A.2.3: Tips for Designing Statically Feasible Structures
Karamba3D can be used to analyze the response of structures of any scale. When using the “Analyze”- component for assessing the structural behavior be aware of two preconditions: First, deflections are small as compared to the size of the structure. Second, materials do behave in a linear elastic manner – i.e. a certain increase of deformation is always coupled to the same increase of load. Real materials behave differently: they weaken at some point and break eventually.
Table A.2.3.1: Specific weights of some building materials
Type of material
reinforced concrete
25.0
glass
25.0
steel
78.5
aluminum
27.0
fir wood
3.2
snow loose
1.2
snow wet
9.0
water
10.0
Table A.2.3.2: Loads for typical scenarios
Type
live load in dwellings
3.0
live load in offices
4.0
snow on horizontal plane
1.0
cars on parking lot (no trucks)
2.5
trucks on bridge
16.7
If you want to calculate structures with large deflections you have to increase the load in several steps and update the deflected geometry. This can be done with the “Large Deformation Analysis”- component (see section 3.5.4) or the component for geometrically non-linear analysis “AnalyzeNonlin WIP” (see section 3.5.3).
In case of structures dominated by bending, collapse is normally preceded by large deflections (see for example the video of the collapse of the Tacoma-Narrows bridge). So limiting deflection automatically leads to a safe design in case of slender structures. If however compressive forces initiate failure, collapse may occur without prior warning. The phenomenon is called buckling. When using the “Analyze”-component it makes no difference whether an axially loaded beam resists compressive or tensile loads: it either gets longer or shorter and the absolute value of its change of length is the same. In real structures the more slender a beam the less compressive force it takes to buckle it. An extreme example would be a rope. In case buckling might occur, use the “AnalyzeThII”-component which takes into account the destabilizing effect of compressive axial forces. The “Buckling Modes”-component lets you compute the first buckling load-factor. This is the factor with which the external loads need to be multiplied for initiating linear buckling.
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