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Tutorial
Parametric design in IDEA StatiCa Connection - Basics (01)
By following this tutorial step-by-step, you will learn how to use the parametric design in IDEA StatiCa Connection. Parametric templates help you to reduce repetitive tasks and speed up your design process. 1 Set up the environment To use parameters in your daily job We recommend that you review the advanced users tutorial to learn how to take advantage of all the options that parametric design allows.
Stahl
Connection
Connection Library
Parametric design
IDEA Open Model (API)
Tutorial
Parametric design in IDEA StatiCa Connection - Advanced (02)
Let's reuse the joint that has been utilized for the parametric design in IDEA StatiCa Connection - Basics (01) . The goal of the design is to achieve a fully parametric symmetrical splice connection and have control over the following data: Thickness of the splices The Parametric box is automatically checked. 3 Get even more from Parametric You have finished the parametric design procedure in IDEA StatiCa Connection
Stahl
Connection
IDEA Open Model (API)
Connection Library
Parametric design
Tutorial
Parametric design in IDEA StatiCa Connection - Tubular connection
Create model Start the Connection application and choose the following template and initial parameters (click on Blank design ): Tubular connection Change Developer tab To speed things up we shall make the model parametric and create a parametric template. relevant parameters to specific model properties: Click “ Set to model ” and see how the Connection changes based on the input parameters: Go back to the Design
Stahl
Connection
IDEA Open Model (API)
Connection Library
Modeling
Tubes
Moment
Parametric
Tutorial
Parametric design in IDEA StatiCa Connection - Flush moment end plate connections
Parametric templates help you to reduce repetitive tasks and speed up your design process. In the right bottom corner, there is a sign (P) for Parametric. Parametric template for flush moment end plates You have acquired the skills to utilize parameters, create parametric templates, and undertake fundamental
Stahl
Connection
Connection Library
Parametric design
IDEA Open Model (API)
AISC (USA)
Tutorial
EDGE Amsterdam West - parametric design in Grasshopper
Inspire yourself and step forward to the world of parametric design in Grasshopher.
Stahl
IDEA Open Model (API)
Grasshopper
Parametric design
Tutorial
Grasshopper API link - how to import and calculate parametric connection model (02)
If you are not familiar with parameters please see following tutorials: Parametric design in IDEA StatiCa Connection - Basics (01) Parametric design in
Stahl
Connection
IDEA Open Model (API)
Grasshopper
Tutorial
Base plate to concrete pedestal integrated design
Keep default settings for anchoring topology and step into the app. 2 Design Before any adjustments are made, make sure to Explode the parametric template The new Parametric templates offer a fast way of editing simple connections with the change of a few parameters. However, to view the full customization options, explode the parametric template and get access to the manufacturing operations.
Beton
Stahl
Connection
CBFEM
CSFM
Detail 3D
ACI (USA)
Anchoring
Tutorial
Grasshopper API link – parametric optimization of a connection weld (03)
IDEA StatiCa Connection – Design of a joint and set parameters For this tutorial, we need a connection with some parameters.
Stahl
Connection
IDEA Open Model (API)
Grasshopper
Tutorial
Grasshopper API link – parametric optimization of a connection weld (03) version 24
IDEA StatiCa Connection – Design of a joint and set parameters For the example, you will create a simple moment connection using a template: To be able
Stahl
Connection
Tutorial
Grasshopper API link - how to import and calculate parametric connection model (02) version 24
IDEA StatiCa Connection – Design of a joint and set parameters For the example, you will create a simple moment connection using a template: To be able
Stahl
Connection
Tutorial
Structural design of a footing with diagonal (AISC)
Create a new project by selecting a starting template closest to the desired design, filling in the name, and choosing the design code and default material Before continuing, make sure to explode the parametric template as shown below. First, change the cross-section of the column. Stiffener operation Let’s check the final design of the joint.
Stahl
AISC (USA)
Connection
Anchoring
Concrete block
Steel-to-concrete
Tutorial
Advance Design BIM link for concrete structural design (EN)
This tutorial will show how to activate and use the link between Advance Design and IDEA StatiCa Beam. Select Advance design and click the button Install . You have to select which results from the Advance design will be imported to IDEA StatiCa Beam . Follow the picture below.
Beton
EN (Eurocode)
BIM link
Advance Design
Beam
Tutorial
Advance Design BIM link for the structural design of a steel connection (EN)
Select the Advance Design and click the button Install . Let’s say you need to change some entities in the Advance Design model. Now let's proceed with the Connection design command button.
Stahl
BIM link
Advance Design
Connection
EN (Eurocode)
Tutorial
Steel joint design resistance (AISC)
Learn how to how to use software IDEA StatiCa to model, design and check a structural steel joint and calculate Joint design resistance. 1 New project design resistance tab in the result tables. The values of the Design load and Design resistance are provided to visualize the results.
Stahl
Connection
AISC (USA)
Resistance
Tutorial
Steel connection capacity design (AISC)
By following this step-by-step example, you will learn how to design and perform a seismic code-check of a structural steel joint using Capacity design connections from AISC 358 design process, is to design a strong column-weak beam system. All design modifications are now complete, run Calculate in the Check tab.
Stahl
AISC (USA)
Capacity design
Seismicity
Connection
Tutorial
Structural design of a general 3D joint (AISC)
Create a new project by selecting a starting template closest to the desired design, filling in the name, and choosing AISC design code and default steel More load cases can be added. 4 Design Add a new one by the command new Operation at the top ribbon. Check the final design of the joint. 5 Calculation and Check You can start the analysis by clicking Calculate in the ribbon.
Stahl
AISC (USA)
Connection
Tutorial
Fire Design Analysis of a Steel Member (EN)
Fill in the name, select the steel grade S355 , design code Eurocode , thick Fire Design checkbox, and Create project . To calculate the Fire design , enable this feature by clicking on the top ribbon Project button and ticking the Fire design checkbox in the information This means our design is safe for these conditions. 5 Report At last, go to the tab Report .
Stahl
Member
EN (Eurocode)
Fire resistance
Tutorial
Bolted plate to plate connection design (AISC)
Create a new project by selecting the template closest to the required design, fill the name and the description of the project. More load cases can be added. 4 Design Before modifying the connection, Right-click on Operations (P) and select Explode. You can remove them and make the design more economical. Right-click on the connecting plate and select Editor . Click Explode.
Stahl
AISC (USA)
Connection
Bolts
Modeling
Tutorial
Structural design of a prestressed I-section (EN)
At last, rename the extremes and set time to 7 and 18250 days (50 years). 2 Design Start with the input of the cross-section. Proceed to the Design member tab in the navigator. Stay with the default values of exposure classes. You will complement these values with the design values of variable effects.
Beton
EN (Eurocode)
Prestressed members
RCS
Tutorial
Midas Civil BIM link for steel connection design
You can sort the design members into groups. It's suitable from the design point of view. Address the name of the joint for saving and run the application IDEA StatiCa Connection by using the Design button in the ribbon. 6 Design The connection The predefined template in IDEA StatiCa set, which will be used for design, is available for selection.
Stahl
EN (Eurocode)
BIM link
midas Civil + Gen
Bridges
Tutorial
Structural design of a reinforced concrete slab (EN)
Learn how to use IDEA StatiCa RCS to design and code-check concrete slabs using the example of a simply supported orthogonal bridge deck. Cross-section The design requires the use of a 1 x 1 m slab element with a thickness of 700 mm and a concrete grade of C35/45 . Design member The section's exposure class determines its maximum crack width and detailing evaluation. Change the Chlorides class to XD3 .
Beton
RCS
EN (Eurocode)
Overall check
ULS
Tutorial
RFEM/RSTAB BIM link for steel member design (EN)
Select the New option with project type Steel and design code EN . Then select Create project . Design Now, select member M101 and click Open to start the design. First, design connection 68 . As we have a similar connection in both nodes, you can copy the finished design to node 93 by clicking Apply .
Stahl
Member
EN (Eurocode)
RFEM
RSTAB
Checkbot
Tutorial
Structural design and code-check of a steel frame (EN)
Then choose the design code, starting material properties, and the type of topology. Instead of adding operations step-by-step, import a predefined template in 'Connection design Browser'. And then finish the design by modifying the BP1 operation as shown in the picture below.
Stahl
Member
EN (Eurocode)
Tutorial, Beispielprojekt
Structural design and code-check of a steel frame (AISC)
Then choose the design code/sub-code, starting material properties, and the type of topology (a frame). You may notice that the Design Code is different but in the next steps this is taken care of. To finish the design by modify the BP1 operation as shown in the picture below.
Stahl
Member
AISC (USA)
Tutorial
Robot Structural Analysis BIM link for steel member design (EN)
After launching the Checkbot app select New with project type Steel and design code EN . Then select Create Project . Design Now, select member 202 and click Open to start the design. First, design connection N36 . As we have a similar connection in both nodes, you can copy the finished design to node N43 by clicking Apply .
Stahl
Member
EN (Eurocode)
Checkbot
Robot Structural Analysis
Tutorial
ETABS BIM link for steel connection design (AISC)
By following this step-by-step tutorial, you will learn how to design and code-check a structural steel connection using the BIM link between ETABS and From the Design tab in the Options panel choose LRFD 2016 from the sub-code list. The Checkbot project will be updated, connection design is preserved, but the results will be invalidated.
Stahl
Connection
Checkbot
AISC (USA)
ETABS
Tutorial
STAAD.Pro BIM link for steel connection design (AISC)
Select the New option with Steel project type, AISC design code and sub-code LRFD (AISC 360-16) and create project. From the Design tab in the Options panel choose LRFD 2016 from the sub-code list. The Checkbot project will be updated, connection design is preserved, but the results will be invalidated.
Stahl
Checkbot
AISC (USA)
BIM link
STAAD.Pro
Connection
Tutorial
Autodesk Revit BIM link for connection design (EN)
By following this step-by-step tutorial, you will learn how to design and code-check a structural steel connection using the BIM link between Autodesk Select the New option with project type Steel and design code EN . Then select Create project . The Checkbot project will be updated, connection design is preserved, but the results will be invalidated.
Stahl
Connection
Checkbot
EN (Eurocode)
Revit
Tutorial
SCIA Engineer BIM link for steel member design (EN)
Following this step-by-step tutorial, you will learn how to design and code-check a structural steel member using the BIM link between SCIA Engineer and Select the New option with project type Steel and design code EN . Then select Create project . In the beginning, let us design the joints of the member U-profile, so please select the first connection and click on Edit connection .
Stahl
Checkbot
Member
EN (Eurocode)
SCIA Engineer
Tutorial
SAP2000 BIM link for steel Member design (EN)
Following this step-by-step tutorial, you will learn how to design and code-check a structural steel member using the BIM link between SAP2000 and IDEA Select the New option with project type Steel and design code EN . Then select Create project . In the beginning, let us design the joints of the member U-profile, so please select the first connection and click on Edit connection .
Stahl
Member
Checkbot
EN (Eurocode)
SAP2000
GMNA
MNA