Data introduction

The program has two data introduction assistants, one which is executed when a new job is created and another to generate beam alignment with the job.

Assistant for general data introduction of a new job

This assistant is executed when a new job is created by the user, having indicated its name and description. This assistant requests the following data from the user:

• Design codes
  The user has to indicate the concrete, rolled and cold-formed steel codes which are to be used.
  
• Concrete
  • Materials
    The user has to define the type of concrete and reinforcement steel to be used in the floor slabs and foundations.
    
  • Environment
    The exposure class is defined, and if required, the specific exposure class.
    
  • Deflection limits
    
    • Instantaneous, by type of simple loadcase
    • Instantaneous, by type of load combination
    • Long term, by type of load combination
    • Long term active, by type of load combination
      Users can import the deflection limits stated in the selected concrete code. This is possible by selecting the Design conditions button (blue arrow situated on the right), whereby a dialogue box will appear providing information on the deflection limits which will be applied if the dialogue box is selected and depend on the selected concrete code.
      
  • Fabrication loss
    
• Rolled steel
  
  • Type of steel
  • Deflection limits
    As occurs with concrete, the user defines the deflection limits and has a button in the top right-hand corner of the dialogue box where the deflection limits in accordance with the selected rolled steel code can be obtained and configured.
  • Fire situation
    Activates the fire resistance check.
    
• Cold-formed steel
  Contains the same options as for rolled steel.
  
• Combinations
  In this section, the combinations which are going to be carried out by the program can be consulted. Users can also create their own combinations by pressing on Configure combinations for each limit state.
  
• Loadcase
  Here the user indicates the use category and various loadcases the beam alignments to design are going to have.
  
• Loadcase consideration for deflection calculation
  The instant when falsework is removed, the load percentage and the instant at which the load is applied for the loadcases defined in the previous section.

Assistant for creating a frame with equal beams

Having finished using the previous assistant, users can define the alignments in the job. To do so, click on the Frames of the job button (), which will allow for one or several beam alignments to be defined with the same properties for each span using the Assistant for creating a frame with equal beams. Once the user has finished using the assistant, the data that has been introduced can be edited and the properties of each span (span length, loads, type of beam, type of floor slab...) can be modified.

The stages for which the assistant asks for beam alignment data are as follows:

• Description
  • Frame reference
  • Number of beams
  • Free span of each beam
    
• Transverse section
  The type of beam and the dimensions of the transverse section are indicated here. More information on the types of beams and floor slabs reaching the beam can be found in Types of beams resolved and floor slab arrangements.
  
• Floor slabs
  The floor slab arrangements at either side of the beam are indicated here. More information on the types of beams and floor slabs reaching the beam can be found in Types of beams resolved and floor slab arrangements.

Program environment. Edit data introduced by the assistants

Once the work using the two assistants has been completed, users can edit all the data.

This is possible using the buttons or drop-down menus (all situated at the top part of the program screen).

•   File menu
  
• Job data menu
  
  • Beam general data
    Allows the user to edit the general data of the concrete beams, rolled steel beams and cold-formed beams of the job.
    
    • Materials
    • Environment
    • Deflection limits
    • Fabrication loss (only for concrete beams)
    • Fire situation (only for steel beams)
      
  •  Combinations
    Allows the user to consult the combinations which are going to be carried out by the program. The user can also create his/her own combinations by pressing the Configure combinations for each limit state button.
    
  • Loadcase
    Here, the user can edit the use category and loadcases the beam frames of the job are going to have.
    
  •  Loadcase consideration for deflection calculation
    The instant at which the falsework is removed, the load percentage and application instant of the different loadcases defined in the previous section (Loadcase).
    
  •  Design options
    Here, the user can edit the general program options, such as reinforcement tables, element libraries, check and design options, etc.
    
  •  Frame creation and selection
    Using these tools, users can open the dialogue box to add, delete or copy alignments which have already been introduced and select the alignment to be edited.
    
  •  Edition of the geometry and loads of the selected frame
    Opens a window in which the user can edit the spans, sections, loads and environment conditions of the beams making up the selected frame.
    
    Elevation changes for each beam of the alignment can be introduced in this window ( button) and beams with a variable section ( button). If different elevation changes are introduced at the initial and final ends, this will result in a sloped beam.
    
  •  Reinforcement edition and results consultation of the selected frame
    Edits the resistance elements included in the selected frame: reinforcement, steel sections, infills, lattices, connectors, etc.
    
  •  Check
    Verifies all the geometry and reinforcement prescriptions stated in the selected code. The reinforcement can be introduced or designed. The reinforcement can be modified and then checked to see whether it fails. Therefore, users can verify that the geometry of the element and the reinforcement provided comply with all the limitations. It respects the reinforcement that has been introduced and does not redesign it. The checks carried out include those of the corresponding code, criteria from various authors and other criteria provided by CYPE. The user design options are taken into account during the design process but not when checking the element. All these checks can be seen and printed in the detailed ultimate limit state check reports (U.L.S.).
    
  •  Design
    Automatically designs the alignment so all the limitations established by the code and user are met. Following the process, a report on the detailed ultimate limit state checks (U.L.S.) can be obtained. It may occur that the design is not possible, for example, because there is not enough reinforcement provided in the tables. In this case, the geometry and loads should be checked.
    
• Configuration menu
  
  •  Codes
    Users can select the codes to be used for designing the selected frame.
  • Other options in the Configuration menu
    More tools are available in the Configuration menu which allow for other program options to be configured (units, printer, document text styles, drawings, background colour...).