POST GRADUATE PROGRAM IN APPLIED STRUCTURAL DESIGNING (PGPASD)

• Courses syllabus is as per industry standards
• Our Faculties have more than 12+ year industrial experience
• Printed Study Materials
• Audio and Video tutorials
• All Courses are based upon Real Projects
• 100% Job oriented training program
• Accommodation is available for outstation candidates
• Career Counselling & Guidance

(RCC+STEEL)

Indian Codes

IS- 456 2000
IS -800:2007
IS-1893 2016
SP- 13920
IS- 16700
IS 875
SP-16
IS- 875:2015
IS- 808
SP-6

International Codes

BS 8110
ACI 318
CEBFIP 2010
UBC 97
SP17
ASCE-7-05
ASCE-7-02
EN 1992
AISC 360-16
AISC 314-16

PGPASD Course is a incubator for a graduate to become professional Structural Engineer and
hence all systems and policies are set accordingly. Students are informed to refer the academic
calendar. Entire program consists of around 180 days including coursework days, holidays
and Sundays. Students shall maintain good attendance to be eligible to pass each level and to get full benefit of the program and final certificate.

Course Work:

The list of courses to be studied module wise is mentioned in Course Structure. Teaching schedule
and hours may vary depending upon other demands on students and teachers. Typically, a full course
involves 150 to 180 hours of teaching. There is total 1 class test per module. The distribution for
course work and specialization is shown below. Marks are converted finally into grades. Assessment
of skills is the focus in this course. Tests are conducted in most apt format such as written, oral,
presentation, group discussion or even activity based / case study based evaluation.

All submissions shall be submitted by students from their personal mail id to Google drive shared with
students by faculties. All test papers shall be submitted back to the institute as an official record for
audit. If misplaced by the student, either he has to rewrite it and submit or make an affidavit for it.

Modules Included:

CPSE 01
SOFTWARE TRAINING (RCC)
CPSE 02
FUNDAMENTALS OF STRUCTURAL ANALYSIS & DESIGN
CPSE 03
STRUCTURAL PLANNING AND ANALYSIS
CPSE 04
MANUAL LOAD CALCULATION AND DESIGN
CPSE 05
PREPARATION OF STRUCTURAL DRAWINGS IN CAD
CPSE 06
PREPARATION OF STRUCTURAL DESIGN BASIS REPORT
CPSE 07
DESIGN OF STEEL STRUCTURES
CPSE 08
STRUCTURAL DESIGNING SOFTWARE TRAINING
CPSE 09
LIVE PROJECTS ON STRUCTURAL STEEL

MODULE 1 - SOFTWARE TRAINING 

INTRODUCTION AND MODELLING

• Introduction
• Objectives
• File Operation
• Software Windows / Floor
• Information
• Creating Basic Grid System
• Defining Storey Data
• Adding Structural Objects Using
• Templates \Manual
• View Selection & Options

Material , Section properties and draw options

• Material Properties
• Section Properties
• Wall Slab Section Properties
• Drawing Of Line ,Point And Area Objects
• Editing Tools For Objects

Assignment structural options

• Point Object
• Line Object
• Area Object
• Assignment Loads

Assignment of load case

• Dead load
• Live load
• Earthquake load
• Wind loads
• Load combinations

Analysis and output

• Response spectrum method
• Static pushover analysis
• Time history analysis
• Results & Graphical Output (Analysis Output )
• Editing
• Text Input And File Exports /Imports

Design of RCC members

• Assigning Design Parameters As Per Is 456
• Study Of Design Summary Results In Terms Of Percentage Of Reinforcement And Area Of Steel
• Preparation Of Design Reports
• Design Of Shear wall
• Detailing of Rcc members
• Design of isolated footing
• Design of combined footing
• Design of raft/mat footing
• Checking footing for punching shear
• Program Syllabus
• Design of slabs
• Design of flat slabs
• Detailing of footings and slabs
• Import and export 

Importing and exporting option

• Importing CAD to Analysis software
• Exporting structural models to CAD

LIVE PROJECT

• Practical design on live project

MODULE 2 - FUNDAMENTALS OF STRUCTURAL ANALYSIS AND DESIGN

Methods of Rcc design

• Working stress method
• Ultimate load method
• Limit state method

PROPERTIES OF MATERIALS

• Concrete
• Steel (rebar)

BASIC CONCEPTS OF STRUCTURE ANALYSIS AND DESIGN

• Types of loads
• Type of support conditions
• Concept of SFD
• Concept of BMD
• Codal provision of beams
• Codal provision of columns
• Codal provision of slabs
• Codal provision of foundations
• Codal provision of staircase

MODULE 3 - STRUCTURAL PLANNING and ANALYSIS

• Studying of architectural plans
• Position and orientation of columns
• Positioning of beams
• Spanning of slabs
• Layouts of stairs
• Selecting proper type of footing
• Types of analysis methods
• Concept of kanis method
• Analysis of frame using kanis method

MODULE 4 - MANUAL LOAD CALCULATION AND DESIGN

MANUAL LOAD CALCULATIONS

• Load calculation on beams
• Load calculation on columns
• Load calculation on slabs

MANUAL DESIGNING OF RCC ELEMENTS

• Manual design of beams
• Manual design of column
• Manual design of slabs
• Manual design of footing
• Manual design of staircase

MODULE 5 - PREPARATION OF STRUCTURAL DRAWINGS IN CAD

• Footing Layout Plan
• Column Layout Plan
• Plinth Beam Layout plan
• Plinth Beam Details
• Slab Layout Plan
• Slab Section Details
• Column Details
• Roof Beam Layout Plan
• Roof Beam Details
• Staircase Layout Plan & Details

MODULE 6 - PREPARATION OF STRUCTURAL DESIGN BASIS REPORT

• Preparation Of DBR
• Introduction
• Description of Project
• Structural System
• Design Loads
• Gravity Loads
• Lateral Loads
• Load Combination
• Live Load reduction
• Deflection and Drift Limits
• Miscellaneous Design Criteria
• Material Strengths
• Structure modeling &Computer
• Programs
• Design Standards and References
   Units

MODULE 7 - INTRODUCTION TO STRUCTURAL STEEL DESIGN

·        Various steel sections

·        Computational of loads for different designs such as ASD and LRFG

·        How and why steel structures fail

·        Techniques to get an acceptable level of safety easily

·        Building specifications and codes

·        Review of basic civil and analysis structure

MODULE 8 - STEEL BEAMS DESIGN

·        Beams and their definitions

·        Design of beams

·        Axial and bending tension subjection and endurance

·        Deflection in beams design

·        Using different software for simulation

·        Beam columns design

·        Code design procedure

·        Equivalent moment factor

·        Tension and bending forces on beam columns

·        Eccentrically loaded beams design

·        Nominal strength

MODULE 9 -STEEL CONNECTIONS

·        Fillet welds design

·        How joints that have bolts handle shear tension

·        Introduction to steel welds and their types

·        Tension loads and their effect on bolted joints

·        Bolted connections

·        Eccentric connections

·        Welded connections

MODULE 10 - ANALYSIS OF COMPRESSION MEMBERS

·        Euler formula in steel design

·        Intermediate column formulas

·        Long column formulas

·        Short column formulas

·        Failure modes

·        Elastic buckling of slender

·        Classification of the cross-section

·        Displacements

·        Single angle struts

·        The effective length of compression members

·        Compression members are composed of two components

MODULE 11 - DESIGN OF COMPRESSION MEMBERS

·        Built-up columns

·        Base plates best designs for concentrically loaded columns

·        Column splices design

·        AISC best designs tables

·        Single angle compression members

·        Lacing and batten systems

·        Compression members structure

MODULE 12 - COMPOSITE SECTIONS

·        Composite constructions

·        Concrete encased section designs

·        Flexural strength

·        Composite section moment capacity

·        Composite section defections

·        Cover plated beams

·        Pan floors are an example of composite concrete and floors

MODULE 13 - STEEL BUILDING

·        Roof construction types

·        Steel roofs

·        Interior partitions using steel

·        Exterior walls steel design

·        Structural steel designs

·        Fireproofing of steel buildings

MODULE 14 - ADVANTAGES & DISADVANTAGES OF STRUCTURAL STEEL DESIGN

·        Limit state design

·        Lateral torsional buckling LTB

·        Design resistance and how it affects general strength

·        Stress calculations

·        Advantages of steel designs

·        Disadvantages of steel design

MODULE 15 - STRESS & RESISTANCE

·        Stress concentration

·        Fatigues resistance

·        Corrosion resistance

·        Structural steel products

·        Fabrication and erection

·        Residual stress

MODULE 16 - DESIGN OF PLATE GIRDERS

·        Web panel sheer exposure

·        Plate girders

·        Girder components welding

·        General considerations

·        Using ISO 800:2007 to design girders

·        The behaviour of transverse web stiffness

·        Loading considerations

·        Fatigue effects

·        Maximum load effects

Projects covered: One PEB Commercial Building & One Industrial PEB Structure

Pay and Book your seat by paying ₹ 1000/- as registration fees. For course Fees, Kindly! Contact Us.

Trainees earn the EDGE-SCOM Internationally Accredited Certification from CPD, United Kingdom after completing the program requirements which are designed and developed in compliance with international standards and ongoing update based not only on the latest international principles and practices, but also field research first-hand experience, and in-depth knowledge of the market and the specific requirements of organizations.

Trainees will also get 720 CPD documented hours & the certification can be easily verified by employers on their LinkedIn profiles which makes their profile stand out from the rest.