AASHTO LRFD Bridge Design Specifications: Steel Structures
Online course |
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50 hours / 6 weeks |
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Dates: to be determined |
Introduction
AASHTO LRFD Bridge Design Specifications cover the design of highway bridges. This course will present Section 6: Steel Structures of the AASHTO LRFD Bridge Design Specifications. Material requirements, required limit states, flexure, shear, fatigue, axial loading and connection design will be covered. Design examples and resources for steel bridge components will be included.
Objectives
At the completion of this course, engineers will understand the AASHTO LRFD Bridge Design Specification steel bridge component design philosophy and code requirements.
Limited places.
Contents Tab
Module 1: Introduction, Materials, Limit States
Module 2: Fatigue and Fracture
Module 3: Tension and Compression
Module 4: Flexure and Shear
Module 5: Connections
Dr. Wood
Dr. Wood has over 20 years of experience in structural engineering, primarily in roadway structures. Prior to joining E.L. Robinson Engineering as Senior Structural Engineer, Dr. Wood spent over 10 years with the Ohio Department of Transportation where he focused on plan production and standards development. He has also taught as an adjunct faculty at the Ohio State University. He has been involved with the design and review of bridge projects including deck replacement projects, highly skewed and curved steel plate girder projects requiring FEM, post-tensioned segmental girders, and accelerated bridge construction projects.
Within this virtual platform, students are in continuous contact with professor in a tailored way, solving questions together, and widening knowledge and acquiring new skills. Students can also interact with other students and professors through webinars and forums.
This course is developed for engineers new to the use of AASHTO LRFD Bridge Design Specifications.
As evidence of knowledge gained throughout the course, a certificate will be issued from the Virtual platform. This certificate is based on the modern technology Blockchain, which increases security, prevents fraud, builds trust and ensures you’re ready for the future.
Steel component design is a core requirement for structural engineers. This course will ensure engineers have the knowledge required to become involved in the design of steel bridge components.
Introduction
AASHTO LRFD Bridge Design Specifications cover the design of highway bridges. This course will present Section 6: Steel Structures of the AASHTO LRFD Bridge Design Specifications. Material requirements, required limit states, flexure, shear, fatigue, axial loading and connection design will be covered. Design examples and resources for steel bridge components will be included.
Objectives
At the completion of this course, engineers will understand the AASHTO LRFD Bridge Design Specification steel bridge component design philosophy and code requirements.
Limited places.
Contents Tab
Module 1: Introduction, Materials, Limit States
Module 2: Fatigue and Fracture
Module 3: Tension and Compression
Module 4: Flexure and Shear
Module 5: Connections
Dr. Wood
Dr. Wood has over 20 years of experience in structural engineering, primarily in roadway structures. Prior to joining E.L. Robinson Engineering as Senior Structural Engineer, Dr. Wood spent over 10 years with the Ohio Department of Transportation where he focused on plan production and standards development. He has also taught as an adjunct faculty at the Ohio State University. He has been involved with the design and review of bridge projects including deck replacement projects, highly skewed and curved steel plate girder projects requiring FEM, post-tensioned segmental girders, and accelerated bridge construction projects.
Within this virtual platform, students are in continuous contact with professor in a tailored way, solving questions together, and widening knowledge and acquiring new skills. Students can also interact with other students and professors through webinars and forums.
This course is developed for engineers new to the use of AASHTO LRFD Bridge Design Specifications.
As evidence of knowledge gained throughout the course, a certificate will be issued from the Virtual platform. This certificate is based on the modern technology Blockchain, which increases security, prevents fraud, builds trust and ensures you’re ready for the future.
Steel component design is a core requirement for structural engineers. This course will ensure engineers have the knowledge required to become involved in the design of steel bridge components.
More info
Finish this course and get a certificate based on Blockchain
AASHTO LRFD Bridge Design Specifications: Steel Structures
Blockchain technology makes the certificate incorruptible, enabling companies to verifiy its autenticity.
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