Superposition according to Russian SP 20.13330.2016: Loads and Actions¶
Introduction¶
This document provides a short introduction in the use of the program MAXIMA for combinations according to the Russian code SP 20.13330.2016: Loads and Actions
Hint
This tutorial is based on SP 20.13330.2016 and SP 63.13330.2012
Theoretical Background¶
In the code SP 20.13330.2016: Loads and Actions a main combination is given in formula (6.1):
 where: Pd  permanent actions
Pl  longterm variable actions Pt  shortterm variable actions
Here two two formulas are described:
for the design of the group 1 (ultimate load) using safety factors γf = γf ∙ Pd + (γf ∙ ψl1 ∙ Pl1 + γf ∙ ψl2 ∙ Pl2 + γf ∙ ψl3 ∙ Pl3 + …) + (γf ∙ ψt1 ∙ Pt1 + γf ∙ ψt2 ∙ Pt2 + γf ∙ ψt3 ∙ Pt3 + …)
for the design of the group 2 (serviceability) without safety factors γf = Pd + (ψl1 ∙ Pl1 + ψl2 ∙ Pl2 + ψl3 ∙ Pl3 + …) + (ψt1 ∙ Pt1 + ψt2 ∙ Pt2 + ψt3 ∙ Pt3 + …)
Regradless of the use of the safety factors, the equation 6.1 has two parts of variable actions:
first part for longterm variable actions
(ψl1 ∙ Pl1 + ψl2 ∙ Pl2 + ψl3 ∙ Pl3 + …) with ψl1 = 1.0 and ψl2 = ψl3 = 0.95
It means: Pl1 is the leading longterm action and Pl2 and Pl3 are accompanying longterm actions.
second part for shortterm variable actions
(ψt1 ∙ Pt1 + ψt2 ∙ Pt2 + ψt3 ∙ Pt3 + …) with ψt1 = 1.0 , ψt2 = 0.9 and ψt3 = ψl4 = 0.7
It means: Pt1 is the first leading shortterm action, Pt2 is the second leading shortterm action and Pt3 and Pt4 are accompanying shortterm actions
Objectives¶
Generate the system inclusive the design code, materials, cross sections
Generate the actions with the task Action Manager or with the program SOFiLOAD
Generate loads inside SOFiPLUS or with the program SOFiLOAD
Run linear analysis
Generate action combinations
Generate superpositions
Project Description¶
In the given file a 2D plate system is generated. The example is only made for demonstration of the default actions with the program SOFiLOAD and of the definition of the combinations with the program MAXIMA. The selected design code ist SP 6313330 Concrete and Reinforced Concrete Structures (2012).
Geometry¶
A simple 2D plate, which is devided in three part (three groups of plane elements), is presented. The direction of grafity is the Z direction.
Materials¶
Number 
Grade 
Notes 

1 
B 35 (SP 63.13330) 
concrete f_{c} = 19.5 MPa 
2 
A 500 (SP 63.13330) 
reinforcing steel f_{y} = 435 MPa, f_{t} = 600 MPa 
Actions and Load Cases¶
Action and its Category 
Title 
Load Cases 

G_C 
dead load concrete, category C, permanent 
1 
G_S 
dead load soil, category S, permanent 

Q 
uniform distributed loads, variable shortterm 
11,12 conditional 
S 
snow loading, variable shortterm 
21,22,23 conditional 
W 
wind loading, variable shortterm 
31,32,33 exclusive 
LI 
fixed installations, variable longterm 
41,42 
LC 
loaders and electric cars, variable longterm 
51,52 conditional 
LM 
stored materials and products, variable longterm 
61,62,63 
The actions and the loads are defined with the program SOFiLOAD. Here only default actions are used. Therefore, only the action names have be input. The corresponding safety factors and combination coefficients are added automatically.
 The combination coefficients are defined here as follows:
factors ψl1 and ψt1 are defined at ψ0
factors ψl2 (= ψl3) and ψt2 are defined at ψ1
factor ψt3 is defined at ψ2
The printout of the table Actions inclusive the corresponding load cases is as follows:
Action Combinations using Program MAXIMA¶
For the combination equation (6.1) according to SP 20.13330.2016 it is necessary to make three presuperpositions and finally an envelope about their results. The procedure is necessary, as in each case for the shortterm loads and longterm loads the leading and the accompanying actions have to be determined.
For demonstration purpose the superposition value is here the nodal value PZ (support reaction). The node 12 is selected for the prinout.
1st presuperposition for the permanent actions
An explicit defined combination is created using the safety factors for the permanent actions. The type of the results is none, because the resulting load cases should not be considered for a later design. The generated load case numbers are 2155 and 2156.
The MAXIMA input is:
+PROG MAXIMA
HEAD presuperposition permanent actions
echo load,fact
comb 1 extr expl type none base 2100
! ADD {G} facu gamu facf gamf ! all permanent actions
!or
ADD G_C facu gamu facf gamf ! action G_C
ADD G_S facu gamu facf gamf ! action G_S
supp 1 extr mami etyp node type pz from 12 ! from 12 only for full printout with echo
END
2nd presuperposition for the longterm actions
An explicit defined combination is created using the safety factors and combination coefficients for the longterm actions. The type of the results is none, because the resulting load cases should not be considered for a later design. The generated load case numbers are 2255 and 2256.
With the input line ADD {Q1} facu psiu facf 0, it is defined that the leading action should be determined with the unfavourable factor γf ∙ ψ0 = literal psiu . The definition of the record ADA LI,LC,LM determines that only the longterm actions should be used. The accompanying longterm actions get the unfavourable factor γf ∙ ψ1 = literal ps1u.
+PROG MAXIMA
HEAD presuperposition longterm actions
echo load,fact
comb 2 extr expl type none base 2200
ADD {Q1} facu psiu facf 0 ! first leading action
ADA LI,LC,LM ! use only longterm actions LI,LC,LM
ADD {QI} facu ps1u facf 0 ! accompanying actions
ADA LI,LC,LM ! use only longterm actions LI,LC,LM
supp 2 extr mami etyp node type pz from 12 ! from 12 only for full printout with echo
END
3rd presuperposition for the shortterm actions
An explicit defined combination is created using the safety factors and combination coefficients for the shortterm actions. The type of the results is none, because the resulting load cases should not be considered for a later design. The generated load case numbers are 2355 and 2356.
With the input line ADD {Q1} facu psiu facf 0, it is defined that the 1st leading action should be determined with the unfavourable factor γf ∙ ψ0 = literal psiu . The definition of the record ADA Q,S,W determines that only the shortterm actions should be used. The determination of the 2nd leading action is defined by the input line ADD {Q2} facu ps1u facf 0, where the unfavourable factor is γf ∙ ψ1 = literal ps1u. The accompanying shortterm actions get the unfavourable factor γf ∙ ψ2 = literal ps2u.
+PROG MAXIMA
HEAD presuperposition shortterm actions
echo load,fact
comb 3 extr expl type none base 2300
ADD {Q1} facu psiu facf 0 ! first leading action
ADA Q,S,W ! use only shortterm actions Q,S,W
ADD {Q2} facu ps1u facf 0 ! second leading action
ADA Q,S,W ! use only shortterm actions Q,S,W
ADD {QI} facu ps2u facf 0 ! accompanying actions
ADA Q,S,W ! use only shortterm actions Q,S,W
supp 3 extr mami etyp node type pz from 12 ! from 12 only for full printout with echo
END
final envelope
At last the final envelope of the resulting load cases from the presuperpositions should be done. For this a standard combination is defined with the specification of the resulting load cases from the presuperpositions. The type of the resulting load cases 2455 and 2456 is desi in order for using them in a later design.
The MAXIMA input is as follows:
+PROG MAXIMA
HEAD envelope
echo load,fact
comb 4 extr stan type desi base 2400 ! type desi for a later design
LC 2155,2156 type AG1 ! load cases from presuperposition permanent actions in permanent load group AG1
LC 2255,2256 type A2 ! load cases from presuperposition longterm actions in alternative load group A2
LC 2355,2356 type A3 ! load cases from presuperposition shortterm actions in alternative load group A3
supp 4 extr mami etyp node type pz from 12 ! from 12 only for full printout with echo
END
Remarks¶
For the workflow of the superposition with equation (6.1) according to SP 20.13330.2016 it is recommend to use the input with Teddy of the program MAXIMA. The definition of the combinations with the SSD task Define Combinations is not possible, because in this the used actions cannot be selected for an explicit defined combination with actions groups (2nd and 3rd presuperpositin record ADA).
The superposition for the serviceability limit state is analogous, however without the safety factors γf.