STRUCTURAL DESIGNING SOFTWARE COURSES

BASIC COURSE

Course duration 16 hours.

» Structural Analysis - Introduction

» Reading Architectural Drawings

» Introduction

» Creation of Basic Geometry

» Support Conditions

» SFD, BMD of simple beams / continuous beams / frames

» Identification of Column locations in building

» Creation of Grids

» Preparation of Basic Framing

» Section Properties: RC, Steel

» Structure Wizard

» Member Selection & Grouping

» Primary Load Cases & Load Combinations

» Analysis of Structure

» Creation of Simple Building Model

» Using utilities for member selection & member grouping

» Creating Primary Load Cases & Load Combinations

» Structural Analysis & Results

» Introduction to Wind Load

» Introduction to Seismic Load

» Application of Wind Load in Building (Basic only)

» Application of Seismic Load in Building (Basic only)

» Considerations for RC Structures

: Master - Slave Specifications

: Cracked Moment of Inertia

: Member Offset

» Creating typical RC building

» Considerations for Steel Structures

: Shear Connections Vs Moment Connections

: Plan Bracing & Vertical Bracing

» Creating typical Steel building

» Design of RC Structure by IS 456

: Codal Requirements

: Member Parameters for Design

: Design & Interpretation of Results

» Designing typical Steel Building

Course duration 24 hours.

» Wind Loading on Structure

» Force Coefficient Method

» Gust Factor Method

» Wind Loads on Residential Building

» Wind Loads on closed structure

» Wind Loads on open structures

» Creation of Simple Building Model

» Manual application for wind loads

» Wind load on open structures

» Basics of Seismic Analysis

» Seismic loads on Structure

» Equivalent Static method of seismic analysis

» Response Spectrum method of seismic analysis

» Interpretation of Results

» Load Combinations for wind / seismic

» Effect of SRSS on support reactions

» Generating combinations of wind / seismic

» Modifications of support reactions for SRSS

» Introduction to Structural design using IS456

» Design of Raft Foundations

: Typical Procedure

Reading Bearing Pressure

Reading Shear / Bending Stresses

: Using results for raft design

» Extraction of Results from superstructure

» Modeling of Substructure design of Raft Foundations

» Meshing

» Application of Forces

» Extraction of Results from substructure analysis

» Designing Raft

ADVANCED COURSE

BASIC COURSE

Course duration 16 hours.

» Bridge Types - Introduction

» Introduction

» Introduction to Tree Menu

» Introduction to Various Top Menu Tab

» Introduction to Bottom Task Bar Tab

» Frequently Used Command Significance

» Creation of Basic Geometry

» Material Properties

» Section Properties: RC, Steel

» Structure Wizard

» Member Selection & Grouping

» Support Conditions

» Fixed Supports

» Spring Supports

» Elastic Link Concepts

» Rigid Link Concepts

» Primary Load Cases & Load Combinations

» Introduction to Static Loads

» Introduction to Pre-Stress Loads

» Introduction to Moving Loads

» Introduction to Dynamic Loads

» Introduction to Wind Loads

» Introduction to Seismic Loads

» Application of Wind Load in Bridge (Basic only)

» Application of Seismic Load in Bridge (Basic only)

» Creating typical PSC I-Girder Composite Bridge

» Analysis of Structure

Course duration 24 hours.

» Generating model

» Material properties

: Elastic Materials

: Plastic Materials (Properties)

: Time Dependent Material Properties

» Defining section

» Creating nodes

: Node Creation

: Element Creation

: Preparation of Model from Structure Wizard

: Element Generation from Autocad

» Creating elements

: Types of Elements

: Line Elements

» Node translation

» Renumbering nodes and elements

: Explanation of Top and Bottom Toolbar

: Overview of Frequently Used Commands

» Change element properties

» Define taper groups

» Group define

: Boundary Group

: Structure Group

» Assigning structure group

» Support definition

: Fixed Boundary

: Elastic Link

: Rigid Links

» Defining loads

: Various Static Loads

: Dynamic Loads (Wind Loads & Earthquake Loads)

» Moving load analysis

» Construction stage analysis

» Perform analysis

ADVANCED COURSE

About

CONTACT DETAILS :

Uday A. Shikhare (M.Tech - Structural Dynamics, IITR)PartnerMobile: +91 9975289777 / +91 7738296233

Tushar V. Sable (PGD-ACM, NICMAR Pune)PartnerMobile: +91 9922717687

Email : richterengg@gmail.comVisit Us at : www.richtercorp.in