S-STEEL Design

Steel Structural Design and Optimization Solution

Code check and auto design steel members for both strength and serviceability. Select from an extensive range of optimization criteria, design codes and constraints to satisfy your design and performance assessment needs from the preliminary to final design stages, ensuring structural safety and economy.

Comprehensive engineering reports in graphical and tabular format include design results, interactive formulas, equations, and graphics.

S-STEEL design image

S-STEEL Design Interface

S-STEEL executes entirely within the S-FRAME Analysis environment supporting linear and nonlinear static, response spectrum, linear and nonlinear time history (including base and multi-support base motion), linear and non-linear moving-load analyses, and Staged Construction. Access all the S-FRAME Analysis features, including the powerful model management system (folder technology, selection options, shortcut tools, S-VIEW’s model validation, and more.

Quickly locate and assess critical areas requiring re-design. Select specific members using multiple filtering options.

Override section sizes for all members or a subset of members and immediately see if they pass or fail the code checks, why and by how much.

steel design

pass through foces for connection design

S-STEEL Design Options

Multiple settings and options exist to meet preferences and or requirements in your design workflow , from how the design results are to be displayed, to the level of details or format of Code Details.

Users can instruct S-STEEL what to do when changes were made to analyzed section, before returning to S-FRAME Analysis.

S-STEEL Design Reports

Generate company-branded, customized reports in graphical or tabular format.

Comprehensive steel design results include equations and clause references for members that pass or fail with users having the options to show as much information as possible, or only the results that are relevant to the problem in hand.

steel design results showing failing code references
steel design report

Steel Design Codes

Canadian

  • CSA-S16-2014
  • CSA-S16-2009

American

  • ASCE 10-15 (coming soon)
  • AISC 360-16 LRFD/ASD
  • AISC 360-10 LRFD/ASD
  • AISC 360-05 LRFD/ASD

European

  • EN 1993-1:2005
  • EN 1993-1:2005/ UK Annex
  • BS 5950:2000

Additional Regions

  • EN 1993-1:2005/ Singapore Annex
  • Hong Kong Steel 2005 & 2011
  • AS 4100-1998
  • NZS 3404:1997

The Steel Design Examples for Structural Engineers

cisc steel design examples
The Steel Design Examples for Structural Engineers document contains 33 Canadian Code CSA S16-14 steel design examples. These design examples are adopted from a subset of the AISC’s publication Design Examples (version 14.2) with all examples converted to metric units.
All thirty-three design examples include S-FRAME/S-STEEL example (.TEL) files that help illustrate the CSA S16-14 steel design code.
Included in this document are examples for

  • Axial Loaded Steel Members
  • Designing Steel Members for Flexure
  • Shear Design of Steel Members
  • Designing Members for Torsion

Composite Beam Support for

  • CISC S16-14,09 and AISC 360-16,10 LRFD/ASD codes
  • Partial or full composite sections
  • Metal deck configurations
  • Multiple concrete strengths and densities can be specified
  • Available for both automated Design and Code Check input windows
  • Automatic calculation of “Stud Capacity” and “Number of Studs Required” over shear span
  • Positive and negative bending moments
  • Shored and un-shored construction
  • Parallel and perpendicular ribs
  • Strength and Serviceability checks
  • Accounts for shrinkage and creep

Scratch Pad

Use Scratch Pad, a simple and intuitive spreadsheet Interface to

  • Explore alternative design options for a single member
  • Override S-STEEL’s restrictions on specific design paraments
  • Interrogate the S-STEEL code check and design results

Scratch Pad can be deployed as a standalone application running as S-PAD.

steel member design using S-PAD

Purchasing

 

S-STEEL can be purchased as an add-on design module for S-FRAME Analysis; users must already own a license for S-FRAME Analysis (any edition).

 

System Requirements

  • S-FRAME Analysis installation
  • PC-based : Windows® 10, 8, 7 or Vista
  • Min 2 GB RAM, Recommended 4 GB or more
  • Graphics: DirectX 9.0c compatible graphics card – Must support hardware vertex processing

Support

S-FRAME Analysis is a tried and trusted structural analysis and design solution, developed and supported for over 30 years. Clients who purchase S-FRAME Analysis licenses are entitled to annual support and maintenance benefits.

  • Email and telephone client support backed by the industry’s most dedicated and responsive engineering team
  • Access to all new releases
  • Free and discounted training
  • Flexible licensing adaptive for all office installation configurations from standalone installation, local area network to Global
  • Wide Area Licencing

Recent Enhancements

  • Calculation of Pass Through Forces used in steel connection design New in R2017
  • New Warping Constraint tool added to facilitate torsion design New in R2017
  • Torsion design of all closed and open sections supported for AISC 360-10 and AISC 360-16 (ASD and LRFD), CSA S16-14 and EC3 codes.

Improve workflow efficiency by working within S-FRAME ‘s GUI with support for linear static, response spectrum, linear and nonlinear time history (including base and multi-support base motion), linear and non-linear moving-load analyses, and the new Staged Construction Module. Access all S-FRAME’s features including the new S-VIEW feature while performing steel design code checking and optimization.

  • S-FRAME and S-STEEL are integrated in one common environment
  • Support for design of composite floors added to S16-09 Code
  • New Composite Beam Support for:
  • CISC S16-09 and AISC 360-10 LRFD/ASD codes
  • Partial or full composite section
  • Metal deck configurations
  • Multiple concrete strengths and densities can be specified
  • Available for both automated Design and Code Check input windows
  • Automatic calculation of “Stud Capacity” and “Number of Studs Required” over shear span
  • Positive and negative bending moments
  • Shored and un-shored construction
  • Parallel and perpendicular ribs
  • Strength and Serviceability checks
  • Accounts for shrinkage and creep
  • New Staged Construction Analysis and Design Module
  • Span deflection limits can be assigned to each member, including cantilever members
  • Assign member attributes to distinguish cantilever members from doubly supported interior members for service level deflection checks
  • New design supports the Hong Kong Use of Steel (SUOS05 and SUOS11)
  • It is now possible to select only those Service Loads for which deflection checks are required