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Investigation of the slip modulus between cold-formed steel and plywood sheathing

Master of Science / Department of Architectural Engineering and Construction Sciences / Kimberly Waggle Kramer / Bill Zhang / Cold-formed steel members quickly are becoming a popular material for both commercial and
residential construction around the world. Their high strength to weight ratio makes them a
viable alternative to timber framing. In most cases cold-formed steel is used as a repetitive
member in floor, wall, or roof assemblies. Structural sheathing is used in conjunction with the
framing members in order to transfer loads between individual members. This sheathing is
connected mechanically to the cold-formed steel through a variety of methods. The most
common method uses screws spaced at close intervals, usually between 6 to 12 inches on center.
When such assemblies are constructed, load is transferred from the sheathing through the
connectors into the cold-formed steel, forming a composite assembly in which load is transferred
and shared between two materials, providing a higher strength and stiffness over individual
members themselves. The amount of load that can be transferred is dependent on the amount of
slip that occurs when the assembly is loaded. This slip value describes the amount of composite
action that takes place in the assembly. The amount of slip can be described by a value called
the slip modulus. The composite, or effective, bending stiffness can be calculated using the slip
modulus. In current design of cold-formed steel composite assemblies this composite action is
not being taken into account due to a lack of research and understanding of the composite
stiffness present in these assemblies. Taking composite action into account can lead to decreased
member sizes or increased spacing of members, thereby economizing design. Furthermore,
improved understanding of the effective stiffness can lead to more accurate design for vibrations
in floor systems. This thesis tests cold-formed steel plywood composite members in an effort to
verify previously established slip modulus values for varying steel thicknesses and establishes
new values for varying fastener spacings. The slip modulus values obtained are used to calculate
effective bending stiffness values in an effort to prove that composite action should be utilized in
design of cold-formed steel composite assemblies.

Identiferoai:union.ndltd.org:KSU/oai:krex.k-state.edu:2097/17568
Date January 1900
CreatorsMartin, Geoff
PublisherKansas State University
Source SetsK-State Research Exchange
Languageen_US
Detected LanguageEnglish
TypeThesis

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