Brick Veneer/Steel Stud Wall Design AIA HSW
C. Huang, Ph.D., PE
Brick veneer/steel stud wall system is one of the most commonly used wall systems for both low-rise and high-rise buildings. This course provides general guidance on brick veneer/steel stud wall system design to engineers, architects, and contractors. The course materials are based on Tech Note 28B of The Brick Industry Association, which addresses the considerations and recommendations for the design, detailing, materials selection and construction of brick veneer/steel stud panel walls. The information presented pertains to behavior of veneer, differential movement, ties and anchors, air space, detailing, selection of materials and construction techniques.
This course includes a multiple-choice quiz at the end, which is designed to enhance the understanding of course materials.
At the conclusion of this course, the student will be able to:
The brick veneer/steel stud wall system is one of the most common building exteriors for commercial and institutional structures. The system offers many benefits, such as attractive appearance, high resistance to water penetration, low thermal transmission rate and low maintenance.
Although the project architect is responsible for the detailing of brick walls, it is beneficial for structural engineers to have a thorough understanding of the entire brick veneer/steel stud system. Besides, the structural engineer of record is often responsible for establishing the following design criteria for the steel studs supporting brick veneer:
1. Building Code and Year
2. Wind Speed
3. Building Category or Importance Factor
4. Building Exposure
5. Deflection Limitation
6. Minimum Material Thickness
For non-load bearing walls, slide connections are usually required at or near the top of studs. There are several types of slide clips on the market. The innovative Verticlips distributed by The Steel Network offer solutions for many different applications.
For load-bearing studs, the designer shall emphasize the importance of direct bearing between stud and webs of top and bottom tracks. In other words, no gap is permitted at the top and bottom of load-bearing studs.
In this lesson, you will be directed to the website of Brick Industry of America (BIA) to study the Technical Note 28B - Brick Veneer, Steel Stud Walls (PDF format, 2005 edition, 15 pages).
Please click on the above underlined hypertext to view, download or print the document for your study. This technical document can be downloaded or printed free of charge.
For more information about steel studs, the reader may refer to PDH online course S101 "An Overview of Cold-Formed Steel Structures", or visit the website of Clark Steel Framing System. This website contains valuable technical resources for engineers interested in the design of cold-formed steel. For those of you who are interested in learning more about the design of steel stud walls, you are encouraged to take PDH online course S140 "Cold-Formed Steel Framing Design using AISIWINTM Software". AISIWINTM was developed by Devco Software, Inc., and is available for free distribution at Clark Steel Framing's web site www.clarksteel.com.
For additional technical information related to this subject, please visit the following websites or web pages:
Once you finish studying the Technical Note 28B - Brick Veneer, Steel Stud Walls, you need to take a quiz to obtain the PDH units.