Add to ORKGAlthough it is often asserted that, in view of their reduced length, axially compressible beams have a higher buckling load than their inextensible counterpart, a detailed analysis demnstrates that this is not necessarily the case. The argument to arrive at this conclusion is made in terms of relatively straightforward concepts of elasticity and structural mechanics. It is shown that for certain classes of materials the reduced pre-buckling length is more than compensated by a softening of the elastic response, leading to a reduction of the Euler critical load
Formulas are obtained for computing the buckling load of rods eccentrically loaded at each end, the ...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
The present paper deals with the buckling of a circular cylindrical shell under axial compression fr...
Euler was the first who studied for engineering applications important problem of buckling arising i...
This project tackles the challenge of designing an elastic structure such that a desired deflection ...
This paper presents exact solutions for the buckling loads and postbuckling states of extensible, sh...
Buckling of a beam-column under axial loads at the ends is considered as a three-dimensional stabili...
Summarization: Euler was the first who studied for engineering applications important problem of buc...
AbstractColumn constitutive relationships and buckling equations are derived using a consistent hype...
An exact non-linear formulation of the equilibrium of elastic prismatic rods subjected to compressio...
The honors thesis project I have been working on is called An Examination of Effective Length in Mom...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
Euler's celebrated buckling formula gives the critical load $N$ for the buckling of a slender cylind...
Classic snap-through of curved beams, plates, and shells has long been an object of attention in str...
Formulas are obtained for computing the buckling load of rods eccentrically loaded at each end, the ...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
The present paper deals with the buckling of a circular cylindrical shell under axial compression fr...
Euler was the first who studied for engineering applications important problem of buckling arising i...
This project tackles the challenge of designing an elastic structure such that a desired deflection ...
This paper presents exact solutions for the buckling loads and postbuckling states of extensible, sh...
Buckling of a beam-column under axial loads at the ends is considered as a three-dimensional stabili...
Summarization: Euler was the first who studied for engineering applications important problem of buc...
AbstractColumn constitutive relationships and buckling equations are derived using a consistent hype...
An exact non-linear formulation of the equilibrium of elastic prismatic rods subjected to compressio...
The honors thesis project I have been working on is called An Examination of Effective Length in Mom...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
Euler's celebrated buckling formula gives the critical load $N$ for the buckling of a slender cylind...
Classic snap-through of curved beams, plates, and shells has long been an object of attention in str...
Formulas are obtained for computing the buckling load of rods eccentrically loaded at each end, the ...
Euler’s celebrated buckling formula gives the critical load N for the buckling of a slender cylindri...
The present paper deals with the buckling of a circular cylindrical shell under axial compression fr...