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OasisLMS
This badge was issued to
Rusty Kucher
on
May 01, 2024
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Advanced Prestressed Design On-Demand Series Completion
Earning Criteria
Advanced Prestressed Concrete Part 1: Introduction to Building Example, Torsion Design
Advanced Prestressed Concrete Part 2: Ledge Design
Advanced Prestressed Concrete Part 3: Bearing on Concrete and Dapped End Design
Advanced Prestressed Concrete Part 4: Design of Axially Loaded Members (Compression + Bending)
Advanced Prestressed Concrete Part 5: Corbel Design
Advanced Prestressed Concrete Part 6: Transverse Design of Double Tee Flanges
Educational Benefits
Understand Torsion Design Provisions
Application of Equations for Torsion Design
Understand Failure Mechanisms of Ledges
Apply Design Procedures to Ledges to Avoid Failure
Understand Failure Mechanisms in Dapped Ends
Understand Load Transfer Characteristics of Dapped Ends
Apply Design Procedures to Dapped Ends
Understand P-M Interaction Diagrams
Recognize How Factors of Compression Members Affect the Diagram
Learn Design Procedures of ACI 318-14 Code Applicable to Slender Compression Members
Ability to Calculate the Strength of Compression Members Under Pure Axial Load
Design Corbels Using the Cantilever Beam Method
Design Corbels Using the Strut-and-Tie Model
Recognize Failure Modes of Corbels
Learn Design of Double Tee Flanges Under Transverse Bending
Treatment of Uniformly Applied Loads and Point Loads for Transverse Design of Double Tee Flanges
Learn Design and Detail of Opening in Webs of Double Tees
Identify Issues Related to Double Tee Warping
Verification
Issued to
Rusty Kucher
Issued on
May 01, 2024
Issued by
Precast/Prestressed Concrete Institute
Verified
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