Lewis G, Monasa F (1981) Large deflections of can- tilever beams of nonlinear materials. Comput Struct 14(5-6):357-360Lewis, G., Monsana, F.: Large deflection of cantilever beams of nonlinear Materials, Computers and Structures. 14, 5-6, 357-360 (1981)....
Large deflection analysis of multilayer cantilever beams subjected to impulse loadingTheoretical or Mathematical/ aluminiumdeformationelastoplasticityfinite element analysisstructural engineering computing/ numerical studyelastic-plastic responsemultilayer cantilever beams...
This paper deals with the large deflections of pseudo-elastic shape memory alloy cantilever beams subjected to a concentrated load at the free end. Because of the large deflections, geometry nonlinearity arises and this analysis employs the nonlinear bending theory. The exact expression of curvature ...
Bisshop KE, Drucker DC (1945) Large deflections of cantilever beams. Q J Appl Math 3:272–275 5. Barten HJ (1945) On the deflection of a cantilever beam. Q J Appl Math 3:275–276MathSciNet 6. Timoshenko SP, Gere JM (1961) Theory of elastic stability, 2nd edn. McGraw-Hill, New...
Large deflection of a cantilever nanobeam subjected to a tip-concentrated load whose verticality to the deformed axis of the beam is assumed as constant. Governing equation is analyzed by using the shearing force formulation instead of the bending moment formulation because in the case of large defl...
3.Based on the equilibrium equation of restrained steel beams with large deflection in fire condition,the changing behaviour of restrained steel beams with temperature increasing is studied.根据约束钢梁高温下大变形状态下的内力平衡方程,从理论上推导了约束钢梁随温度变化的过程,推荐了一种高温下处于大变形状...
Each pitch is designed with a double-clamped beam to generate deflection motion under an electrostatic force. Unlike end-constrained movable ribbons, the movable ribbons of the proposed MEMS grating modulator are constrained along their broadside by rail anchors. This enables enhanced scalability of ...
The curve\(\omega \left( {z,t} \right)\)describes the deflection of the beam at some position z. To find the tip displacement of the beam (IPMC) at each moment we name the IPMC tip displacement as\(\delta_{Tip} \left( t \right)\).Some previously published papers like32,have use...
where P and w are the load and deflection of the cantilever during loading. B, L, and t are the width, length, and thickness of the cantilever, respectively. The nanoindentation was performed with an Ultra Micro Indentation System (UMIS, Fischer-Cripps Laboratories) equipped with a cube corne...
Large deflection of cantilever beams with geometric non-linearity: analytical and numerical approaches Int J Non Linear Mech (2008) G. Chen et al. Finding the optimal characteristic parameters for 3R pseudo-rigid-body model using an improved particle swarm optimizer Prec Eng (2011) B.D. Jensen...