3/4 IN. X 3/8 IN. HALF-CIRCLE WATERSTOP-RX EXPANDING CONCRETE JOINT WATERSTOP - Darragh

3/4 IN. X 3/8 IN. HALF-CIRCLE WATERSTOP-RX EXPANDING CONCRETE JOINT WATERSTOP

Cetco

750009

VOLTEXDS

Description

The VOLTEX® waterproofing membrane line is the proven technology for exceptional waterproofing and contaminant protection with easy installation. 

Lighter and more impervious than traditional waterproofing products, VOLTEX combines sodium bentonite layered within a durable geomembrane to provide waterproofing protection for any cast-in-place, below-grade concrete construction, such as:

  • Structural Slabs
  • Property Line Walls
  • Backfilled Walls
  • Cut-and-Cover Tunnels
  • Earth-covered Structures

VOLTEX also outperforms other solutions for precast concrete construction and under contaminated conditions. In both hydrostatic and nonhydrostatic conditions, VOLTEX is dependable, expanding as it absorbs water to seal any small concrete cracks caused by ground settlement or concrete shrinkage, the bentonite core using the water’s own pressure to block gaps.

Featuring exceptional flexibility for maximum conformability when fitting to a structure, VOLTEX can be installed directly to green concrete and placed as soon as forms are removed—no need to wait for the concrete to cure. Requiring no primers or adhesives, simply position VOLTEX and fasten it in place. VOLTEX can be installed even in extreme temperatures, so installation is quick and easy—and easy on your budget.

Extremely durable, VOLTEX is self-seaming and self-sealing—there’s no worries about the inevitable small tears and punctures that always occur on construction sites—and is available with a variety of enhancements (see below) to protect against contaminants including saline, nitrates, phosphates, chlorides, sulfates, lime, and organic solvents.

VOLTEX DS

Standard Bentonite with HDPE Composite

VOLTEX DS combines the proven waterproofing technology of VOLTEX with an integrally bonded polyethylene liner. VOLTEX DS is designed for projects that require additional chemical resistance and low-water vapor permeability.

Pending Reviews