Structure Sthal house
2.0 Actions considered in the calculation 3.0 Materials (0.50p)
4.0 Hypothesis combinations (1,00p) 5.0 Manual calculations and efforts (3,00p)
(1,00p)
5.1 Beam ISOSTATIC MODEL
5.1.1 Predimensional edge for tables according to notes Structures II
5.1.2 Dimensioned at bending moment by law of efforts
5.1.3 Verification of maximum deformation (preferably by double integration,
but also valid for summary equations of prontuary)
5.1.4 Verification of lateral buckling Mcr = (w / Lp) x (E x G x Imin x Itorsora) 12
(We can stabilize it laterally every 40 times the minimum turning radius to limit lateral buckling, and the force that the stabilizing part must withstand must be at least 1.5% of the compression carried by the compressed portion of the joist We can also stabilize it with the own slab or compression layer).
5.1.5 Checking (by the simplified method using the profile soul)
5.2 Jassera (using points 1,2,4 and 5 of the beam, deformation point 3 by Win-
4.0 Hypothesis combinations (1,00p) 5.0 Manual calculations and efforts (3,00p)
(1,00p)
5.1 Beam ISOSTATIC MODEL
5.1.1 Predimensional edge for tables according to notes Structures II
5.1.2 Dimensioned at bending moment by law of efforts
5.1.3 Verification of maximum deformation (preferably by double integration,
but also valid for summary equations of prontuary)
5.1.4 Verification of lateral buckling Mcr = (w / Lp) x (E x G x Imin x Itorsora) 12
(We can stabilize it laterally every 40 times the minimum turning radius to limit lateral buckling, and the force that the stabilizing part must withstand must be at least 1.5% of the compression carried by the compressed portion of the joist We can also stabilize it with the own slab or compression layer).
5.1.5 Checking (by the simplified method using the profile soul)
5.2 Jassera (using points 1,2,4 and 5 of the beam, deformation point 3 by Win-