REVIT BIM
Burraq Engineering Solutions is a company that provides engineering services and solutions, including Revit BIM. Autodesk’s Revit is a BIM (Building Information Modeling) program. Building Information Modeling (BIM) is a method for planning, designing, and managing construction projects for buildings and infrastructure. Here’s an overview of Revit and its role in BIM:
1. Building Information Modeling (BIM):
Intelligent 3D models are the basis of the Building Information Modeling (BIM) methodology, which is used in the design, construction, and management of buildings and infrastructure. Throughout a project’s entirety, it facilitates communication and coordination between architects, engineers, contractors, and others involved.
2. Revit:
Revit is a specific BIM software application developed by Autodesk. It’s widely used in the architecture, engineering, and construction (AEC) industry for its robust BIM capabilities. Revit allows professionals to create detailed 3D models of buildings and infrastructure, which contain not only geometric information but also data about materials, quantities, and other attributes.
3. Key Features of Revit:
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- Parametric Modeling: Revit uses parametric modeling techniques, which means that changes made to one part of the model automatically update all related components. This ensures design consistency and reduces errors.
- Intelligent Objects: The intelligent building components in Revit’s library include things like walls, doors, windows, and HVAC systems, all of which have their own set of predefined features and may communicate with one another.
- Collaboration: Revit supports real-time collaboration among project team members. When several people can access the same model at once, it simplifies collaboration and information sharing.
- Analysis Tools: It offers various analysis tools for energy analysis, structural analysis, and more. These tools help designers make informed decisions about building performance.
- Documentation: Revit generates construction documentation, including floor plans, sections, elevations, and schedules, directly from the 3D model. This streamlines the documentation process and reduces errors.
- Interoperability: Revit can import and export data in various formats, making it compatible with other design and analysis software commonly used in the AEC industry.
4. Benefits of Revit and BIM:
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- Improved Collaboration: BIM promotes better collaboration and communication among project stakeholders, leading to more efficient and cost-effective projects.
- Data-Driven Design: BIM allows for data-rich models, enabling informed decision-making throughout the project’s lifecycle.
- Clash Detection: BIM software like Revit can identify clashes or conflicts between different building systems, reducing errors during construction.
- Cost and Time Savings: BIM can help reduce construction rework, errors, and delays, ultimately saving time and money.
- Sustainability: BIM supports sustainability initiatives by enabling energy analysis and the optimization of building performance.
- Course Fee: 15,000
- Duration: 1 Month
- Timing: 9AM-11AM, 11AM-1PM, 1PM-3PM, 3PM-5PM, 5PM-7PM, 7PM-9PM
REVIT BIM Course Details
- Introduction & course objectives
- What is BOM & how does Revit fit in?
- Opening Revit & creating a new project
- The User Interface
- Hierarchy of Revit Elements
- Modelling and Navigating in a 3D Environment
- Datums elements 1 level
- Datum Elements 2 – Grids
- Using Dimensions
- Reference Planes
- Creating Basic Walls
- Using the Modify Panel
- Doors
- Windows
- Saving the Model
- Opening the Model
- Orthographic & Perspective 3D Views
- 3D Section Box
- Floor Plans
- Reflected Ceiling Plans
- Elevations
- Sections
- User Interface Settings
- Browser Organization
- Keyboard Shortcuts
- Creating Floors
- Creating Ceilings
- Creating Curtain Walls
- Creating Roofs
- Creating Stairs – Part 1
- Creating Stairs – Part 2
- Creating Railings – Part 1
- Creating Railings – Part 2
- Creating Openings
- Adding Rooms
- Placing Furniture, Fixtures and Equipment
- Placing Architectural Columns
- Walls – Editing the Profile
- Project Information
- Project Units
- Model Parameters
- Built In Parameters
- Project Parameters
- Shared Parameters
- Global Parameters
- Line Weights
- Line Patterns
- Line Styles
- Object Styles – Setting Project-Wide Graphics
- Fill Patterns
- Thin Lines
- Model Text
- Model Lines
- Model Groups
- View Scale
- Display Model
- Detail Level
- Model Display / Visual Style
- Shadows
- Lighting
- Sketchy Lines
- Far Clipping
- Depth Cueing
- Underlay
- View Range
- Plan Regions
- Cropping Views
- Scope Boxes
- Visibility / Graphics Overrides
- Filters
- Colour Schemes
- Managing Settings Using View Templates
- Temporary View Overrides
- Materials
- Material Appearance
- Coarse Poche Material
- Principles of Annotation & Tags
- Room Tags
- Element Tags
- Material Tags
- Multi-Category Tags
- Keynotes
- Linework Tool
- Text Notes
- Stair Paths
- Tread / Riser Numbers
- Spot Elevations
- Creating Sheets
- Adding Views to Sheets
- Revisions
- Printing the Sheets
- Add a Colour Fill Legend
- Revising Sheets / Adding Revision Clouds
- Updating the Project Browser
- Schedules
- Legends
- Guide Grids
- Duplicating Views
- Override Elements in View
- Hide Elements in View
- Propagating Grid Extents
- Principles of Detailing
- Creating Callouts
- Detail Components
- Tagging Detail Components
- Repeating Detail Components
- Detail Lines
- Filled / Masking Regions
- Insulation
- Advanced Dimensions
- Drafting Views
- Keynote Legends
- Detail Groups
- Additional Use of Detailing Elements
- Principles of Worksharing
- Create Workshared Model
- Adding Worksets
- Add Elements to Worksets
- Worksharing Display
- Save Central Model
- Create New Local Model
- Make Changes and Synchronise
- Workset Visibility
- Detaching and Creating New Central Model
- Roll Back Central Model
- About Design Options
- Create Design Options
- Add Elements to Design Options
- Editing Design Options
- Design Option Visibility / Presentation
- Advanced Design Options – Part 1
- Advanced Design Options – Part 2
- Accepting Design Options
- Areas and Area Schemes
- Area Plans
- Area Boundary Lines
- Placing Areas
- Area Schedules
- Principles of Phasing
- Modelling Existing Elements
- Demolishing Elements
- Phase Filters
- Rooms and Phases
- Phases and Schedules
- Camera
- Displacement Sets
- Importance of Healthy Models
- Element ID
- Viewing and Resolving Warnings
- Purging the Model
- Additional Items
- About Coordinate Systems
- Project Base Point & Survey Point
- Locating the Building
- Setting True North
- Spot Coordinates
- Levels & Elevation Base
- Spot Elevations & Elevation Base
- Export to CAD (DWG)
- Export to NWC (Navisworks)
- Export to IFC (Industry Foundation Classes)
- Export to an Image (JPG, PNG…)
- Linking CAD Models – Part 1
- Manage Links – Part 1
- Linking CAD Models – Part 2
- Linked CAD Appearance
- Linking Revit Models – Part 1
- Acquire Coordinates From Linked Models
- Linking Revit Models – Part 2
- Worksets & Linked Revit Models
- Manage Links – Part 2
- Visibility / Graphics Overrides of Revit Model Links
- Element Selection & Behaviour
- Walls – Wrapping
- Walls – Preview
- Walls – Sweeps & Reveals – Part 1
- Walls – Sweeps & Reveals – Part 2
- Walls – Modifying Vertical Structure
- Slanted Walls
- Wall Joins
- Computation Height of Levels
- Summary
- Updates in Revit 2022 – Modelling
- Updates in Revit 2022 – Annotation & Graphics
- Updates in Revit 2022 – Documentation & Export
Revit BIM
- Rs 25,000/-
- Course Duration 1 Month
- Online Session
- On Campus Lecture + Practical
- Video Lecture Available
- Urdu & English
- 24/7 Support