WALL AND DETAIL DESIGN
Accurately and safely design concrete walls, D-regions, or entire structural members. IDEA StatiCa Detail provides a full design report including all ULS/SLS checks for:
- Concrete walls
- Beams with openings, dapped ends, and similar features
- Bridge diaphragms
- Pile caps and pier caps
- General D-regions
Prevent critical failures in anchoring design
Apply concrete reinforcement, including edge-proximity conditions, cast-in plates, column pedestals, and non-standard foundation geometries.
- Use a single workflow to import base plates, anchors, and loads from Connection, perform anchoring design, and generate a report
- Produce accurate results using real reinforcement, stiffness, and shear transfer through anchors, shear lugs, and friction
- Use visual outputs to identify critical checks, design reinforcement, and evaluate stress and strain
CROSS-SECTION DESIGN
Whether you are designing building structures with a large number of standard cross-sections or working as a bridge engineer handling complex staged sections, IDEA StatiCa RCS supports you with:
- Reinforced concrete sections
- Prestressed cross-sections
- Composite or staged cross-sections
- 2D elements such as slabs, walls, and shells
- Cross-sections of general or irregular shapes
CONCRETE MEMBER DESIGN
Analyze, design, and perform code checks for concrete members of any shape and loading conditions. Use IDEA StatiCa Beam, IDEA StatiCa Member, and IDEA StatiCa Detail to generate a complete design report covering:
- Prestressed concrete beams
- Reinforced concrete members
- Beams with openings
- General shape frames
- Slender members
Design And Code-Check Any Shape
Go beyond traditional calculation methods for walls and D-regions and understand their real structural behavior. Design and code-check walls and D-regions in your concrete structures and obtain:
- Clear pass/fail results for any geometry
- Ready-made templates and DXF import options
- Import reinforcement and prestressing from the Beam app
- ULS checks – concrete and reinforcement strength, anchoring
- SLS checks – crack width and stress limitation checks
- Nonlinear deflection analysis
Design Steel-to-Concrete Anchoring in 3D
Design precise steel-to-concrete anchoring in 3D for any structural member, including edge-sensitive conditions. Optimize performance using real reinforcement, stiffness, and all types of shear transfer.
- Design anchoring between steel structures and concrete foundations, members, and walls
- Model the concrete block in 3D with actual reinforcement
- Evaluate shear transfer through anchors, shear lugs, and friction
- Apply Eurocode and AISC design checks for steel components, anchors, concrete, and reinforcement
- Identify stress flow mechanisms between concrete and reinforcing bars
CONCRETE MEMBER AND CROSS-SECTION DESIGN
Model, reinforce, and analyze concrete members and cross section of any shape design:
- Composite beams (Concrete-concrete)
- Composite and Staged sections
- Slender columns
- Post-tensioned structures
- General shape of cross section
- 2D elements – slabs, walls and shells.
Confidence in design through comprehensive results such as:
- Internal forces
- Prestressing losses
- Deflection and lateral torsion buckling
- Fire resistance check
- Stress limitation
- Torsion
- Shear Check
- Interaction
- Crack width check
STRUCTURAL DESIGN OF MEMBERS AND DETAILS
Identify critical concrete members, get necessary data from the analytical model, and prove buildability. Design reinforced and prestressed concrete members, walls, and details.
Designing MRT Viaduct, Singapore
IdeaStatica Concrete is used to design the MRT Viaduct super structure.
https://www.ideastatica.com/case-studies/designing-mrt-viaduct
