Course Overview
• New Function: automatic generation of simple and editable slab.
• SLAB ENGINEERING: Automated design of reinforced concrete slabs.
• Reinforced concrete application: straight and inclined reinforcing bars, stirrups and frames, design of beams and columns from design groups, checking the strength of beams and columns from already known reinforcement, examples.
• Finite elements design moments, integration lines, examples (bidirectional reinforced concrete slab, applied to reinforced concrete: cross wall, etc.).
• Concrete calculator: design and analysis of rectangular, T, I, and unidirectional slabs, design and analysis of columns with rectangular and circular sections, examples.
• Foundation calculator: square footing, rectangular footing, strip footing, combined footings, soil resistance, factored and unweighted loads, reinforced and unreinforced footings, required reinforcement, examples.
• SLAB ENGINEERING: Automated design of reinforced concrete slabs.
• Reinforced concrete application: straight and inclined reinforcing bars, stirrups and frames, design of beams and columns from design groups, checking the strength of beams and columns from already known reinforcement, examples.
• Finite elements design moments, integration lines, examples (bidirectional reinforced concrete slab, applied to reinforced concrete: cross wall, etc.).
• Concrete calculator: design and analysis of rectangular, T, I, and unidirectional slabs, design and analysis of columns with rectangular and circular sections, examples.
• Foundation calculator: square footing, rectangular footing, strip footing, combined footings, soil resistance, factored and unweighted loads, reinforced and unreinforced footings, required reinforcement, examples.
Key Learning Objectives
At the end of this course, participants will know how to carry out the design of slabs using the application Slab Engineering as well as the design of concrete structures in the environment of the GSE Software.
GSE Concrete module
Finite elements
Mesh
Integration lines
Design Tape Holders
Parameters of the standard (A23.3-14)
Design group
Reinforcing bars
Iso-colors
Slab design wizard
Pole fringe
Punching shear
Slab and beam cracked deflections
Design example
Concrete and Foundation Calculators
GSE Concrete module
Finite elements
Mesh
Integration lines
Design Tape Holders
Parameters of the standard (A23.3-14)
Design group
Reinforcing bars
Iso-colors
Slab design wizard
Pole fringe
Punching shear
Slab and beam cracked deflections
Design example
Concrete and Foundation Calculators
Audience
Structural engineers and project managers
University researchers and professors
Mechanical engineers and project managers
Architects
Structural technicians
Estimators and designers
Designers
Other members of the manufacturing industry
University researchers and professors
Mechanical engineers and project managers
Architects
Structural technicians
Estimators and designers
Designers
Other members of the manufacturing industry
Schedule
Virtual Classroom opens : 8:00 am (EDT)
Course starts : 8:30 am
Training : 8:30 am – 10:30 am
Morning Break: 10:30 am -10:45 am
Training : 10:45 am – 12:00 pm
Lunch break : 12:00 pm – 1:00 pm
Training : 1:00 pm – 3:00 pm
Afternoon break: 3:00 pm – 3:15 pm
Training : 3:15 pm – 4:30 pm
Course Ends Q&As : 4:30 pm
Approximate schedule, may change without notice.
Course starts : 8:30 am
Training : 8:30 am – 10:30 am
Morning Break: 10:30 am -10:45 am
Training : 10:45 am – 12:00 pm
Lunch break : 12:00 pm – 1:00 pm
Training : 1:00 pm – 3:00 pm
Afternoon break: 3:00 pm – 3:15 pm
Training : 3:15 pm – 4:30 pm
Course Ends Q&As : 4:30 pm
Approximate schedule, may change without notice.
Personal Development Units
Participants receive a certificate of attestation allowing them to accumulate eligible hours for continuing education (7 hours).
Training Manual
Participants receive a printed training manual by mail to the address provided during registration.
The training manual will be sent to you in the days prior to the course date.
Other Courses available