M

Corridor Productivity Pack

Corridor Productivity Pack: Bring Your Corridor Modeling to the Next Level

From CTC Software

The Corridor Productivity Pack helps you bring your Corridor modeling to the next level and allows for full control on cross sections and quantities, and works where out-of-box solutions fall short. The CPP is a content pack for AutoCAD Civil 3D Corridors and includes Powerful Subassemblies made from Subassembly Composer. The CPP includes both Imperial and Metric versions, as well as MNDOT-specific Subassemblies.

Corridor Productivity Pack Features Include:

  • Built to realistic geometrics
  • Customizable Codes for detailed Cross Sections and Quantity Takeoffs
  • Full Targeting capability
  • Editable in Subassembly Composer
  • Detailed help files

Median

This subassembly contains two back-facing curbs with a floating median area in between, all with full control on geometry values, and Coding. A maximum width for full median depth can be set so the the median will automatically convert to only a turf section instead of the base and subbase materials carrying all the way through the median.

Multi Layered Lane With Mark Point

This Subassembly represents a lane that connects a MarkPoint Subassembly, controlling for Width and Slope. The Subassembly has options to select the number of paving lifts/courses, in addition to Base and SubBase layers. It has fully-customizable Point, Link and Shape Codes as well.

General Curb

This Subassembly creates a cross-sectional representation of a general curb with gutter assembly with the option for an insertion point to be either Flange or Top Back of Curb.

MNDOT Curb

This Subassembly creates a cross-sectional representation of one of the four styles of MnDot curb with the approved gutter width.

MNDOT Curb With Sidewalk

This Subassembly creates a cross-sectional representation of a generic Curb and Gutter with a Base and SubBase. This Assembly also includes the ability to add a sidewalk. The width and elevations of the inside boulevard, sidewalk, and outside boulevard can be set using the parameters or by using the Horizontal and Vertical Targets within the Corridor properties. This Subassembly will allow the user to calculate the volume of Topsoil required if a depth is applied to the boulevards. Both the inside and outside boulevard slope along with the sidewalks slope can be controlled independently from the others.

Sidewalk With Boulevard

This subassembly represents a sidewalk with a base material underneath, as well as inside and outside Boulevards with depths. The Inside & Outside edge of the Sidewalk and the outside boulevard edge are capable of Corridor Targeting, both Horizontally and Vertically. Point, Link and Shape Codes are fully customizable. If the depth of the Boulevards is deeper than the bottom of the base of the Sidewalk, you will need to set the Inside and Outside extensions to 0.00′.

Sidewalk With Boulevard From ROW

This Subassembly represents a sidewalk with a base material underneath, as well as inside and outside Boulevards with depths. This Subassembly builds backwards from the ROW Target line. The user will Target a ROW (or other line), then the Subassembly will build backwards, towards the insertion point. User can add a Target to control inside of Sidewalk. The inside boulevard width and slope will “float”, based on the parameters and Targets assigned to the sidewalk and outside boulevard. Point, Link and Shape Codes are fully customizable. If the depth of the Boulevards is deeper than the bottom of the base of the Sidewalk, you will need to set the Inside and Outside extensions to 0.00′.

Link Slope To Surface

This Subassembly creates a cross-sectional representation of a daylight link, taking into consideration the slope and a targeted surface. This Subassembly will also apply depth creating a closed polygon for Area. When distance is applied, we now have Volume. This volume can be used for quantities.

Link Width and Slope

This Subassembly creates a cross-sectional representation of a link based on Width and Slope. This Subassembly will also take into consideration Depth. It will apply a depth to the finish grade surface creating a closed polygon for Area. When a distance is applied, we now have Volume. This volume can be used for quantities later in the design.

Link Slope With Vertical Deflection

This Subassembly creates a cross-sectional representation of a generic link that will use a slope for the Delta X and a numeric value for the Delta Y. This Subassembly will also take into consideration Depth. It will apply a depth to the finish grade surface creating a closed polygon for Area. When a distance is applied, we now have Volume. This volume can be used for quantities later in the design.

Link Slope to Elevation

This sSubassembly creates a cross-sectional representation of a Generic link that will use a slope for the delta X and a specific elevation for the delta Y. This Subassembly will also take into consideration Depth. It will apply a depth to the finish grade surface creating a closed polygon for Area. When a distance is applied, we now have Volume. This volume can be used for quantities later in the design.

Link To Mark Point

This Subassembly is a basic LinkToMarkedPoint Subassembly with depth, and customizable Codes. It will connect to a matching MarkPoint Subassembly with the same Point Name.

Insights

Events | See All

Tue 14

Workflows & Solutions | See All

News  | See All

Our Latest
Success Stories

See All

 

Groundbreaking ROI

Whenever we talk to companies looking to make the change over to BIMBOX, benchmarks are a great place to start. Typically, we are 39-300% faster than existing systems.