...
... layer . In so doing , one probably would reduce the turbulent intensity and the mean shear , but would increase the volume over which the quadrupoles are distributed so that the net effect is not certain . Similarly , for a given ...
393. lappuse
... Layered Viscoelastic Medium in Compression When a layer of material embedded in an infinite medium is subject to a compression parallel with the layer an instability tends to develop which manifests itself in the folding of the layer ...
... Layered Viscoelastic Medium in Compression When a layer of material embedded in an infinite medium is subject to a compression parallel with the layer an instability tends to develop which manifests itself in the folding of the layer ...
397. lappuse
... Layer We are now in a position to consider the case of the embedded layer by putting together the foregoing results . We will first assume the case of perfect adherence between the layer and the embedding medium , Fig . 3. We will then ...
... Layer We are now in a position to consider the case of the embedded layer by putting together the foregoing results . We will first assume the case of perfect adherence between the layer and the embedding medium , Fig . 3. We will then ...
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advanced in papers amplitude analysis Applied Mechanics Division approximate ASME Applied Mechanics assumed axial axis beam bending bending moment boundary conditions boundary layer C₁ circular co-ordinates coefficients components computed constant corresponding cosh cross section curvature curve cylinder deflection deformation determined differential equations dimensionless Discussion displacement edge elastic equa equilibrium experimental expressions flow force frequency function gimbal given incremental initial integral isotropic JOURNAL OF APPLIED linear load Manuscript received material MECHANICAL ENGINEERS method mode motion nondimensional nonlinear normal obtained parameter photoelastic plane plastic plate Poisson's ratio pressure problem radial radius ratio received by ASME relations rotation shear shear stress shell shown in Fig sinh solution strain stress-strain T₁ temperature tension theory thickness tion torsion TRANS transverse turbulent understood as individual values vector velocity vibration wave yield surface zero дх