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s-concrete
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concrete section and continuous beam design software


Concrete Design, Detailing and Optimization covers how to design and detail concrete columns, beams and walls.  Using S-CONCRETE, attendees will learn how the interface works to define sections, modify them, apply loading and then design and detail according to the ACI, CSA, and EC2 standards. 

We will also use S-LINE to define, analyze, design, and detail continuous reinforced concrete beams. In examining the results generated from these concrete design solutions, the attendees will have the opportunity study some of the calculations that go into the various design checks the software performs.

For additional class information, visit the Concrete Design registration site.
To learn more about concrete design capabilities, visit
s-frame.com/s-steel    and      s-frame.com/s-line.

 

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foundation analysis and design structural models and results

Foundation Analysis, Design, and Detailing covers all introductory topics to help the engineer become familiar with S-FOUNDATION. Participants learn how to model pads, pedestals, and piles, and various footing types. Learn how to importing superstructure models from S-FRAME. Analyze and code-checking foundations using the rigid or flexible method, generate and interpret results. A brief introduction to customizing and automating S-FOUNDATION using ToolBox Wizards is included.

For additional class information, visit the Foundation Analysis & Design Training registration page.
To learn more about S-FOUNDATION's capabilities, visit s-frame.com/s-foundation


 

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s-frame steel model


Learn how to create simple structures, apply load cases, load combinations, and run a linear static analysis using S-FRAME Analysis. Become familiar with the fundamental modeling features in S-FRAME: grid and coordinate systems, model organization, geometry definition, and load definition tools. Participants learn how to run a linear static analysis, interpret, and validate their analysis results.

For additional class information, visit the Intro to S-FRAME Analysis registration site.
To learn more about analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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s-frame analysis models and results

Complex Modeling, Non-Linear Analysis, Meshing and BIM Links

Advanced S-FRAME Analysis (G103) builds on the fundamentals presented in Introduction to S-FRAME Analysis (G101) to cover advanced features and topics. Participants will learn about complex geometry modeling, 2D analysis objects, and S-FRAME's powerful meshing tools. You will apply moving loads, and learn how and when to run different advanced analyses such as P-Delta, Non-Linear, and Vibration Analysis. This course also demonstrates S-FRAME's two-way BIM and DXF links.

For more class information, visit the Advanced S-FRAME Analysis registration site.
To learn more about analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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dynamic analysis for a structural model



Dynamics for Structural Engineers is designed to deliver an in-depth introduction to dynamics with an emphasis on vibrations and the dynamic analysis of structures. Topics covered include free and forced vibrations, damping, resonance, response spectrum analysis, time history analysis, ground-motion response, vibration isolation, and many other topics relevant to structural engineers. Discussions on finite element modeling techniques, expected accuracy, and pitfalls are the focus of many of the practical examples we demonstrate using S-FRAME Analysis.

Successful completion of this class will provide a strong foundation in structural dynamics including how to run and interpret different dynamic analysis on structural models of varying complexities and applications.

For additional class information, visit the Dynamics for Structural Engineers registration site.
To learn more about analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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structural model and seismic analysis  results


Learn how to perform seismic analysis and design using S-FRAME. Using theory and numerous examples, this course presents an in-depth explanation of how to perform seismic investigations on your structures. Discussions on the merits of different analysis methods, their relationship to seismic design codes and their expected accuracy or pitfalls are the focus of the many practical examples demonstrated in this course. Topics include earthquake engineering, response spectrum analysis, equivalent static force procedures, rigid and semi-rigid diaphragms, time history analysis, material plasticity and damping, performance-based design, pushover and quasi-static analysis and more.

For additional class information, visit the Seismic Analysis and Design registration page.
To learn more about S-FRAME's analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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fabric structure and cable structure


 

Learn about the benefits of performing a higher-order Finite Element Analyses. Participants will be able to assess a structure maximum load capacity, key deformations, buckling loads, learn to model and analyze more accurate models that include advanced structural elements:  cables, fabric, hooks, gaps, link beams, tension/compression-only members, nonlinear springs, plasticity, hysteretic behavior, and more. A large part of the course is dedicated to comparing results from different analysis types, discussing the reasons behind the differences, drawing conclusions and making recommendations.

For additional class information, visit the Nonlinear and P-Delta FE Analysis registration site.
To learn more about S-FRAME's analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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finite elements models and theory


Learn how to define and mesh complex geometries in arbitrary 3D orientations how to correctly load them, understand the difference a high-quality mesh can make and how to easily generate one using S-FRAME's powerful auto-meshers.   Become more confident in matters relating to solution convergence and result validation using S-VIEW.   Learn how to apply hydrostatic loading or soil pressure to structures, how to accurately connect members to shells, and how to use S-FRAME's wall integration lines to design reinforced concrete shear walls using S-CONCRETE.

For additional class information, visit the Finite Element Analysis Applications registration site.
To learn more about analysis and design capabilities, visit s-frame.com/s-frame-analysis.


 

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steel structural design model

Steel Design and Optimization with S-STEEL (P201) is an introductory course for structural and civil engineers. Topics covered include how to define an accurate analysis model, execute a performance assessment on a steel structure, and how to optimize steel section choice to different user-defined criteria such as weight, availability, or cost. 

For additional class information, visit the Steel Design and Optimization registration site.
To learn more about S-STEEL design capabilities, visit s-frame.com/s-steel.

 

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steel design and optimization of steel tower


Broaden your steel design expertise using S-STEEL's design and optimization tools. See how to design non-conventional members and sections including composite beams, double angle struts, custom sections and others.  Work more efficiently by configuring S-STEEL settings and exporting customized engineering documentation. This course also covers Scratch Pad, a built-in S-STEEL design tool, useful for performing additional design checks without the need to define an entire model.

For additional class information, visit the Advanced Steel Design registration site.
To learn more about analysis and design capabilities, visit s-frame.com/s-steel.



 

s-timber
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timber structure with design results

This introductory timber design class uses S-TIMBER to explain how to model, analyze and design timber structures. Participants will gain experience with working with S-TIMBER's modeling tools, spreadsheets, analysis capabilities, code-checks, and interpreting the design results (graphical and tabular). By the end of this class participants will have gained enough familiarity with S-TIMBER to begin using the software productively.

For additional class information, visit the Timber Analysis & Design Training registration page.
To learn more about S-TIMBER analysis and design capabilities, visit s-frame.com/s-timber.