EDUCATION PROVIDER PROGRAM (EPP)

Strength and conditioning facilities are designed for high-performance athlete training at the professional, international, national, collegiate, and high school levels. These facilities are fundamentally different than commercial fitness centers (which focus on improving general fitness) and must be custom designed for the athletes’ sport-specific training programs. This course reviews key design considerations for these facilities, including specialized flooring construction required for athlete safety and preservation of building structure.

ONGOING - FREE - 1 HOUR

Interlocking concrete pavers (ICP) have the ability to spread applied loads via the interlock between each unit. This means that the surface does not respond structurally as single pavers but as a composite paved surface. This structural characteristic of ICP allows the design method for these pavements to be based on flexible pavement design. In this course, we examine the ASCE and ICPI structural design methods for ICP and review examples using different soil strengths/stiffnesses and traffic uses. Finally, we survey the design and construction support material and software available from the Interlocking Concrete Pavement Institute.

ONGOING

For many applications, well-designed glass fiber reinforced plastic (FRP) composites deliver significant value and advantages over metal, wood, or concrete materials. In corrosive environments, FRP can decrease maintenance downtime and offer cost savings. This course identifies the components of FRP composites and discusses how using FRP can provide substantial, life-cycle cost savings and a long, maintenance-free service life along with meeting FM and UL wind and fire approvals. Various case studies are also examined.

ONGOING - FREE - 1 HOUR

Structural laminated decking allows the beauty of the wood structure to be exposed, creating a unique architectural experience for its occupants. Aesthetics, strength, and durability are combined in one engineered product. Structural laminated wood decking is an environmentally sustainable and cost-effective alternative to solid timber and other roof systems. This course discusses the characteristics of laminated wood decking and reviews recommended design, specification, and installation practices.

With the ever-increasing focus on the environmental impact and carbon footprint of buildings, building owners, architects, engineers, and contractors are looking for more information about the impacts of incorporating structural steel into their designs. Presented here is a comprehensive view of the cradle-to-cradle life cycle of structural steel from raw materials through to deconstruction and recycling. We look at how structural steel contributes to LEED® v4 BD+C Materials and Resources credits. The course also details two other important considerations when specifying sustainable structural steel: heat transfer and fireproofing.

Sublimation transfer printing is an innovative technology used to transfer designs, effects, and finishes onto both metallic and nonmetallic surfaces. In this course, we explore the science behind sublimation printing and identify the benefits of the sublimation process on aluminum profiles, including advantages to sustainability. Applicable tests, performance criteria, and case studies are also shown.

High-performance, fully composite insulated wall panels deliver all the benefits of factory precasting with load-bearing and energy efficiency performance from the lightest, thinnest panels possible. This course describes the makeup and cost efficiencies of composite precast panels, their benefits when made with carbon fiber grid shear trusses, and considerations for selecting among the insulation options. The majority of the course focuses on case studies of successful precast enclosure projects in a wide variety of building types across a range of markets.

ONGOING

Exterior shading devices offer a number of advantages that contribute to a more sustainable building, including minimizing cooling costs, reducing peak electricity demand, and controlling glare. These benefits result in greater occupant comfort and improved productivity. This course provides a review of exterior aluminum shading device systems, including the components, finishes, and design and engineering considerations, as well as a discussion of how shading strategies contribute to LEED® certification.

Rooftop deck systems offer the design flexibility to create adaptable, sustainable outdoor spaces that provide myriad environmental, social, economic, and aesthetic benefits. This course presents the three pillars of sustainability and how building products, materials, and systems can contribute to sustainable design. It outlines forest management objectives and practices and the responsible sourcing of wood for rooftop deck tiles. Case studies exemplify how rooftop deck systems can contribute to sustainable design objectives.

Building a stronger connection with nature is critical to maintaining human health and well-being. Composite wood decking is a durable, environmentally sustainable product that can help build links with nature through outdoor living spaces. This course examines the different decking options and explains the sustainability benefits of using composite decking and how it can help meet green building requirements. Various design innovations that enhance occupant well-being are also discussed.

ONGOING - FREE - 1 HOUR

Assesses the urban environmental issues of stormwater runoff and heat islands and describes how their damaging impacts can be mitigated by blue, white, and green roofs. The considerations and additional benefits of each roof type are also discussed.

ONGOING - FREE - 1 HOUR

Well-designed, well-maintained outdoor decks and siding can add utility, pleasure, and value to every home and business. If poorly maintained, they can diminish all those attributes. This course explains the optimized advantages of ultra-low-maintenance composite decking and siding boards. Composite boards are formulated and manufactured in an environmentally beneficial manner and virtually eliminate maintenance and aging concerns. Their usage results in strong, safe, moisture- and insect-resistant, aesthetically appealing decking and siding projects in all contexts. 

Other coastal softwood species can be used in many of the same applications as western red cedar, including yellow cedar, western hemlock, and Douglas fir. Their performance characteristics vary, giving each species its specific use for structural or appearance applications. This course reviews each softwood species and discusses the importance of sustainably managed forests in curbing climate change.

Sustainable building envelopes demand high performance from and proper installation of continuous insulation and air, water, and vapor control layers. What happens when thousands of holes are made in these materials as they are installed with blind fasteners, one layer on top of another by different subcontractors? Sequencing issues can generally not be avoided; instead, this course focuses on self-sealing fasteners as a solution to avoid damage and thermal bridging in insulation and control layers. Various fasteners and anchors are described, and recommendations are presented for how to specify and what testing data to look for.

Innovative and sustainable, powder-coated/sublimated extruded aluminum products are ideal for exterior, interior, and high-traffic architectural applications. Reviewed in this course is an overview of the properties and finishing processes of this material along with discussions of its applications, design criteria, and testing standards.