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Standard building codes often lack the granular detail required for the unique dynamic loads and fatigue requirements of crane-supporting systems. The 4th Edition bridges this gap by providing:
: A comprehensive design example for stepped columns, which are commonly used in heavy industrial buildings to support both the crane runway and the roof structure. Standard building codes often lack the granular detail
: Practical technical information for the design and construction of steel structures in a limit states format. and transverse horizontal forces. The
: Detailed methods for calculating vertical impact, longitudinal traction, and transverse horizontal forces. Standard building codes often lack the granular detail
The , authored by R.A. MacCrimmon and published by the Canadian Institute of Steel Construction (CISC) , is the definitive technical resource for engineers designing industrial buildings that house overhead traveling cranes.
: Refined procedures for distortion-induced fatigue and repeated load assessments, using tools like the Palmgren-Miner Rule to predict structural life based on duty cycles.
: A new section specifically addressing the design of runways for cranes that utilize guide rollers instead of traditional flanged wheels. Guide rollers are more sensitive to rail misalignment and require specialized calculation for horizontal forces.
Standard building codes often lack the granular detail required for the unique dynamic loads and fatigue requirements of crane-supporting systems. The 4th Edition bridges this gap by providing:
: A comprehensive design example for stepped columns, which are commonly used in heavy industrial buildings to support both the crane runway and the roof structure.
: Practical technical information for the design and construction of steel structures in a limit states format.
: Detailed methods for calculating vertical impact, longitudinal traction, and transverse horizontal forces.
The , authored by R.A. MacCrimmon and published by the Canadian Institute of Steel Construction (CISC) , is the definitive technical resource for engineers designing industrial buildings that house overhead traveling cranes.
: Refined procedures for distortion-induced fatigue and repeated load assessments, using tools like the Palmgren-Miner Rule to predict structural life based on duty cycles.
: A new section specifically addressing the design of runways for cranes that utilize guide rollers instead of traditional flanged wheels. Guide rollers are more sensitive to rail misalignment and require specialized calculation for horizontal forces.
