Beneath the Surface: Unveiling Corrosion Challenges in Posttensioned Bridges
Jess Mishico Jess Mishico

Beneath the Surface: Unveiling Corrosion Challenges in Posttensioned Bridges

In the realm of bridge infrastructure, the insidious threat of corrosion in posttensioned structures presents formidable challenges. Delve into the complexities of detecting internal tendon degradation, the critical factors accelerating corrosion, and the far-reaching implications for bridge safety and maintenance. Highlighting advancements in technology and proactive initiatives, this subscript underscores the urgent need to safeguard these essential components of our transportation networks for sustained reliability and safety. Read on to learn more about what is beneath the surface.

Read More
Mastering Material Science: The Magic of Viscoelasticity in Creating Durable Water Barriers
Jess Mishico Jess Mishico

Mastering Material Science: The Magic of Viscoelasticity in Creating Durable Water Barriers

Viscoelasticity combines both viscous and elastic properties, allowing materials to deform gradually and then return to their original shape. This unique behavior makes viscoelastic materials ideal for damping and shock absorption. In water barriers, subsurface membranes benefit from these properties, especially when applied as Newtonian fluids. This ensures uniform application, thorough penetration into cracks, and even distribution when cured, resulting in a robust and durable barrier. Understanding these material properties is crucial for creating effective and long-lasting solutions. Read this blog post to find out more how viscosity is important to our subsurface membrane technology.

Read More
Revolutionizing Construction: Discover the Power of Glass Fiber Reinforced Concrete (GFRC)
Jess Mishico Jess Mishico

Revolutionizing Construction: Discover the Power of Glass Fiber Reinforced Concrete (GFRC)

Glass Fiber Reinforced Concrete (GFRC) is transforming the construction industry with its unique blend of strength, durability, and versatility. Unlike traditional concrete that relies on steel reinforcement, GFRC uses alkali-resistant glass fibers to enhance its flexural, tensile, and impact strength. This innovative approach results in strong yet lightweight architectural components, making GFRC an ideal choice for both structural and decorative applications. Read on to find out more about the pros and cons of this new technology.

Read More
Water Damage Woes: The Hidden Culprit Behind 70% of Construction Lawsuits
Jess Mishico Jess Mishico

Water Damage Woes: The Hidden Culprit Behind 70% of Construction Lawsuits

Water damage is a prevalent issue across various climatic regions in the United States, from the hot, humid Gulf Coast to the cold, arctic Alaska. The U.S. Environmental Protection Agency's (EPA) Building Assessment Survey and Evaluation (BASE) study between 1994 and 1998 revealed that 85 percent of the buildings surveyed had experienced water damage, with 45 percent actively leaking during data collection. Further studies indicated that building dampness and mold significantly increase respiratory and asthma-related health risks. Roofs, which are a primary point of water intrusion, often fail prematurely and are responsible for 40 percent of building-related issues. Read our newest blog post to find out why you should be proactive in protecting against water infiltration.

Read More
Seawater and Sea Sand: A Wave of Change in Concrete Production for Sustainable Development
Jess Mishico Jess Mishico

Seawater and Sea Sand: A Wave of Change in Concrete Production for Sustainable Development

As we all look to be more conscientious with our choices to support our environment, the construction world is looking at ways to cut back on using raw resources. With millions of tons of concrete being produced every year, researchers are looking into the validity of utilizing sea water and sea sand rather than fresh water and other raw materials. This article breaks down the structural attributes of using sea water and sand within the production of concrete and also dives into the material properties of these alternatives, themselves.

Read More
Concrete's Impact on Agriculture: Balancing Sustainability and Functionality
Annaliese Sullivan Annaliese Sullivan

Concrete's Impact on Agriculture: Balancing Sustainability and Functionality

Concrete plays a crucial role in modern agriculture, serving as the foundation for various structures essential to farm operations. However, as with any construction material, concrete production and usage come with environmental considerations, particularly concerning carbon footprints and chemical leaching.

Read More