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Master Study in Structural Engineering

Course details

Structural engineering course

Graduates and practicing engineers are the target audience for our Advanced Master of Structural Engineering program. It's meant to help you learn more about structural and foundation engineering. With the help of a variety of employers in the industry, the degree has been designed and implemented. As a result, the course has a strong connection to the engineering industry. Staff research, including experimental, numerical, and theoretical work, is also directly incorporated into the course. Additionally, you'll get full use of the school's cutting-edge computer and networking resources. Structural engineering is the study of buildings and their supporting structures. Best civil engineering institute of Structural engineering coureses online in india  The 'bones' and load-bearing elements of man-made structures are safely designed using the rules of physics, mathematics, and empirical knowledge in structural engineering. There is a broad and precise body of knowledge in structural engineering that can reliably anticipate the performance of different shapes and materials used in structures to resist loads and stresses. Ancient Egyptian and Greek architects and engineers applied structural engineering techniques in the construction of the Great Pyramids and the Acropolis. We are one of the best civil engineering training center in Delhi for students who are looking for a career in the civil industry at Sarthi Design. structural engineering online design for the student our institute, students and working professionals can learn 100% job-oriented courses for civil engineering. The study of Civil Engineering course involves developing the practical skills required for planning, designing, and implementing construction projects

Masters in structural engineering in india

Structural Engineering's Course program provides excellent preparation for work in a wide range of industries, including consulting and contracting engineers, public and local governments, and other construction firms. In addition, the course serves as a good starting point for graduates who want to work in a research-oriented field. With Our Online Masters in structural engineering in India  , you can reach your goals. It is the job of structural design support to make sure the infrastructure used to construct a building is capable of providing the necessary details, such as the type of roof and the number of steel beams and walls and suspension bridges to be used. Static and dynamic loading can be used to test a structure's capacity and stability, as well as its ability to anticipate safety. This portion also ensures that the construction of the structure is done in a manner that protects the safety and security of the workers. Additionally, the design process is made easier and safer for visitors and customers by using this method. For example, builders can use this domain to determine how much chalk out material is needed, how effective the design is and how much money it will cost, all of which will help them better utilize their resources. Structural engineers use math and physics ideas to analyze structures and map out the best potential design solutions in order to achieve their goals. Consider using our offers on assignment writing services if you need help with your assignments and are interested in getting good scores, or you can keep track of the most significant facts

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Achieve Your Goals With Our Online Master Degree

This program is designed for civil engineering graduates who want to specialize in master in structural engineering 

Eligibility b.tech / ITI surveyor or any graduate

3 TO 6 MONTH  DURATION 

Offline / Online 

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Student Placement

Syllabus of Structural Engineering

OUR COURSES

INTRODUCTION TO ETABS:-

1. Software algorithm

2. capabilities of the software

3. strength and weaknesses of the software

4. ETABS manual

5. significance of menu buttons and icons

6. sample model and templates

7. Hands-on software on sample templates

Modeling: process and techniques

1. Geometry creation process

2. modeling through import method:2D import,3D import

3. other import techniques

4. property assignment through automation of existing templates

5.loadings:dead,live,wind,earthquake,temperature,live load reduction

6.details of wind tunnel & its loadings,standardization of wind model & ETABS model

7.Releases,diaphragms,all definition parameters

8. checks on modeling techniques

9. modeling of steel &composite structure

10. Hands-on software to perform the modeling process and techniques

ANALYSIS: PROCESS AND TECHNIQUES

1. Static analysis

2. Dynamic analysis

3. second-order p-delta analysis

4. sequential analysis

5. Time history analysis

6. significance of each analysis and its uses

7.checks on lateral stability,deflection,storey drift,torsional irregularity,mass irregularity and stiffness irregularity

8. hands-on software to perform the analysis and its checks

DESIGN: METHODS AND TECHNIQUES

1. Design of column and beams: methodology & limitations

2. Design of composite columns

3. design of walls & slabs

INTRODUCTION, MODELLING PROCESS, AND TECHNIQUES

1. Introduction to the various complexities like geometrical complexity, code-based complexities, structural engineering fundamental based complexity

2. Introduction to the stiffness modification factors for various elements of the building

3. introduction of the complex modeling techniques

4. modeling of various types of composite columns

5. modeling with insertion point and its significance

ANALYSIS: PROCESS AND TECHNIQUES

1. Different types of complexities in the project and how to deal with them efficiently

2. stiffness modification factor for the various building elements and their uses and application along with the codal norms

3. International norms for highrise building analysis and design

4. Gust factor analysis for the application of wind load on the tall building

5. wind tunnel analysis and its use in a highrise building

6. highrise committee norms, their structural significance, its optimization, and reporting

7. why non-linear(buckling, creep, and shrinkage)analysis is important for highrise buildings? when to perform, how to perform, and what are the parameters to be considered practically.

8. model analysis: study and its use in model dynamics time history analysis

9. vibration analysis and its use in the steel structure

10. energy v/s virtual work diagrams.its application and use

11. Modelling of composite structure, analysis, and design techniques

12. Torsional irregularity and orthogonal axis analysis and its application

13. soft story checks and their application using various codes

DESIGN OF STRUCTURAL ELEMENTS

1. Design of columns, beams, slabs, shear wall,transfer slabs, and brace elements

2. structural design optimization after all advanced analysis 

 

  SAFE

1. Software algorithm

2. capabilities of the software

3. strength and weakness of the software

4. SAFE manual

5. significance of menu buttons and icons

6. sample models and templates

7. hands-on experience on sample templates

MODELLING: PROCESS AND TECHNIQUES

1. Geometry creation process

2. modeling through import methods

3.combined,complex foundation system

4. modeling of foundations, basements,footings, and flat slabs

5. property assignment of rigid zones for walls and ramps

6. usage of insertion point for beams and columns

7. property assignment for spring supports

8. uses of design strips

9. definition of post-tensioning in slabs

10. tendon load and its losses

11.loading:dead,live,wind,earthquake,temperature,notional,live load reduction

12.releases,supports,diaphragms,all definition parameters

13. checks on modeling techniques

ANALYSIS: PROCESS AND TECHNIQUES

1. Introduction between ETABS and SAFE

2. Soil structure and interaction

3. checks on a foundation system

a.Deflection

i.short term deflection

ii. long term deflection considering creep

b.crack width

c.Punching shear

i.one-way shear

ii. two-way shear

d.Reinforcement checks

4. Differential settlement of foundation and its control

5. Nonlinear analysis by considering long term creep

6. Nonlinear analysis for cracked conditions

7. Analysis of flat slab

8. Checks on a foundation system and flat slabs against lateral forces (static/dynamic)

9. significance of each analysis and its uses using various codes

DESIGN: METHODS AND TECHNIQUES

1. Design of stirrups

2. design of slabs based on finite element method

3. design of raft & pile foundations

4. design methodology

5. design of punching shear reinforcement

6. flat slabs with post-tensioning

7. check on post-tensioning stress

8. Generating output & display of deformed geometry

9. detailing & reporting techniques

10. codes & software interaction by considering national and international codes

  SAFE

1. Software algorithm

2. capabilities of the software

3. strength and weakness of the software

4. SAFE manual

5. significance of menu buttons and icons

6. sample models and templates

7. hands-on experience on sample templates

MODELLING: PROCESS AND TECHNIQUES

1. Geometry creation process

2. modeling through import methods

3.combined,complex foundation system

4. modeling of foundations, basements,footings, and flat slabs

5. property assignment of rigid zones for walls and ramps

6. usage of insertion point for beams and columns

7. property assignment for spring supports

8. uses of design strips

9. definition of post-tensioning in slabs

10. tendon load and its losses

11.loading:dead,live,wind,earthquake,temperature,notional,live load reduction

12.releases,supports,diaphragms,all definition parameters

13. checks on modeling techniques

ANALYSIS: PROCESS AND TECHNIQUES

1. Introduction between ETABS and SAFE

2. Soil structure and interaction

3. checks on a foundation system

a.Deflection

i.short term deflection

ii. long term deflection considering creep

b.crack width

c.Punching shear

i.one-way shear

ii. two-way shear

d.Reinforcement checks

4. Differential settlement of foundation and its control

5. Nonlinear analysis by considering long term creep

6. Nonlinear analysis for cracked conditions

7. Analysis of flat slab

8. Checks on a foundation system and flat slabs against lateral forces (static/dynamic)

9. significance of each analysis and its uses using various codes

DESIGN: METHODS AND TECHNIQUES

1. Design of stirrups

2. design of slabs based on finite element method

3. design of raft & pile foundations

4. design methodology

5. design of punching shear reinforcement

6. flat slabs with post-tensioning

7. check on post-tensioning stress

8. Generating output & display of deformed geometry

9. detailing & reporting techniques

10. codes & software interaction by considering national and international codes

 

SAP2000

INTRODUCTION THEORY

1. Software algorithm

2. capabilities of the software

3. strengths and weakness of the software

4.SAP2000 manual

5. significance of menu buttons and icons

MODELLING: PROCESS AND TECHNIQUES

1. Creation of geometry for beams

2.creation of sloped,vertical & pratt truss

3. combined, complex modeling of roof truss, transmission tower & guyed tower

4.modelling of portal,braced(concentric & eccentric) frames

5. Modelling of open frame building, perimeter frame building, and beam slab building frames

6. modeling of flat slabs and walls

7.complex modeling of cylinder,barrel shell,multi bay cylindrical shell,hyperbolic,paraboloid,partial sphere,spherical dome,parabolic dome

8. creation of dog-legged & spiral staircases

9. modeling of overhead tank, underground tank & storage silos

10.creation of geometry for complex thick arch,variable arch,prism & block models

11.loading:dead,super dead,live,wind,earthquake & live load reduction

12.Releases,supports,diaphragms.all definition parameters

13. checks on modeling techniques

14. oceanic engineering for offshore structures analysis and design

ANALYSIS: PROCESS AND TECHNIQUES

1. Interaction between AUTOCAD and SAP2000

2. Discussion on the thermal conductivity matrix analysis and its requirement for various structures like chimneys etc.

3. checks on underground structures

a.deflection

i.short term deflection

ii.pressure bulb for t/c reinforcement

b.crack width

c.reinforcement checks

4. linear & nonlinear, static and dynamic analysis(time history, pushover performance-based design, etc)

5. nonlinear staged, static construction analysis

6. significance of each analysis and its uses using various codes

DESIGN: METHODS AND TECHNIQUES

1. Design of steel structures

2. design of concrete structures

3. output & display of deformed geometry

4. detailing & reporting techniques

5.codes & software interaction by considering national & international codes

CSI BRIDGE DESIGN

INTRODUCTION TO THE SOFTWARE

1. Software algorithm

2. capabilities of the software

3. strength and weaknesses of the software

4. CSI bridge manual

5. significance of menu buttons and icons

6. sample models and templates

MODELLING: PROCESS AND TECHNIQUES

1. Create a concrete box girder bridge

2. Bridge wizard

3. Layout line

4. deck section

5. bridge object

6. Parametric variation

7. bridge object assignment

8. load the bridge model

ANALYSIS: PROCESS AND TECHNIQUES

1. Bridge responses

2. Run analysis

3. Display results

A.Graphical displays

B.Output tables

RCDC SYLLABUS

 

INTRODUCTION TO THE SOFTWARE

1. Software algorithm

2. capabilities of the software

3. strength and weakness of the software

4. Import and export from/to the various design software

5. significance of menu buttons and icons

6. sample models and templates

7. Hands-on software o sample templates

MODELLING: PROCESS AND TECHNIQUES

1. Sample slab detailing

2. sample beam detailing

3. sample column detailing

4. sample shear wall detailing

5. sample footing detailing

6. exporting of various files to AUTOCAD

7. Template good for construction drawing showcase

ANALYSIS: PROCESS AND TECHNIQUES

1. Importing of template design

2. setting of various detailing parameters

3. detailing of various elements

4. exporting of various detailing into AUTOCAD

5. Hands-on software to perform the design process and techniques

a.Graphical displays

b.output tables

 

Software Tranning

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