S-FRAME Analysis Feature List

Model, analyze and design structures to multiple international design codes within an easy-to-use, customizable model-management interface. Ideal for both buildings and industrial applications, S-FRAME’s flexibility lends itself to working with any type of structure.

S-FRAME Analysis licensing is available in three different editions: Standard, Professional and Enterprise.

S-FRAME Modeling CapabilitiesStandard ProfessionalEnterprise
Model Size: Virtually unlimited-sized models
Coordinate Systems: User defined for building complex geometry and loading
Cartesian
Cylindrical
Spherical
Member Patterns: To easily generate elements of regular and complex structures
Continuous Member tools for the assembly or disassembly of Physical Members from Analytical Members
Partial Releases for modeling semi rigid connections
Rigid Offsets
Panels with or without holes with automatic finite element meshing and area load distribution options
Rigid and flexible diaphragm modeling
Advanced 3D meshing with triangular elements, quadrilateral elements or both
Meshing tools automatically detects non-coplanar panel intersections and ensures compatible connections along the line of intersections
Meshing tools convert members to meshed panels
Easily extract forces for structural objects from finite elements
Wall Integration Lines
Piers
Strip Integration Lines
Views (S-FRAME and S-VIEW)
Object Model View
Element Model View
Plans and Elevations
Interactive Database Editing

S-FRAME Structural ComponentsStandardProfessionalEnterprise
Joints
Frames
Uniform and Tapered Section Properties
Inactive
Truss
Cables
Shells, Plates, Membranes
Triangular
Quadrilateral
Springs
Linear Axial and Torsional
Nonlinear Axial and Torsional
Tension Only Members
Compression Only Members
Nonlinear Link Elements: Gaps and Hooks
Nonlinear Link Elements: Plasticity, Dampers, Isolators
Nonlinear Springs, Isolators

S-FRAME LoadingStandardProfessionalEnterprise
User Loads
Force/Moment
Displacement
Temperature
Point, Uniform, Trapezoidal, and Area Loads
Automatic one-way (short, long, or in any direction) or two-way area load distribution
Open Structure Wind Loading
Powerful load-combination methods with notional loads and active/non-active status
Response Spectrum Load: Automatic Code based generation options
Moving Load
Time History Load
Prestressed Tendon Load
Nonlinear Quasi Static

S-FRAME Analysis CapabilitiesStandardProfessionalEnterprise
Fast, 32 and 64 bit SPARSE solver
Linear Static Analysis
Direct Analysis Method (DM): Rigorous second-order analysis in a single run
P-Δ Effects
P-δ Effects
Notional Loads
τB with amplification factors reported
Eigenvalue Analysis
Unstressed Vibration
P-Delta Stressed Vibration
P-Delta (2-step) Analysis
P-Delta Buckling Analysis
Mode shape/deflection animation
Response Spectrum Analysis
Equivalent Static Force Procedure (ESFP), including P-Delta contributions, for NBCC 2005, NBCC2010
Equivalent Lateral Force Procedure (ELFP), including P-Delta contributions, for ASCE 7-05
Options to scale to code base shear (ESFP/ELF) and to convert loads to mass
Five different modal combination methods including CQC and SRSS
Torsional sensitivity evaluation and accidental torsion calculations
Linear Time History Analysis
Constant or variable time step integration with support for initial conditions and options to convert loads to mass
Single or Multi-support Base Motion Time History for seismic analysis
Support for cyclic/harmonic loading force or acceleration & time history functions
Automatic response charts and automatic response spectrum for any point within the structure.
Static load cases combined with dynamic load cases can be treated in one of two ways – solved and combined dynamically (pure dynamic analysis), or solved statically and combined arithmetically
Solve using standard forcing functions: Harmonic, Polynomial and Linear
Combine static and dynamic loads for constant and variable time step integration.
Moving Load Analysis
Influence line diagrams.
User definable vehicle patterns with up to 1500 axle loads. Multiple loads on multiple lanes following any 3D path
Combine moving loads with static load cases or combinations
One node and two node viscous dampers (dashpots)
Staged Construction analysis and design of steel and concrete structures
Nonlinear Analysis: Full Newton-Raphson iterative solver with incremental loading
Static
Moving Loads
Time History: Uses direct integration and allows combination of dynamic and static load cases.
Nonlinear General Dynamic Analysis with user defined time dependent loads including impact loading.
Nonlinear Seismic Analysis
Stressed Vibration
Base Motion Time History
Multi-support Base Motion Time History
Nonlinear Buckling Analysis
Nonlinear Quasi-static and Pushover analysis to aid performance based design
Nonlinear time history with standard forcing functions: Harmonic, Polynomial and Linear
Nonlinear ground springs supporting hook and gap characteristics and multi-linear stiffness
True cable, tension or compression only elements and fabric elements
Material nonlinearity through hysteretic modeling of link beams and base isolators using Kinematic Bilinear, Isotropic Bilinear, Symmetric Bilinear, Takeda Bilinear and Pivot Hysteresis Models.
Convergence criteria based on Energy and out-of-balance force
Combine static and dynamic loads for constant and variable time step integration
Sophisticated 3 and 4 node elements participate fully in P-Delta and non-linear analysis

All S-FRAME Analysis editions have the option to include integrated steel and concrete design capabilities.
S-STEEL and ICD *

S-FRAME Design CapabilitiesStandardProfessionalEnterprise
Integrated design and optimization for strength and serviceability
Detailed reporting and quantity take-off with full round-tripping between analysis and design
Supports composite beam design and design of tapered sections using AISC Design Guide 25
Integrated steel member code checking and optimization (S-STEEL)
Integrated concrete design and detailing (ICD)
Beams
Columns (including composite columns)
Walls
Slabs
Foundations
Seismic concrete design for variable ductility requirements

S-FRAME Output and DisplayStandardProfessionalEnterprise
Deformed Geometry
Force Diagrams
General Displacement
Section Cuts
Influence Lines
Plot Functions
Tabular Output
Video Animations

S-FRAME ReportingStandardProfessionalEnterprise
Industy's Most Comprehensive Engineering Reports
Quick Reports to PDF
Advanced, Customizable reports to Word

S-FRAME Design Tools CompatibilityStandardProfessionalEnterprise
S-STEEL: An interactive steel design and analysis tool, used to optimize your design according to numerous design codes and user-defined constraints (weight, surface area, architectural, fabrication constraints and more)
S-CONCRETE: Analysis, Design and Detailing Tool for Reinforced Concrete Beam, Columns and Wall sections
S-LINE: Reinforced Concrete continuous beam Design and Detailing application
S-FOUNDATION: A complete analysis, design and detailing tool for simple and complex foundation configurations
S-CALC: An advanced cross section property calculator

S-FRAME Import and ExportStandardProfessionalEnterprise
Newly Designed Bidirectional BIM links to Autodesk® Revit® and TEKLA® Structures
Revit® 2018 and earlier versions: support for Beams, Columns, Walls, Floors, Beam System, Truss, Loads and Load Cases/Combinations
TEKLA® 2016i and earlier versions: support for Beam, Column, Wall and Slab, Loads and Load Cases/Combinations
STAAD™ to S-FRAME file converter supports conversion of both Geometry and Loads
ETABS™ to S-FRAME file converter supports conversion of both Geometry and Loads
Date integration with MS Excell® and MS Access® file formats.
Round-Tripping support retains S-FRAME data not recognized by third-party software through multiple design cycles
Advanced AutoCAD® DXF link
Import DXF layers as members, shells or panels, pre-assign properties to layers, limit import by layer or individual entity
Automatic S-FRAME model group folder creation for imported layers, unit conversions and joint tolerance checks
3D visualization window with fast rendering, toggle on/off layers, used to selectively import subsets of large models

S-View- Validation and Visualization tool is available in all three S-FRAME EditionsS-VIEW StandardS-VIEW Professional
Powerful visualization tool for S-FRAME model viewing, sharing and validating in a collaborative environment
Export images and videos* to create high quality presentations. Facilitate collaboration with all input and results in one file.
View supports and one- and two-noded springs and viscous dampers
Animate results from dynamic and nonlinear analyses

*S-STEEL, ICD and the video-export option in S-VIEW require additional licensing fees