Expert Insights
Built on decades of experience and a deep network of knowledge, Wells industry experts share their thoughts on industry trends and technical guidance to lessons learned in the field.
Speed, Sanitation and Stability: How Prefabrication Excels in Food Processing Construction and Facility Design
Prefabricated food processing provides the best of both steel and concrete – making it a durable building solution meeting the needs of food processing facilities.
Maximizing Savings Through Early Involvement and Value Engineering in Prefabricated Construction
Engaging a prefabricator during preconstruction is critically important, as they can help guide design decisions with an eye for efficiency and value-engineering.
Multi-Family Design and Construction: How Prefabricated Building Systems are Meeting the Challenge
Given the variety of multi-family developer designs, visions and budgets, there’s likely a prefabricated solution that meets the need.
Balancing Budget and Beauty in Public Construction Projects
To achieve the desired goals, more and more communities are turning to prefabricated building solutions, harnessing the ability to mimic traditional materials, provide a durable, efficient building solution and meet their schedule.
The Ultimate Guide to Commercial Waterproofing in Construction
Discover the importance of commercial waterproofing in construction. Learn methods to waterproof concrete effectively. Wells Sealants and Restoration provides concrete waterproofing services.
The Complete Guide to Designing for Prefabricated Construction
Discover how prefabrication is changing the design and construction industry. Learn how this approach is saving time, reducing costs and delivering exceptional results.
Why Precast Concrete is Built to Last: Durability, Maintenance, and Long-Term Value
During manufacturing, panels and beams are typically constructed using high-strength concrete, measured in its pounds per square inch (psi) compressive strength. When constructing precast insulated wall panels, for example, pre-tensioning strands are tensioned to 65 to 70 percent of their ultimate strength before the concrete is poured.
