In the architecture of light steel framing, the connection between a cold-formed steel (CFS) column and its concrete foundation is a nexus of complex forces. While the column efficiently transfers axial and lateral loads down its slender web, the anchor bolt must translate these forces into the mass of the footing. This interface, however, is not a simple meeting of steel and concrete; it is a zone of stress concentration, eccentricity, and potential failure. Recognizing this critical juncture, the American Iron and Steel Institute’s Standard for Cold-Formed Steel Framing – Design (AISI E 1) dedicates Volume II, Part VII to a seemingly humble yet structurally vital component: the anchor bolt chair .
However, without standardized guidance, chairs were historically over-welded, under-designed, or ignored in calculations. Part VII rectifies this by treating the chair not as accessory steel but as an integral part of the CFS assembly. It defines the chair’s geometry (angle legs, thickness, weld pattern) and, crucially, mandates that the chair’s resistance be no less than the design strength of the anchor bolt itself. This “capacity matching” principle prevents a brittle chair failure before a ductile bolt yields. The technical heart of Part VII lies in its prescriptive yet rational design checks. The standard requires the engineer to verify three distinct limit states: aisi e 1- volume ii- part vii anchor bolt chairs
This essay argues that AISI E 1, Volume II, Part VII transforms the anchor bolt chair from a shop-fabricated convenience into a rigorous, code-prescribed structural element. By establishing explicit design procedures for the chair’s three primary failure modes—bending of the angle, tension rupture of the web, and bearing at the bolt hole—Part VII bridges the gap between empirical practice and rational engineering, ensuring that the anchorage does not become the hidden weak link in the lateral load path. A bare anchor bolt projecting from a foundation presents a problem. When a CFS column is set over it, the bolt typically bears against the thin web of the column. Under uplift (wind or seismic overturning), the concentrated load can tear through the web, a failure known as “pulling through.” The anchor bolt chair—typically fabricated from a pair of steel angles welded to a base plate—solves this by transferring the bolt’s tension directly into the column’s web over a broader, more ductile region. In the architecture of light steel framing, the