Applications

Urban Roads & Municipal Streets

Durable infrastructure for local road networks — without heavy reconstruction or repeated interventions

The Urban Challenge

Cities need roads that don't come back every five years

Urban pavements face constant stresses: daily traffic, repeated freeze-thaw cycles, moisture, sometimes insufficient drainage, and accelerated asphalt aging — all within the context of limited municipal budgets.

Traditional asphalt removal and replacement methods are costly, disrupt traffic for extended periods, and lead to frequent repeat interventions. LL-TECH offers a durable alternative — rehabilitating urban pavements directly from existing materials, without heavy reconstruction.

Application in Urban Environments

How LL-TECH works in a city context

Cold In-Place Reclamation

Recycling of asphalt and in-place materials (Cold In-Place Reclamation) — the existing road becomes the structural material.

Structural Base Stabilization

In-place stabilization of the base and subbase creates a monolithic, dense structure resistant to water and traffic.

Minimal Asphalt Overlay

A thin asphalt overlay may be applied when required — but it becomes structurally secondary, not the load-bearing layer.

Documented Urban Projects

Proven performance across North American cities

Mansfield, Texas

Residential roadways in subtropical climate with drainage challenges and intense rainfall.

Bessemer, Alabama

Municipal roads in residential areas with heavy precipitation and bearing capacity constraints.

Stillwater, Oklahoma

Residential network exposed to rain and freeze cycles, requiring a stable and durable base.

Benton Harbor, Michigan

Urban pavements in cold climates with repeated freeze-thaw cycles and saturated soils.

Elgin, Illinois

Complete rehabilitation through in-place recycling with significant reduction in new asphalt usage.

Arlington Heights, Illinois

Urban roadways with marked seasonal variations and high long-term durability requirements.

Observed Performance

Structural stability that cities can count on

Structural stability maintained over time. Absence of rutting and premature cracking. High resistance to water, moisture, and freeze-thaw cycles. Significant reduction in maintenance requirements.

Performance confirmed by standardized ASTM, AASHTO, and CBR testing, as well as multi-year field observations.

Break the municipal asphalt cycle — invest in durability

LL-TECH enables cities to invest in infrastructure that is more durable, more economical, and better adapted to current climatic realities.

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