State Highway 130 Project - Texas

Share Article

Penetron has been chosen to waterproof portions of the State Highway 130 in Texas.

ICS Penetron International Ltd. a global leader in waterproofing products for major construction projects announced today that the Penetron system has been chosen to waterproof portions of the State Highway 130 in Texas.

The new SH 130, a project of the Texas Department of Transportation, will be a 49-mile, four-lane toll-way and will be the largest element of the Central Texas Turnpike System. The TX DOT has a long-established commitment to environmental protection. To achieve the project's environmental goals, a special team has been assembled to review design and monitor construction to minimize impact on the environment.

Robert Revera, President of ICS Penetron International, stated, "Penetron is proud to be associated with a project of this magnitude and environmental goals. We are also proud to have been chosen for use as it reflects on our on-going efforts to both maintaining a high level of performance of our products and exceeding all of the quality standards required.”

About ICS Penetron

ICS Penetron International Ltd., ISO-9001 – 2000 certified, has been serving the international building and construction industries since the late 1970s with a full line of waterproofing products. The Penetron® System features products that offer unique self-healing properties for enhanced protection against leaks in concrete structures. Robert Revera, founder and president of Penetron, discovered the technology for Penetron waterproofing products after having spent years working on concrete mix designs and additives. The Penetron System sets the standard internationally for waterproofing technologies and is now specified by architects, builders and designers for countless major construction projects worldwide. Penetron products are marketed and sold in over 60 countries around the world through an international network of applicators and distributors. For more information, call 631.941.9700 or visit


Share article on social media or email:

View article via:

Pdf Print

Contact Author

Visit website