The Bridge As-Built Plans and corresponding BrDR Models are provided for example only and may not represent the modeling techniques used by your agency.
Videos
- AASHTOWare Bridge Design and Rating YouTube Channel
- Introduction to AASHTOWare BrDR
- Complete Beginner’s Guide to AASHTOWare BrDR
- AASHTOWare BrDR Overview Presentation
- Step by Step Installation Instructions
- AASHTOWare BrDR System Overview
- BrDR 7.0 – MBE Example A1 Simple Span Composite Steel Bridge
- Introduction and bridge components
- Superstructure definition and member alternatives
- Analysis settings and results
- BrDR 7.0 – MBE Example A7 Simple Span Reinforced Concrete Slab Bridge
- Introduction and bridge components
- Superstructure definition and member alternatives
- Analysis settings and results
- BrD 7.2 – Prestressed Concrete Design Tool
- New Features and Enhancements in AASHTOWare BrDR 7.5
- Using AASHTOWare for Bridge Design at NYSDOT
- Next Generation of the AASHTOWare BrDR Reporting Tool
Tutorials
- 3DFEM1 – Diaphragm Spec Checking
- 3DFEM1 – Diaphragm Spec Checking
- 3DFEM2 – Single Span Steel 3D Example
- 3DFEM2 – Single Span Steel 3D Example
- 3DFEM3 – Curved Steel 3D Example
- 3DFEM3 – Curved Steel 3D Example
- 3DFEM4 – Curved Steel Multi-Span 3D Example
- 3DFEM4 – Curved Steel Multi-Span 3D Example
- 3DFEM4 – Curved Steel Multi-Span 3D Example Input Spreadsheets
- 3DFEM5 – Mesh Generation and Dead Load Analysis Example
- 3DFEM5 – Mesh Generation and Dead Load Analysis Example
- CIP PS-I Simple Span (varying support skew and girder spacing)
- CIP PS-I Simple Span (varying support skew and girder spacing)
- CIP PS-I Simple Span
- CIP PS-I Simple Span
- CIP-PS Box Continuous Span
- CIP-PS Box Continuous Span
- PS Box Simple Span
- PS Box Simple Span
- PS-I Continuous Span (integral with substructures)
- PS-I Continuous Span (integral with substructures)
- PS-I Continuous Span (non-integral with substructures)
- PS-I Continuous Span (non-integral with substructures)
- PT MCB Simple Span
- PT MCB Simple Span
- PT MCB Simple Span (varying girder spacing)
- PT MCB Simple Span (varying girder spacing)
- PT MCB Continuous Span (non-integral with substructures)
- PT MCB Continuous Span (non-integral with substructures)
- RC Bent Up Bars Parabolic Tee
- RC Bent Up Bars Parabolic Tee
- RC MCB Continuous Span
- RC MCB Continuous Span
- RC MCB Simple Span (varying girder spacing)
- RC MCB Simple Span (varying girder spacing)
- RC MCB Simple Span
- RC MCB Simple Span
- RC Parabolic Tee
- RC Parabolic Tee
- RC Slab Continuous Span
- RC Slab Continuous Span
- RC Slab Continuous Span (non-integral with substructures)
- RC Slab Continuous Span (non-integral with substructures)
- RC Slab Simple Span
- RC Slab Simple Span
- RC Slab Parabolic Soffit Continuous Span
- RC Slab Parabolic Soffit Continuous Span
- RC Tee Continuous Span
- RC Tee Continuous Span
- RC Tee Continuous Span (non-integral with substructures)
- RC Tee Continuous Span (non-integral with substructures)
- RC Tee Simple Span
- RC Tee Simple Span
- STL Built-up Continuous Span
- STL Built-up Continuous Span
- STL Plate I Simple Span
- STL Plate I Simple Span
- STL Rolled I Simple Span
- STL Rolled I Simple Span
- ADJ1 – Analysis with Adjacent Lane Routine Traffic Example
- ARC1 – Arc Tool
- Bridge Exchange Feature Example
- Capacity Override
- Concrete Shear LRFR Rating Iteration with BrDR 7.5.1
- EI1 – Exporting Importing Data
- F1 – Flared Girder Example
- Field Verified Wearing Surface Thickness
- General Preferences
- HLP1 – Help Features
- LRFR Concrete Moment Redistribution with BrDR 7.5.1
- LRT1 – Load Rating Tool
- LS1 – Limit State Selection
- RATE1 – Bridge Explorer Rating Example
- ROUTE1 – Routing Example
- TMP1 – Use of Templates
- TMP1 – Use of Templates
- Weld Design and Weld Fatigue Analysis
- WIZ1 – Wizards
- WIZ2 – Simple Bridge Layout Wizard
- FS1 – Girder Floorbeam Stringer Example
- FS1 – Girder Floorbeam Stringer Example
- FS2 – Floorbeam Stringer Line Example
- FS2 – Floorbeam Stringer Line Example
- FS3 – Floorbeam Stringer System Example
- FS3 – Floorbeam Stringer System Example
- FS4 – Skewed End Panel Floor System Example
- FS4 – Skewed End Panel Floor System Example
- BrDR Tutorial Workbook
- BrDR Tutorial Workbook
- Introducing BrDR Environment
- Introducing BrDR Environment
- HLP1 – Help Features
- Getting Started with Active Directory in BrDR
- Getting Started with BrDR BrM Integration
- Getting Started with PS Design Tool
- Getting Started with Steel Design Tool
- Getting Started with the Bridge Copy Utility
- What’s new in 700
- PS1 – Simple Span PS I Beam
- PS1 – Simple Span PS I Beam
- PS2 – Three Span Spread PS Box Beam
- PS2 – Three Span Spread PS Box Beam
- PS3 – Adjacent PS Box
- PS3 – Adjacent PS Box
- PS4 – BrDR PS I Beam
- PS4 – BrDR PS I Beam
- PS5 – Void PS Box Beam
- PS5 – Void PS Box Beam
- PS6 – Skewed, Simple Span PS I Beam
- PS6 – Skewed, Simple Span PS I Beam
- PS7 – 3 Stem PS Bridge
- PS7 – 3 Stem PS Bridge
- PS8 – Prestressed I Beam Thicker Web
- PS9 – Cut Strand for PS Beam
- PS10 – PS Design Tool – Example
- PS11 – Bridge Over Shoal Creek
- PS11 – Bridge Over Shoal Creek
- PS12 – AASHTO PS Stirrup Design
- PS12 – AASHTO PS Stirrup Design
- PS13 – Simple Span PS I Beam
- PS13 – Simple Span PS I Beam
- PS14 – BrDR PS I Beam SR429
- PS14 – BrDR PS I Beam SR429
- PS15 – 2 Span Adj Box with Straight Strands
- PS15 – 2 Span Adj Box with Straight Strands
- FRM1 – Reinforced Concrete Frame Example
- FRM1 – Reinforced Concrete Frame Example
- RC1 – Single Span Reinforced Tee Beam
- RC1 – Single Span Reinforced Tee Beam
- RC2 – RC Slab Example
- RC2 – RC Slab Example
- RC4 – Two Span RC Concrete Slab
- RC4 – Two Span RC Concrete Slab
- RC5 – Schedule Based Tee
- RC5 – Schedule Based Tee
- RC6 – Two Span RC Slab System
- RC6 – Two Span RC Slab System
- RC7 – Varied RC Tee Beam Section Properties
- RC7 – Varied RC Tee Beam Section Properties
- RC8 – RC Tee Beam LRFD
- RC8 – RC Tee Beam LRFD
- RC9 – MBE Example A7 using BrDR 7.5.0
- RC9 – MBE Example A7 using BrDR 7.5.0
- RC9 – MBE Permit Vehicle
- STL1 – Simple Span Plate Girder Example
- STL1 – Simple Span Plate Girder Example
- STL2 – Two Span Plate Girder
- STL2 – Two Span Plate Girder
- STL3 – Splice
- STL4 – Simple Span Plate Girder with Loss
- STL4 – Simple Span Plate Girder with Loss
- STL5 – Two Span Rolled Beam
- STL5 – Two Span Rolled Beam
- STL6 – AASHTO Steel Plate Girder
- STL6 – AASHTO Steel Plate Girder
- STL7 – Steel Shear Stud Wizard
- STL7 – Steel Shear Stud Wizard
- STL8 – Pin Hanger Example
- STL8 – Pin Hanger Example
- STL9 – Steel Fishbelly Web
- STL9 – Steel Fishbelly Web
- STL10 – Corrugated Deck Rating
- STL10 – Corrugated Deck Rating
- STL11 – Steel Plate Girder
- STL11 – Steel Plate Girder
- STL12 – MBE Example A1 using BrDR 7.5.0
- STL12 – MBE Example A1 using BrDR 7.5.0
- STL12 – MBE Permit Vehicle A1
- STL13 – Flange Lateral Bending
- STL13 – Flange Lateral Bending
- STL14 – LRFD Cb Calculation using Concurrent Moments in LRFR Rating with BrDR 7.5.1
- STL14 – LRFD Cb Calculation using Concurrent Moments in LRFR Rating with BrDR 7.5.1
- STL15 – Steel Design Tool Example
- BrDR Substructure Review
- Frame Drilled Shaft Example
- Pier Drilled Shaft
- Pier Drilled Shaft
- Pier Supports 2 Supers
- Pier1 – Solid Shaft Pier
- Pier1 – Solid Shaft Pier
- Pier2 – Frame Pier
- Pier3 – Frame Pier
- Pier3 – Frame Pier
- Pier3 – Modify Footing
- Pier3 – Modify Footing
- Pier4 – Substructure Moment Magnification
- RC Pier Supporting Slab System
- RC Pier Supporting Slab System
- T1 – Truss Floorbeam Stringer
- T1 – Truss Floorbeam Stringer
- T2 – Truss Input Command
- T2 – Truss Input Command
- T3 – Truss Floorbeam Stringer
- T3 – Truss Floorbeam Stringer
- T4 – Floor Truss Example
- T4 – Floor Truss Example
- T5 – Truss Enhancements Example
- T5 – Truss Enhancements Suspended Truss Bridge
- T5 – Truss Enhancements with Counter
- T5 – Truss Enhancements with Floorbeams
- T6 – Truss Cross Section and Graphics
- T7 – Truss LRFD Net Area Deduction In LRFR Truss Rating with BrDR 7.5.0
- T7 – Truss LRFD Net Area Deduction In LRFR Truss Rating with BrDR 7.5.0
- TGP1 – Truss Gusset Plate Example
User Group Training
- 2024 User Group – Training
- 2023 User Group – Training
- 2022 User Group – Training
- 2021 RADBUG Virtual Meeting – Please see new YouTube channel above for more info
- 2020 RADBUG Virtual Meeting – Please see new YouTube channel above for more info
- 2019 User Group – Training
- 2018 User Group – Training
- 2017 User Group – Training
- 2016 User Group – Training
- 2015 User Group – Training
- 2014 User Group – Training
- 2013 User Group – Training
- 2012 User Group – Training