Reinforced Walls Elevate Rail Line


Redi-Rock PC System walls elevate rail line to eliminate at-grade crossing

THE CHALLENGE

In 2011, a railway in Canada and the Montreal Metro began construction on a major renovation project. The goal of the project was to eliminate an at-grade crossing where the rail line crossed over the Societe de Transport de Montreal (STM) light commuter Metro line.

These two lines ran through a narrow corridor with several sections of track overlapping. To completely separate the tracks, plans were made to elevate one rail line on a bridge structure and excavate to relocate the Metro underground.

To elevate the rail line, designers needed to build a gradual, walled slope leading up to a massive concrete bridge structure and then down the other side. This narrow "causeway" was designed with room for a second line, although only one was installed at first.

Construction worker guiding a retaining wall block into place

Installing Redi-Rock Positive Connection walls is a simple, repeatable process that eliminates many common construction errors.

THE SOLUTION

Back-to-back poured-in-place concrete walls were an option for creating the ramps, but when the geotechnical engineers saw the Redi-Rock Positive Connection (PC) System at the Transportation Research Board (TRB) meeting in early 2011, they began incorporating Redi-Rock PC walls from local manufacturer Graymont Materials into the design.

"The PC System is the only block with this type of connection which allowed it to handle the loads," explained David Chartier, junior engineer with V. Fournier & Associes. "When you have massive loads so near the block facing, it's hard to make a wall that will work. The walls are very high and the load is very close, but the civil engineering of this block made it a good fit."

The Redi-Rock PC System is an ideal solution for this project because the PC System:

  • Features a superior, weight-independent connection
  • Utilizes a corrosion-free reinforcement system without special connection components
  • Increases wall height with reduced geosynthetic reinforcement requirements
  • Incorporates a massive, ¾ ton, wet cast, air-entrained concrete block facing unit
  • Offers the incomparable durability of "wet cast", air-entrained concrete
  • Simplifies the wall construction sequence resulting in faster installation
  • Improves the overall project aesthetic with a variety of standard face textures and colors

Cobblestone retaining wall supports rail train on track elevated above another train track

Elevating the rail line using Redi-Rock walls allowed the City to eliminate an at-grade crossing with a light commuter line.

THE DESIGN

Mirafi Miragrid 24XT geogrid strips were used on this project to provide soil reinforcement in these mechanically stabilized earth (MSE) walls. To install the geogrid for a PC System wall, a 12 inch (305 millimeter) wide strip of geogrid is wrapped through each retaining wall block, tying the Redi-Rock facing blocks to the reinforced soil mass with a weight-independent positive connection. The geogrid extends from the back of each retaining wall to the back of the opposite retaining wall.

The back-to-back walls on this project required a temporary end made with double 90-degree corners. The corners and short-end wall were necessary for the construction sequence of the walls and bridge abutments but were removed before rail traffic used the lines. To build the double 90-degree corners, near vertical walls were constructed using a combination of zero batter and standard batter PC blocks.

In addition to the retaining walls on the project, two rows of freestanding "force protection" blocks were included in the top of the walls to prevent workers from falling from the raised tracks. The design also incorporated several emergency shelter "bump outs" where a break in the freestanding walls opens up to safety cages into which workers can duck when trains pass.

THE OUTCOME

In total, the project required 7,800 Redi-Rock blocks in the Cobblestone texture - equaling 44,850 square feet (4167 square meters). Trains made their first run on the line in late 2013, and the project has been performing exactly as engineered. "It's looking beautiful, that's for sure. The city is very happy," said Charles Poulin, Ing. of CRT Construction.

This project was the co-recipient of the 2013 Rocky Award for "Commercial Wall of the Year" from Redi-Rock International. The Rocky Awards are an annual honor recognizing the best Redi-Rock projects completed each year across the world.

Rail train running on elevated track supported by reinforced retaining wall

After the project was completed, it was monitored very closely. All tests have shown that the walls have performed exactly as engineered.

PROJECT DETAILS

Project Name: Canadian Rail Project #149 Customer: City of Montreal Design/Specifying Engineer: V. Fournier & Associés, AECOM Block Manufacturer: Graymont Materials Installer: CRT Construction Location: Montreal, Quebec Year Built: 2011-2013

PRODUCTS FEATURED IN THIS CASE STUDY


Reinforced Retaining Wall Blocks - Build MSE retaining walls with the revolutionary Redi-Rock the Positive Connection (PC) System.

Freestanding Blocks - Redi-Rock freestanding blocks are textured on both sides, giving above-grade walls an unbeatable, finished look for any project you design.

Cobblestone Texture Blocks - Redi-Rock Cobblestone blocks feature a great stacked stone aesthetic with the appearance of six smaller blocks.

Case Study Translations

German

Spanish

Want the newest case studies and tech resources in your inbox?

Sign Up Now