Model Definition in STKO

#W03

Model Definition in STKO

More Beginner Courses

#W01

Introduction

Introduction to OpenSees

#W02

Introduction

Introduction to STKO

#W04

Theory

Geometries - Interactions - Selection Sets - Local Axes

#W05

Theory

Physical Properties

#W06

Theory

Element Properties

#W07

Theory

Definitions and Conditions

#W08

Theory

Mesh and Analysis

#W09

Theory

Analyses Command - part 1 and 2

#W10

Theory

Analyses Command - part 3 and 4

#W11

Theory

Postprocessor - Visualizing Results

#W12

Modeling

Linear Static Analysis

#W13

Theory

Material and Geometric Nonlinearities - RC Structures

#W14

Theory

Modeling Approaches to Plasticity - RC Structures

#W15

Modeling

Nonlinear Static Analysis - Pushover

#W16

Theory

Nonlinear Dynamic Analysis - Time History

#W17

Theory

Modal Analysis and Response Spectrum

#W18

Modeling

3D Frame Structures - RC - part 1

#W19

Theory

3D Frame Structures - Steel - part 2

#W20

Modeling

3D Frame Structures - Masonry - part 3

Detailed presentation of the pre and post processor interface

Description of the workflow commands input (work tree, toolbar, navigation menu, terminal)

Quick toolbar

Keyboard and mouse commands

X-objects and indexing

Navigation, visualization, quick toolbar tools

Color coding of properties

Shortcut keys + generic tips

STKO-OpenSees parallelism

Model overview of a 3D elastic frame structure and addition of nonlinearities
Concepts of FEM

Week 1 - Introduction to OpenSees

Week 2 - Introduction to STKO

Installation of STKO on your computer
Powerpoint presentation

ex4.scd: complete 3D elastic frame structure, gravity and eigenvalues analysis under distributed loading, use of surfaceLoad automatism

ex5.scd: complete 3D nonlinear fiber frame structure, with distributed plasticity, gravity, eigenvalues and pushover analysis

utils_2.py: Python file for assigning GJ to fiber sections

Modeling