Do you want your structures to remain upright even in wind and snow? Then rely on the load wizards for plate and frame structures. You can now generate wind loads according to EN 1991‑1‑4 and snow loads according to EN 1991‑1‑3 (as well as other international standards). The load cases are generated depending on the roof shape.
Wind loads are also not a problem in your design. You can automatically generate wind loads as member loads or area loads (RFEM) on the following structural components:
With Dlubal, you can safely and easily design structures all over the world. Select from a large number of standards in the Base Data. You can also decide whether to create the combinations automatically.
The following standards are available:
EN 1990
EN 1990 | Timber
EN 1990 | Road Bridges
EN 1990 | Cranes
EN 1990 | Geotechnical Engineering
EN 1990 | Base + Timber
EN 15512
ASCE 7
ASCE 7 | Timber
ACI 318
IBC
CAN/CSA
NBC
NBC | Timber
NBR 8681
IS 800
SIA 260
SIA 260 | Timber
BS 5950
GB 50009
GB 50068
GB 50011
CTE DB-SE
SANS 10160-1
NTC
NTC | Timber
AS/NZS 1170.0
SP 20.13330:2016
TSC | Steel
For the European standards (EC), the following National Annexes are available:
In the "Load Cases & Combinations" dialog box, you have an option to automatically generate load and result combinations as soon as you have selected the corresponding combination expressions. For example, you can also copy or add load cases in a clearly arranged window.
Furthermore, you can manage the load cases and combinations in the tables.
Utilize all the options of the 'Edit Load Cases and Combinations' dialog box to facilitate your work. Here you can automatically create load and result combinations after selecting the corresponding combination expressions. In this clearly arranged dialog box, you can also e.g. to copy, add, or renumber load cases.
Additionally, control the load cases and combinations in Tables 2.1 – 2.6.
The Base Data dialog box includes a wide range of standards and the option to create combinations automatically. The following standards are available:
EN 1990:2002
EN 1990 + EN 1995:2004 (Timber)
EN 1990 + EN 1991-2; Road bridges
EN 1990 + EN 1991-3; Cranes
EN 1990 + EN 1997
to DIN 1055-100:2001-03
DIN 1055-100 + DIN 1052:2004-08 (timber)
DIN 1055-100 + DIN 18008 (Glass)
DIN 1052 (simplified) (timber)
DIN 18800:1990
ASCE 7‑10
ASCE 7-10 NDS (Wood)
ACI 318-14
IBC 2015
CAN/CSA S 16.1-94:1994
NBCC: 2005
NBR 8681
IS 800:2007
SIA 260:2003
SIA 260 + SIA 265:2003 (timber)
BS 5950-1:2000
GB 50009-2012
CTE DB-SE
For the European standards (EC), the following National Annexes are available:
There are load generators available for beam structures, creating snow loads according to ASCE/SEI 7-10. The load cases are generated depending on the roof shape. Another generator creates coating loads (ice). You can save recurring load combinations as templates.
The generated loads can be transferred easily to RFEM/RSTAB in order to superimpose other load cases. All module data is included in the RFEM/RSTAB printout report.
The report contents and the extent of the results can be selected specifically for the individual designs.
After generating the loads, you can check the results in clearly arranged tables. The output includes all information about the generated load cases and loads due to self-weight, wind load, and ice load. All loads are itemized in structural objects and equipment.
The RF-/TOWER Loading add-on module meets the requirements of EN 1991-1-4 / DIN EN 1993-3-1, DIN 1055-4, DIN 4131:1991-11, and DIN V 4131:2008-09. These standards include specifications of dead, wind, maintenance/technician and ice loads (ISO 12494 or DIN 1055-5), as well as variable loads. The standard specifications are preset or available in the libraries.
For the generation of wind loads according to Eurocode, the National Annexes (NA) of the following countries are available:
DIN EN 1991-1-4 (Germany)
CSN EN 1994-1-4 (Czech Republic)
NA to CYS EN 1991-1-4 (Cyprus)
DK EN 1991-1-4 (Denmark)
NBN EN 1991-1-4 (Belgium)
NEN EN 1991-1-4 (Netherlands)
NF EN 1991-1-4 (France)
SFS-EN 1991-1-4 (Finland)
SIST EN 1991-1-4 (Slovenia)
SR EN 1991-1-4 (Romania)
SS EN 1991-1-4 (Singapore)
SS-EN 1991-1-4 (Sweden)
STN EN 1991-1-4 (Slovakia)
UNI EN 1991-1-4 (Italy)
It is possible to generate individual load situations: You can set the wind pressure, wind direction, or ice loads manually, or import them from tables.
The calculated stresses and settlements are displayed in result windows. In addition, it is possible to evaluate the results graphically. The graphic displays the position and the layer arrangement of the soil samples to clarify the results.
The final result window shows the elastic foundation coefficients. Graphical evaluation is possible as well.
Elastic foundation coefficients are calculated according to the non-linear iterative method. The module determines elastic foundation coefficients for each individual element. They are dependent on the deformation.
The definition of soil layers is performed in a clearly arranged input window. An extensible library facilitates the selection of soil properties.
The elasticity can be defined either by the stiffness modulus or the modulus of elasticity and the Poisson's ratio. It is possible to define any number of soil layers. You can assign the layers to the building graphically or by entering the relevant coordinates.
Wind loads can be automatically generated as member loads or area loads on the following structural components (optional with internal pressure for open buildings):