Climate-Responsive Design: Balancing Resilience, Thermal Performance and Embodied Carbon with Concrete Masonry
This course explores how using concrete masonry units (CMU) in the built environment provides an integrated approach to climate-responsive design by simultaneously addressing three critical sustainability strategies: resilience, operational energy use, and embodied carbon reduction. Participants will examine how CMU construction offers inherent solutions to modern building challenges, from natural disasters and extreme weather events to energy conservation and carbon footprint reduction. The course demonstrates that CMU structures perform beyond code requirements without additional measures, providing durable, cost-effective buildings that support community resilience while contributing to low embodied carbon goals.
Concrete Masonry: From Manufacturing to Structural Applications
This module explores the fundamentals of concrete masonry construction, beginning with the manufacturing process of concrete masonry units (CMUs) and examining both standard gray block and architectural finishes.
Participants will learn about various CMU shapes, sizes, and modular design principles that optimize construction efficiency. The course covers essential structural considerations, including the differences between unit compressive strength and specified masonry assembly strength (f’m), and examines how tall structures can be built using concrete masonry.
Additionally, the module introduces efficient design strategies that help reduce both project costs and embodied carbon, making concrete masonry an economical and sustainable building solution.
Concrete Masonry: Inherent Resilience
Concrete masonry construction is resilient on its own, without the need for special provisions or extra fortifying costs, and it doesn’t need to be rebuilt after most natural or human-made disasters. Concrete masonry is inherently resilient beyond code requirements. By considering lifecycle costs rather than just initial construction expenses, concrete masonry offers significant advantages, including buildings that can withstand extreme events, reduce recovery costs, and maintain community continuity—qualities that are becoming increasingly important as disasters occur more frequently across all regions of the country.
Core Performance: The 5 Ss of Concrete Masonry
Concrete masonry is commonly used for structural and architectural walls in buildings. Knowing the full extent of its applications and capabilities is important for designers to make resilient, sustainable, and cost-effective buildings.
The intent of this course is to provide a general overview of the properties and performance characteristics of concrete masonry walls. Attendees will learn about how to take advantage of and maximize the features and capabilities of concrete masonry units.