In downtown Salt Lake City, Industrial Road at California Avenue required repair. The methods chosen were soil foundation stabilization, slabjacking, slab replacement, stitch-in-time crack repair, dowel bar retrofit (DBR), diamond grinding and joint resealing. The combination of using high density expansive polymers in conjunction with other concrete pavement preservation techniques including dowel bar retrofit and diamond grinding should extend the life of this pavement for approximately 15-20 years.

In 2005, the Oklahoma Turnpike Authority (OTA) identified the need for significant road repairs on the John Kilpatrick Turnpike. Full depth repair, dowel bar retrofit (DBR), diamond grinding and joint resealing methods of repair were selected to address the deterioration. It is predicted that it will be 15 to 20 years before any additional major work will need to be completed.

In early 2009, engineers for the City of Ames, IA, recognized that the two roads that cross through the heart of the town as well as the campus (Stange Road and 24th Street) were in desperate need of repair. Although the City of Ames traditionally uses an asphalt overlay for this type of repair, they instead opted to use concrete pavement restoration (CPR) with diamond grinding. The methods selected were full depth repair and diamond grinding followed by joint resealing. The city has realized that CPR is the sustainable, cost effective maintenance answer for their concrete pavement.

The city of Watertown, South Dakota, chose diamond grinding and dowel bar retrofit (DBR) for its US 212 project to enhance ride quality and skid resistance. DBR was implemented to restore load transfer across joints. The result was a smooth surface that has remained in good condition for more eight years.

City streets in Minneapolis benefited from the implementation of concrete pavement preservation (CPP) techniques. The strategy focused on rehabilitating structurally sound residential streets using methods such as diamond grinding, dowel bar retrofit (DBR), full depth repair (FDR), partial depth repair (PDR), cross/slot stitching, joint resealing, and crack resealing. This approach was chosen for its sustainability and cost-effectiveness, enhancing road safety and extending pavement lifespan by up to 25 years.

Winnipeg, Manitoba, saw significant improvements in road smoothness and durability through comprehensive Concrete Pavement Rehabilitation (CPR) initiatives. The project encompassed several techniques, including diamond grinding, dowel bar retrofit (DBR), partial depth repair (PDR), full depth repair (FDR), and transverse joint sealing. These methods were chosen over an asphalt overlay due to their cost-effectiveness, resulting in significant improvements in road smoothness and durability.