Course topics of reinforced concrete structures design course

Course headings of reinforced concrete structures design course:

Preliminary course:

Familiarization with commonly used AutoCAD commands

The initial shooting of the floors based on the architectural plan

Understanding seismic systems and choosing the right system 

Creating a new file in ETABS software 

Defining the geometry of complex structures in ETABS 

Definition of materials – concrete cross-section and common roofs based on regulatory and executive restrictions

Allocation of sections and ceilings 

Fix software errors during drawing

Definition of end rigid regions and rigid and semi-rigid diaphragm

Introduction of cracking coefficients in different situations 

Definition and application of surface and linear dead loads according to the sixth topic of the new edition along with the review of implementation details

Interpretation, definition and application of surface and linear live loads according to the sixth topic of the new edition

Interpretation, definition and application of earthquake vertical loads

Interpretation, definition and application of Mass

Examining the by-laws clause of the modeling of the barn

Applying the point load of the effective seismic weight of the truss

Interpretation and partition load states

Interpretation, calculation and application of earthquake coefficient based on 2800 regulations

Interpretation and calculation of dynamic earthquake and introduction of earthquake spectra 

Interpretation of snow load and conditions of its application

Interpreting regulations and creating load combinations in different situations

Analysis settings of pi-delta coefficients according to regulations

Investigation of twisting irregularity and fines of the regulations and tricks of not considering the fines of the regulations

Controlling the number of oscillation modes, and checking the spectral analysis requirements

Co-basing dynamic base cut with equivalent static

Examining and interpreting the uncertain coefficient and the conditions of its application according to the regulations

Choosing regulations and applying its coefficients

Designing beams and controlling the results manually based on the new regulation of topic 9

Designing the columns and controlling the results manually based on the regulations of the new topic 9

Interpretation of design results 

Relative lateral displacement control and control tricks 

Thermal analysis

Review of other regulatory controls

Section optimization

Preparation of map outputs and preparation of calculation notebooks

Parno software training, drawing and documenting structural maps

Advanced course:

Retaining wall modeling, calculating and assigning soil pressure to retaining walls 

Retaining wall design

Implementation considerations of beams buried in concrete walls 

Optimization and typing of linear elements

Modeling, shear wall meshing 

Investigating the cracking condition of the walls 

Shear wall design and analysis of design results 

Openable shear wall design

Modeling and design of structural ramps

Concrete slab roof modeling and loading

Regulatory settings and controls

Roof riser control 

Design of ceiling reinforcements 

Punch cutting control in flat slab

To see examples of completed projects and participate in this course, touch the links below