Based on energy variation methods we calculated the deflection of membranes under the combined load of an external pressure and an internal lateral stress. A lateral load gives rise to buckling once a critical load is exceeded. The combination of transversal loads and lateral loads changes the properties of the membrane (and other structures) in the vicinity of the buckling load: The membrane deflects at all lateral loads and the critic load, above which two states are possible shifts. A result important for the design of microsystems, which are based on the buckling phenomenon, is the pressure required to switch the membrane from one state to the other. The theory is tested successfully with micromachined silicon/silicon-dioxide membranes
AbstractBiomimetic membranes are fluid and can undergo two different elastic deformations, bending a...
Local buckling can form microcorrugations in thin films on elastomeric substrates, to yield an effec...
Multilamellar membrane structures are the common barriers in the cell compartments. One example is t...
Based on energy variation methods we calculated the deflection of membranes under the combined load ...
The nature of the bilayer motif coupled with the ability of lipids and proteins to diffuse freely th...
The thermal tuning characteristics of a microelectromechanical systems (MEMS) buckled membrane exhib...
Negative stiffness can provide a method of altering the stiffness of a device without changing its g...
Soft elastic membranes are typically unable to sustain compressive stresses, so that an accurate est...
Surface micromachined membranes such as RF-MEMS switches are widely adopted in the field of telecomm...
During fracture of membranes loading often produces buckles above and below the crack surface. This ...
On the basis of two assumptions, one concerning the shape of thin, clamped, circular or rectangular ...
In this paper we describe a general method to avoid stress-induced buckling of thin and large freest...
This paper is aimed to assess the non-linear elastic response of an inflatable cylindrical beam thro...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
The nature of the stress-strain state of membrane structures is highly dependent on the initial stra...
AbstractBiomimetic membranes are fluid and can undergo two different elastic deformations, bending a...
Local buckling can form microcorrugations in thin films on elastomeric substrates, to yield an effec...
Multilamellar membrane structures are the common barriers in the cell compartments. One example is t...
Based on energy variation methods we calculated the deflection of membranes under the combined load ...
The nature of the bilayer motif coupled with the ability of lipids and proteins to diffuse freely th...
The thermal tuning characteristics of a microelectromechanical systems (MEMS) buckled membrane exhib...
Negative stiffness can provide a method of altering the stiffness of a device without changing its g...
Soft elastic membranes are typically unable to sustain compressive stresses, so that an accurate est...
Surface micromachined membranes such as RF-MEMS switches are widely adopted in the field of telecomm...
During fracture of membranes loading often produces buckles above and below the crack surface. This ...
On the basis of two assumptions, one concerning the shape of thin, clamped, circular or rectangular ...
In this paper we describe a general method to avoid stress-induced buckling of thin and large freest...
This paper is aimed to assess the non-linear elastic response of an inflatable cylindrical beam thro...
AbstractOne of the fundamental properties of biological membranes is the high lateral integrity prov...
The nature of the stress-strain state of membrane structures is highly dependent on the initial stra...
AbstractBiomimetic membranes are fluid and can undergo two different elastic deformations, bending a...
Local buckling can form microcorrugations in thin films on elastomeric substrates, to yield an effec...
Multilamellar membrane structures are the common barriers in the cell compartments. One example is t...