What you'll learnPrepare a Structural Masonry Project (All the process)
structural analyisis
structural design
csi etabs software for structural projects
RequirementsInterest in the calculation of Structural Masonry
bim modelers
csi etabs users
civil and structural engineers
DescriptionStructural Masonry with ETABS 17.0.1The course consists of the advanced theoretical and practical development of Structural Masonry Walls. Everything related to the regulations will be explained in detail: Regulation for Design and Construction of Buildings in Structural Masonry R-027.#AulaGEOThe example prescribed by the aforementioned regulations will be developed, with the intention that the participant deeply understands the philosophy of the R-027 standard, all of the latter through an Excel table that will be provided to the participant.In addition, the phenomenon of (Short column effect) will be explained where we will see that this phenomenon is applied in Masonry Walls and has to be handled with great caution in projects.Two steel area allocation methods will be explained in the most advanced software on the market in ETABS 17.0.1 Structural Calculation, where the results of the software will be verified manually.The solution to the torsion of beams that connect Structural Masonry Walls will be presentedWith all these concepts in mind the participants will be able to start a project with the Structural Masonry MethodologyModule 1Design by cut in Wall, Optimize the Wall, Detailed Wall, Design of Wall, Designer of Sections, Design of Beam, Design of Foundations.Module 2Project Presentation, Definition of Materials, Definition of Cracked Masonry Walls, Slab Drawing, Stair Drawing, Load Assignment, Definition of Design Spectrum P1Module 3R-001 Excel Design Spectrum, R-001 ETABS Design Spectrum, Discretionary Earthquake X and Y Combinations, Masonry Wall Drawing, Rigid Diaphragm, Rigidity Center Correction.Module 4Center of Stiffness Correction, Wall Capacity Demand, Static Vs Dynamic Cut, Drift Calculation, Floor Slab Mesh, Dead Load Adjustment.Module 5Diaphragm and Participatory Mass Correction, Drawing of Foundations, Meshing of Walls, Meshing of Foundations, Allocation of Ground Foundations, Meshing of Ceiling.Module 6Ceiling Mesh, Modal Analysis and Basal Cut, Dead Load Reduction, Failure Correction in Walls, ETABS Edge Member.Module 7Design by cut in Wall, Optimize the Wall, Detailed Wall, Design of Wall, Designer of Sections, Design of Beam, Design of Foundations.The AulaGeo team worked hard on this course. It was developed in Spanish by Orozco, voiced by Gabriella for English speaking students.
OverviewSection 1: Section 1
Lecture 1 Introduction
Lecture 2 Theoretical-Practical Example Standard R-027 P1
Lecture 3 Theoretical-Practical Example Standard R-027 P2
Lecture 4 Theoretical-Practical Example Standard R-027 P3
Lecture 5 Introduction of Steel to ETABS Method1
Lecture 6 Introduction of Steel to ETABS Method 1 P1
Lecture 7 Introduction of Steel to ETABS Method 1 P2
Lecture 8 Introduction of Steel to ETABS Method2
Lecture 9 Comparison Method 1 Vs Method 2 in ETABS
Lecture 10 Short column effect theory on walls
Lecture 11 Short column effect theory in ETABS walls
Lecture 12 Torsion Correction on ETABS Beams
Section 2: Section 2
Lecture 13 Introduction
Lecture 14 2. Presentation of Project and Units in ETABS
Lecture 15 3. Material Properties and Wall Thickness in ETABS
Lecture 16 4. Factor System Cd, and Minoration Factors ETABS
Lecture 17 5. ETABS Housing Drawing
Lecture 18 6. ETABS Stair Drawing
Lecture 19 7. Drawing of Interfloor Slab, and Assignment of Loads
Lecture 20 8. Roof Slab Drawing, and Load Assignment
Lecture 21 9. Design Spectrum R-001 P1
Section 3: Section 3
Lecture 22 Introduction
Lecture 23 2. Design Spectrum R-001 P2
Lecture 24 3. Design Spectrum R-001 P3
Lecture 25 4. Design Spectrum R-001 ETABS
Lecture 26 5. Directional combinations Earthquake X and Y ETABS
Lecture 27 6. Combinations of Loads R-001 ETABS
Lecture 28 7. ETABS Wall Drawing
Lecture 29 8. Drawing of Wall and Rigid Diaphragm
Lecture 30 9. Rigidity Center Correction P1
Section 4: Section 4
Lecture 31 1. Introduction
Lecture 32 2. P2 Stiffness Center Correction
Lecture 33 3. P3 Stiffness Center Correction
Lecture 34 4. P4 Stiffness Center Correction
Lecture 35 5. Walls capacity demand
Lecture 36 6. Static Vs Dynamic Cut
Lecture 37 7. Drift Calculation
Lecture 38 8. Slab Mesh Floor
Lecture 39 9. Dead Load Adjustment
Section 5: Section 5
Lecture 40 Introduction
Lecture 41 2. Diaphragm and Participatory Mass Correction
Lecture 42 3. Foundations Drawing
Lecture 43 4. P1 Wall Mesh
Lecture 44 5. P2 Wall Mesh
Lecture 45 6. Foundation Meshing
Lecture 46 7. Soil Allocation Foundations
Lecture 47 8. Ceiling Mesh P1
Lecture 48 9. Ceiling Mesh P2
Section 6: Section 6
Lecture 49 Introduction
Lecture 50 2. P3 Ceiling Mesh
Lecture 51 3. P4 Ceiling Mesh
Lecture 52 4. Modal Analysis and Basal Cut
Lecture 53 5. Dead Load Reduction
Lecture 54 6. Wall Fault Correction
Lecture 55 7. Design and Detailing of P1 Wall
Lecture 56 8. Design and Detailing of P2 Wall
Lecture 57 9. Design and Detailing of P3 Wall
Section 7: Section 7
Lecture 58 Introduction
Lecture 59 2. P4 Wall Design and Detailing
Lecture 60 3. P5 Wall Design and Detailing
Lecture 61 4. Design by Cut and Detailed Wall
Lecture 62 5. Beam Design
Lecture 63 6. Foundation Design
Lecture 64 Foundation Design P2
Engineering students, Engineers with or without experience, and Architects.
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