Staad Training Course
Available Staad Pro training courses in Dubai, Sharjah, Abu Dhabi and Ras Al Khaimah. Have a look at the available Staad Pro courses below. STAAD.Pro training by Multisoft Worldwide provides proficiency to work with STAAD.Pro software that is used to create virtual designs using a flexible modeling technique. STAAD Pro Courses, STAAD Pro Training, STAAD Pro Courses In Ambernath, Call: in Mumbai, Thane, Dombivli, Kalyan.
Overview: STAAD stands for Structural Analysis And Design. STAAD.Pro software is widely used in analyzing and designing structures – buildings, bridges, towers, transportation, industrial and utility structures.
Designs can involve building structures including culverts, petrochemical plants, tunnels, bridges, piles; and building materials like steel, concrete, timber, aluminum, and cold-formed steel. STAAD.Pro helps structural engineers automate their tasks by removing the tedious and long procedures of the manual methods.
Why should you learn? STAAD.Pro comes with flexible modeling environment, advanced features, and fluent data collaboration. It is the world’s number one structural analysis and design software that supports Indian and all international codes. STAAD.Pro allows structural engineers to analyze and design virtually any type of structure. Structural engineering firms, structural consultants, departments in construction companies, owner/operators, and government agencies, and offshore platform designers’ use this software extensively.
Learning Objectives: CADD Centre’s STAAD.Pro training covers all the steps involved in structural analysis and design of concrete and steel. We introduce you to STAAD.Pro’s state of the art user interface, visualization tools, powerful analysis and design engines with advanced finite element (FEM) and dynamic analysis capabilities. Some of the features that we focus in training include: Model Generation Interactive menu-driven model generation with simultaneous 3D display 2Dand 3D graphic generation using rectangular or polar coordinate systems Segments of repetitive geometry used to generate complex structural models Model Verification 2D/3D drawings on screen as well as on plotter/printer Full 3D shapes for frames, elements Isometric or any rotations for full 3D viewing Static Analysis 2D/3D analysis based on state-of-the-art Matrix method to handle extremely large job. Linear, p-delta analysis, non-linear analysis with automatic load and stiffness correction. Dynamic/Seismic Analysis Mass modeling, extraction of frequency and mode shapes Response spectrum, time history analysis Modal damping ratio for individual models Secondary Analysis Finite element capabilities, steel design, concrete design, and timber design. Forces and displacements at sections between nodes. Maximum and minimum force envelopes.
Learning Outcome:. You will know how to complete object-oriented intuitive 2D/3D graphic model generation.
Course Description This course provides an overall look over STAAD Pro 2005. It demonstrates the steps to be followed to produce the structural analysis of many types of buildings. Also the course concentrates over the different results generated from the program, and how to read them, view them, and finally generate the necessary reports from them.
At the completion of this course, the trainee will be able to:. Understand how the multipurpose finite element programs conduct the structural analysis. Understand STAAD Pro way of doing the job. Understand STAAD Pro way of pre processing the job. Creating the geometry using different methods.
Use more advanced technique in creating geometry. Understand STAAD Pro element library.
Defining the Cross-Sections of Beams, Columns, Plates. Defining the Constants, Specifications, and Supports. Defining the Load Systems.
Analyzing your Model using the appropriate Analysis method. Reviewing the Analysis Results Course Objective This course is intended to overview modern procedures for the structural analysis using different software.
Staad Training Classes
The course may be attended by civil engineers involved in design. Each participant may draw on the elements of the course that most complement his area of interest and practice.
For those engineers with limited design experience, the course will provide ample illustration of real structures that may assist the designer to understand STAAD Pro and apply it on different types of buildings. Different types of editing data to STAAD Pro will be discussed, and the easiest way to deal with it will be reached. The wide range of issues to be discussed, revolve around the use of STAAD Pro in structural Analysis of different types of structures. The examples to be used would vary from the typical two-dimensional beams and frames to the three-dimensional multistory frames to special systems such as space frames and three-dimensional slabs and raft foundations.
Staad Training Center
Throughout the course, the instructor shall start from the basics to allow to ensure the full participation and comprehension of all attendant, bearing in mind variations in background from education to practice. Course Outline.
The stiffness method as an introduction to finite element method. The finite element method used by most of the used software. Install hp psc 1410 all-in-one printer. Presentation of some available multi-purpose finite element computer packages used in design market. Introduction to STAAD Pro 2005, computer requirements and size. Different methods of analysis. Creating a new file with STAAD Pro, 2005.
Recognizing STAAD Pro, screen (Menu bar, tool bar, title bar, modes etc. Dealing with an existing file. Geometry. This module contains:. Understanding STAAD Pro way. Defining Nodes, Beams, and Plates. Arrangement of input file.
Using Structure Wizard to create Geometry. using drafting to create Geometry. Using Copy/Cut with Paste to create Geometry. Using Spreadsheet to create Geometry. Using DXF importing to create Geometry. Analysis of two-dimensional continuous beams.
Loads affecting beam elements. Analysis of two-dimensional frames and trusses. Loads affecting frames. Analysis of three-dimensional frames and trusses. Loads affecting frames and trusses. Analysis of plate elements (slabs, flat slabs).
Loads affecting plate elements. Dealing with output data.