Transcript
00:06
Welcome to this course on bridge design workflow.
00:08
My name is Russ Nicloy from MACERTechnologies.
00:10
And I'll be leading you through the workflow process.
00:13
This workflow uses InfraWorks at its center to create a bridge design.
00:16
It also shares data with Civil 3D, Revit, Inventor, and Autodesk Structural Bridge Design,
00:22
to take the design through a more detailed and design documentation.
00:26
In this series of sessions, we will be looking at several stages.
00:29
The conceptual design stage will see the bridge designer and road designer working out the best route and location for the bridge.
00:36
This stage will use both InfraWorks and Civil 3D.
00:41
The detailed design phase uses InfraWorks and Civil 3D and also, Inventor to create custom detailed parts.
00:47
In Civil 3D, detailed design elements of the road can be adjusted for later plan production and volume calculations.
00:54
In InfraWorks, we will see bridge details such as pier locations, girder spacing, clearance height, and road deck details adjusted.
01:01
We will also see design details being adjusted using a spreadsheet for precise adjustments that will update the InfraWorks design.
01:08
Inventor will be used to build custom parametric parts for the bridge.
01:12
These parametric parts will be inserted into InfraWorks and added to the bridge design.
01:17
The design analysis stage, we will use Revit to create bridge and rebar quantities and schedules.
01:22
We will also use Civil 3D to create road and grading quantities.
01:26
We will then use them for InfraWorks to run the line girder analysis, as well as a refined analysis,
01:30
that can later be sent to the Autodesk Structural Bridge Design platform to analyze the load and bridge details.
01:37
Finally, we will look at documentation and visualization of the bridge design.
01:41
Using Revit, we will create documentation drawings, schedules, and bill of materials.
01:46
Using Civil 3D, we will create plan and production sheets,
01:50
including plan and profile and cross-section sheets for the road approaching the bridge.
01:55
In InfraWorks, we will create images and animations to present the design to those who need to understand the project and how it will be completed.
00:06
Welcome to this course on bridge design workflow.
00:08
My name is Russ Nicloy from MACERTechnologies.
00:10
And I'll be leading you through the workflow process.
00:13
This workflow uses InfraWorks at its center to create a bridge design.
00:16
It also shares data with Civil 3D, Revit, Inventor, and Autodesk Structural Bridge Design,
00:22
to take the design through a more detailed and design documentation.
00:26
In this series of sessions, we will be looking at several stages.
00:29
The conceptual design stage will see the bridge designer and road designer working out the best route and location for the bridge.
00:36
This stage will use both InfraWorks and Civil 3D.
00:41
The detailed design phase uses InfraWorks and Civil 3D and also, Inventor to create custom detailed parts.
00:47
In Civil 3D, detailed design elements of the road can be adjusted for later plan production and volume calculations.
00:54
In InfraWorks, we will see bridge details such as pier locations, girder spacing, clearance height, and road deck details adjusted.
01:01
We will also see design details being adjusted using a spreadsheet for precise adjustments that will update the InfraWorks design.
01:08
Inventor will be used to build custom parametric parts for the bridge.
01:12
These parametric parts will be inserted into InfraWorks and added to the bridge design.
01:17
The design analysis stage, we will use Revit to create bridge and rebar quantities and schedules.
01:22
We will also use Civil 3D to create road and grading quantities.
01:26
We will then use them for InfraWorks to run the line girder analysis, as well as a refined analysis,
01:30
that can later be sent to the Autodesk Structural Bridge Design platform to analyze the load and bridge details.
01:37
Finally, we will look at documentation and visualization of the bridge design.
01:41
Using Revit, we will create documentation drawings, schedules, and bill of materials.
01:46
Using Civil 3D, we will create plan and production sheets,
01:50
including plan and profile and cross-section sheets for the road approaching the bridge.
01:55
In InfraWorks, we will create images and animations to present the design to those who need to understand the project and how it will be completed.
