Gurukul of Civil engineers- Online Civil Engineering Courses for Creative Minds

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Tekla Structure Design

Tekla Structure is the most advanced structural BIM software that assists designers to create, combine, manage and share multi-material 3D models packed with invaluable construction information. Right now in the BIM (Building Information Modelling) environment, Tekla Structures is one of the best and powerful software for any kind of structure design. We cover the entire Tekla Structure Design Course in the following modules: The first covers Introduction to Tekla, advantages, and interface of Tekla operations. The second module covers the modelling tools used in Tekla Structures software. The third module covers the modelling of an industrial shed and its elements like columns, rafters and purlins. The fourth module covers the modelling of the industrial shed and its elements like bracing and side runners. The fifth module covers drawing production and explains the process of generating General Arrangement Drawings. The sixth module covers moment connections. The seventh module covers shear connections. The eighth module covers the creation of template connections and the modelling of typical connections. The ninth module covers numbering checks, modelling checks and clash checks. The tenth module covers the preparation of fabrication drawings.

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Staad Pro V8i Advance

Learning Objectives: The course will cover all the steps involved in the structural analysis & designing of concrete & steel. This course will introduce one to STAAD Pro’s state-of-the-art user interface, prevailing analysis and design engines with a sophisticated finite element (FEM), visualization tools, and dynamic analysis capabilities. Some of the features that we focus on this course include: Model Generation: Generation of an interactive menu-driven model with concurrent 3D display 2D & 3D graphics generation using rectangular or polar coordinate systems Segments of repetitive geometry used to generate complex structural models. Model Verification: 2D/3D drawings on-screen and printer/plotter full 3D shapes for frames, elements Isometric, or any rotations for full 3D viewing. Static Analysis: 2D/3D analysis on the basis of state-of-the-art Matrix method to handle extremely large work. Linear, non-linear, p-delta analysis with automatic load & stiffness correction. Dynamic/Seismic Analysis: Mass modeling, frequency, and mode shape Response spectrum extraction, analysis of time history Modal damping ratio for individual models. Secondary Analysis: Finite element capabilities, concrete design, steel design, and timber design. Forces & displacements at sections between nodes. Maximum & minimum force envelopes. Learning Outcome: Students will be able to complete object-oriented instinctive 2D/3D graphic model generation. Students will learn to use pull-down menus, tool-tip help, and floating toolbars. Students will be able for carrying out flexible zooms and multiple views. Students will know to make isometric & perspective views and 3D shapes. Students will know the use of simple command language and a built-in command file editor. Students will learn how to generate graphics/text input. Students will be able to do efficient algorithms that will minimize disk space requirements. Students will learn to take presentation-quality printer plots of geometry and results as part of the run output. Students will be able to perform accurate and numerically efficient plate/shell elements incorporating out-of-plane shear & in-plane rotation; automatic element mesh generation; comprehensive element stress output including in-plane stresses, out-of-plane shear, bending & principal stresses at nodal, as well as, user-specified points. Students will learn how to achieve user-specified design parameters to customize a design. Students will know to perform code checks, member selection, and optimized member selection consisting of analysis/design cycles. Students will be able to design concrete beams/columns/slabs/footings as per all major

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REVIT Structure

REVIT Structure is Autodesk' software for Structure Design or Structure Engineering. Revit performs structural analysis and exports the structural analysis and design by using the analytical model. REVIT simplifies the process to create structural details from a 3D model. It enables connecting to multiple structural analysis applications. It accelerates construction Modelling and that assists to gain better construction vision from the 3D Model. The first module covers Introduction to REVIT, its advantages and its basic settings. The second module covers the Interface of REVIT and functions. It discusses workspaces like project browser tab, property tab, toolbar tabs, etc The third module covers the usage of different toolbars in REVIT such as structure, system, analyse, massing & site, etc in a detailed manner. The fourth module covers REVIT Architecture Plan development. The module shows how to develop REVIT Architecture Plan (Ground Floor), 3D model development, etc. The fifth module covers the REVIT Architecture Plan development of upper floors. It module shows how to develop REVIT Architecture Plan (first floor, rooftop), staircase, 3D model development, etc. The sixth module covers dimensioning, tagging, naming each component of the building. The module also covers the placement of the furniture in each room, electrical appliances, etc. Finally, the module shows how to develop a sheet layout of plans, elevations and isometric views. The seventh module covers structure framing, structure modelling, foundation modelling, etc. The module also covers the modelling of beams, columns and slabs. The eighth module covers footing development and detailing. The module shows how to provide concrete reinforcement and steel bars within the footings. The ninth module covers columns, beams, slabs development and detailing. The module shows how to provide concrete reinforcement and steel bars within the columns, beams and slabs.

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Structure Design with SAP2000

SAP2000 is one of the most sophisticated tools to design and or analysis of any structure. Our SAP2000 course has been prepared to cover every important aspect of structural analysis and structural design. The first module starts with the Introduction of SAP2000, an explanation of the plan/position of column, beam and centreline of the plan. The second module covers Building Plan and Elevation, Beam, Columns, Slab and Secondary Beams. It also covers the End Support System. The third module covers the calculation of Dead Load and Live Load. The fourth module covers the calculation of Wind Load, Earthquake Load, calculation of various load combinations. The fifth module covers the analysis of structure, explanation of deformation and storey displacement. The sixth module covers the analysis of structure, explanation of shear force / bending moment and 2-2,3-3. The seventh module covers the analysis of structure, explanation of axial force, torsion, support reaction, etc. The eighth module covers the design of beam, column and slab. The ninth module covers Optimization of structure and design of structure after optimization. The tenth module covers Introduction to warehouse shed and modelling of the shed, modelling of various parts of steel structure. The eleventh module covers the calculation and assignment of the dead load and live loads.

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Fundamentals of P-Way Engineering

P-way Design involves the design, construction, operation and maintenance of Light Rail Transit (LRT), Heavy Rail Transit (MRT) and Highspeed Rail (Bullet Trains) to ensure safe and effective transportation of people and goods. The course modules share P-way or LRT Design in a detailed manner. The course has covered key industry of P-Way Design, Elements of P-Way such as LRV Bumpers, vehicle dynamic envelops, etc. The course module the design process track, horizontal design, vertical design, superelevation, the speed at curves, and track components, etc. The course also covers different type of Track Forms such as Ballasted Track Forms, Embedded Tracks. Along with this, the course covers key features of Tram Stop, type of stops, surface finish, etc. In the First Module, we have commenced the course with the key industry of P-Way Design. The module then explained the features of Tram like LRV vehicles, pantographs, crash energy management (CEM), LRV Bumpers, vehicle dynamic envelopes, platform clearance, etc. In the Second Module, we have described Track horizontal design and covers link and curve section design, superelevation or cant deficiency and superelevation unbalance. The course module has also described how to define the speed of LRT Track at curves and the categories of speed at curves such as overturning speed, safe speed, maximum authorised speed and signal speed. In the third module, we have described Track vertical alignment design and covers vertical gradient, crest curves, sag curves design along with design guidelines and design formulas. Thereafter, the module has described trackwork component such as Turnouts, Crossovers, Switches, Cross-Rails, Frogs, check-rails, and Pocket Tracks. In the fourth module, we have described LRT Track forms, stiffness of track, and track modulus. Thereafter, the modules have described various Track forms such as Ballasted Track, Direct Fix Track, Embedded Track, Floating Track and Tracks in the transition zone. The module has also covered various forms of Track Sleepers such as Timber Sleeper and Pre-cast concrete sleepers. The module described the formula to determine the spacing and factors of the sleepers that affect sleeper spacings. In the Fifth Module, we have described LRT Tram STOP design and its types like Island Platform and Side Platform. The Module then covers components of Tram Stop such as shelter, walkways, ramps, steps, signages, lighting, Passenger Information, etc. It has also covered the Platform surface finish and Tactile. In the Sixth Module, we have described the Tram signal system, signal equipment, traction power system, distribution system, substation system and catenary system. Within the Tram Signal System, we have covered the switch machine, impedance bonds, loops and transponders, wheel detectors, axle counters, etc.

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Tekla Structure Design

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Staad Pro V8i Advance

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REVIT Structure

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Structure Design with SAP2000

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Fundamentals of P-Way Engineering

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