Civil structural training
Structural design is a highly specialized area of civil engineering. It can be described as a set of methods or tools that are used to determine safe and economical specifications for a structure, and to ensure that a planned structure will be sufficiently strong to carry its intended load. Structural engineers conduct a structural analysis to determine what internal and external forces could affect the structure, then design a structure with the appropriate materials and reinforcements to satisfy the requirements.
There is a strong relationship between the professional disciplines of architecture and structural engineering. While architects are normally tasked with designing the visually appealing features of a project, structural engineers place their focus on strength, durability and safety when designing a building.
overview of Civil structural training
What students learn in Civil structural training
Functional Design of Structures.
Stages in Structural Design. Structural Planning. 2 Positioning of Beams. 1.3 Spanning of Slabs.
Structural Design of Foundations.
Assumptions in Earthquake Resistant Design.
Civil structural training Course
In this course, students learn how to apply the skills learned in free-hand drawing and technical drafting to the computer programs used during the process. Students gain advanced training in such areas as orthographic projection, sectioning, and applied geometry.
Who should go for this Civil structural training Course?
Any Core experienced professionals who are interested to build their career in Civil Designing field.
Any B.E/ B.Tech/ M.Tech/ Diploma in Civil Engineering College Students in any stream.
What do you get?
Get complimentary access to placement training to ace your internship/job hunt.
Learn to create a library management system and a form validator using C & C++.
Your training is packed with assignments, assessment tests, code challenges, exercises.
At the end of your training program, you will be awarded certificate of completion.
Career in Civil structural training
Power plants .
Petro Chemical Complex .
Oil & gas need Piping Draftsman
Off shore Industry .
Industrial plants .
Energy sector .
Chemical process .
EPC industry .
Consulting engineers .
Pharmaceutical industry .
Project & Construction .
About This Course
Thiranz, Civil CAD training centre, Structural engineers are primarily concerned with the safety and stability of structures that they design. Structural analysis is the main tool that structural engineers use to ensure that a structure can withstand the various types of forces that it will encounter during its normal operation.
A civil engineering designing a subway platform should ensure that the platform will not collapse under the weight of thousands of passengers. A structural engineer designing a railway system should use materials that will not be damaged when a 50,000-lb railway car is used on the tracks.
A structural designer must ensure that the train station they are building won’t collapse when snow collects on its rooftops in the winter.
Why Enroll for Civil structural Training?
If you’ve ever tried to build a tower out of rocks at the beach, you may have encountered the important structural principle that elements of a structure must remain stationary to ensure their stability. The first step is ensuring through geotechnical engineering that the soil beneath the building provides a solid foundation for construction. A solid foundation helps ensure that the structure itself is immovable and that it can resist external forces.
Future Scope of This Course
On completing this AutoCAD training course, students and professionals can apply for CAD jobs with designations such as AutoCAD draftsmen/draughtsmen and designers. Using AutoCAD, draftsman convert the designs created by engineers and architects to technical drawings and plans. Architects can use AutoCAD to create technical drawings for their plans and design structures for homes and offices. Civil engineers, after learning AutoCAD, can use technical drawings to plan sites for buildings, bridges, roads, drainage and pipelines.