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Stiffness Method Solver provides a convenient, detailed solution of the stiffness method in 2D Structures.
1. Why is it Convenient?
Using hand calculations, the stiffness method can take hours and it is difficult to know if you are on the right track. This app can give you the solution in seconds and you can quickly check if you have reasonable results.
Users can edit the solution to match how they solved the problem. They can do this by swapping the global freedoms or changing the direction of the location vectors.
There are help buttons throughout the app located at the bottom of each step.
Lots of structural analysis programs exist that do similar calculations but the engineers that build them are notorious at hiding their calculations. This app shows all calculations and explains each of the steps needed to solve the problem.
2. What is the Stiffness Method?
The stiffness method is a static analysis of a structure. For the purposes of this app, static means the structure is in equilibrium and at rest. Structures are made up of nodes (points with different restraint conditions) and elements (1D materials that connect nodes together). Loads are then applied to the structure.
The main assumption is that displacements are small. This assumption is key as it allows the solution to be derived under linear geometry, linear elasticity and radians can be interchanged with gradients. Because of this linear behavior, linear algebra can be used, which gives rise to the use of matrix calculations.
Matrices are used to describe the stiffness of structures and are transposed, inverted, multiplied and added to gain solutions. Matrix calculations can be difficult but are easily handled by a computer.
3. What is in the detailed solution?
The app is able to determine whether the structure type is a truss, beam or frame. The solution includes:
- The Directional Cosines
- The Element Freedoms
- The Element Local Stiffness Matrices
- The Element Rotational Matrices
- The Element Global Stiffness Matrices
- The Global Stiffness Matrix
- The Inverse of K11
- The Global Displacements at each Freedom
- The Local Displacements at each Element
- The Structure Free Body Values (Global)
- The Element Free Body Values (Local)
- The Free Body Diagrams
Equations and Final State
- The Equations at each Element*
- The Critical (Stationary and End) Points of each Equation
- The Diagrams of each Equation
- The Final (Equilibrium State) Position
- Axial Force / Axial Stress / Axial Strain / Axial Deformation
- Shear Force / Shear Stress / Shear Strain
- Bending Moment / Curvature / Rotation / Deflection
4. What is included in the In-app Purchase?
With the standard version of the app, users have access to all pre-processing data and the solver.
The in-app purchase “Full Solution” provides extra results including: Displacements, Free Body data, Equations and Final State. Before purchasing, if you want to understand more about the extra results, users have access to three example files that show the entire results.
5. Does it even work?
The code has been tested against questions from a textbook (and is correct) with 8 truss, 17 beam and 12 frame solutions. The app has been tested across multiple devices.
- Minor change in matrix inverter
- Jack Stewart
- 49.2 MB
Requer o iOS 8.0 ou posterior. Compatível com iPhone, iPad e iPod touch.
- Classificação indicativa
- © Jack Stewart
- Compras dentro do app
- Full Solution R$ 10,90
Até seis membros da família poderão usar este app com o Compartilhamento familiar ativado.