# Design with Finite Elements. Lecture 3: Load according to standards

- I cannot mesh because the orientation is colinear with the element orientation
- Element with zero length
- Fatal Error: singularities found (how can we find them – Modal analysis to find loose objects)
- Solve error singularity: Check eigenfrequencies: if eigenfrequencies are 0 there is no stiffness
- HELP! Split elements: No nodes to merge, still singularities -> need to split elements
- HELP! How do I get to quicksupport
- HELP! I have a double model
- Design. Change the shape of each element of the crane / Why are the top and bottom thicker plates than the side plates?
- FEMAP. ow to make a mesh + define vector
- HELP! Oke to skip the curves that do not have meshing attributes
- FEMAP. How to change the shape of an element
- FEMAP. Vector of mesh control
- SDC Verifier. Store views
- HELP! Why does my new element not show
- How do I change view: lines, text, numbers, colours, legenda on/off
- FEMAP. Elements with zero length
- FEMAP. Eigenmodes close to 0
- FEMAP. Low eigenmodes because of rods
- FEMAP. Using beam releases – element coordinate system
- FEMAP. Continue low eigenmodes because of rods
- FEMAP. Model beam offset
- FEMAP. Copy element
- FEMAP. Connecting Elements
- HELP! My model has strange deformations – displacements too large
- Design. Dimensions of a crane – weights
- Standards. Use of standard
- Standards. Classification
- FEM Basics. Constraints: Bogie Sets
- Standards. M-factor
- Design. Own weight of crane
- Loads. Hoisting Load
- Loads. Hoisting load in different configurations
- Loads. Horizontal Inertia Loads
- Loads. Slanting rope pull
- Loads. Horizontal skew loads
- Loads. Stairway loads
- Loads. Extra ordinary loads (snag, bumping, extraordinal climate)
- Loads. Buffer load
- Loads. Load combinations
- Loads. Wind load