Andere Kunden interessierten sich auch für
![Structural Optimization of Joined-Wing Beam Model with Bend-Twist Coupling Using Equivalent Static Loads]( "Structural Optimization of Joined-Wing Beam Model with Bend-Twist Coupling Using Equivalent Static Loads")
Structural Optimization of Joined-Wing Beam Model with Bend-Twist Coupling Using Equivalent Static Loads60,99 €![Input Shaping to Reduce Solar Array Structural Vibrations]( "Input Shaping to Reduce Solar Array Structural Vibrations")
Input Shaping to Reduce Solar Array Structural Vibrations60,99 €![Conceptual Design Oriented Wing Structural Analysis and Optimization]( "Conceptual Design Oriented Wing Structural Analysis and Optimization")
Conceptual Design Oriented Wing Structural Analysis and Optimization60,99 €![Residual Stress Reversal in Highly Strained Shot Peened Structural Elements]( "Residual Stress Reversal in Highly Strained Shot Peened Structural Elements")
Residual Stress Reversal in Highly Strained Shot Peened Structural Elements60,99 €![Electromagnetic Modeling and Measurement of Adaptive Metamaterial Structural Elements]( "Electromagnetic Modeling and Measurement of Adaptive Metamaterial Structural Elements")
Electromagnetic Modeling and Measurement of Adaptive Metamaterial Structural Elements60,99 €![Modification of Position and Attitude Determination of a Test Article Through Photogrammetry to Account for Structural Deformation]( "Modification of Position and Attitude Determination of a Test Article Through Photogrammetry to Account for Structural Deformation")
Modification of Position and Attitude Determination of a Test Article Through Photogrammetry to Account for Structural Deformation60,99 €![Mesozoic and Cenozoic Structural Geology of the CP Hills, Nevada Test Site, Nye County, Nevada; and Regional Implications]( "Mesozoic and Cenozoic Structural Geology of the CP Hills, Nevada Test Site, Nye County, Nevada; and Regional Implications")
Mesozoic and Cenozoic Structural Geology of the CP Hills, Nevada Test Site, Nye County, Nevada; and Regional Implications60,99 €
A deterministic methodology is presented for developing closed-form deflection equations for two-dimensional and three-dimensional lattice structures. Four types of lattice structures are studied: beams, plates, shells and soft lattices. Castigliano's second theorem, which entails the total strain energy of a structure, is utilized to generate highly accurate results. Derived deflection equations provide new insight into the bending and shear behavior of the four types of lattices, in contrast to classic solutions of similar structures. Lattice derivations utilizing kinetic energy are also presented, and used to examine the free vibration response of simple lattice structures. Derivations utilizing finite element theory for unique lattice behavior are also presented and validated using the finite element analysis code EAL.