La Calculatrice d’acier™ est utilisée en tant qu’application autonome ou en combinaison avec le logiciel GSE ACIER, qui fait partie du logiciel GSE (General Structural Engineering).
Découvrez les caractéristiques et les fonctionnalités du logiciel Calculatrice d’acier™. Vous découvrirez des capacités pour vérifier, concevoir et optimiser rapidement des poutres et des poteaux en acier ainsi qu’un outil de validation efficace pour vérifier les résultats de conception d’éléments spécifiques de modèles complexes.
$625.00 /an cad
La Calculatrice d’acier™ permet aux utilisateurs de vérifier et d’optimiser les poutres et colonnes simples et continues en acier. L’utilisation de la calculatrice d’acier ne nécessite pas la saisie d’un modèle d’analyse (joints, barres et charges combinées).
Normes américaines LRFD et ASD, Norme canadienne S16, Norme Eurocode 3 et Norme indienne IS 800.
Aperçu Calculatrice d’acier™
La Calculatrice d’Acier™ est un logiciel indépendant permettant la vérification et l’optimisation de structures simples telles que des poutres et des poteaux en acier. Il s’agit d’un outil de validation efficace pour vérifier les résultats de conception d’éléments spécifiques de modèles complexes. L’optimisation de la conception et la sélection automatique des sections font des structures en acier économiques et de qualité une réalité.
Fonctionnalités puissantes
Outil puissant permettant aux utilisateurs de vérifier ou de concevoir des sections en béton armé.
Validation efficace
Outil de validation efficace pour vérifier les résultats de conception d’éléments spécifiques de modèles complexes.
Simple d’utilisation
Outil d’ingénierie intuitif et facile à utiliser avec sélection automatique des sections.
Modèles prédéfinis disponibles
Users can select an appropriate model from the numerous models available provided with the SAFI Steel Calculator™:
– Simple beams with common support conditions
– Continuous beams with up to four spans
– Cantilever beams
– Gerber beams
– Columns with offset loads with common support conditions
The input data consists of selecting a section shape and defining the basic loads, the design parameters and the geometric limits.
The results of the Steel Calculator™ are summarized for each member and displayed on the screen, detailed reports are also available.
The Steel Calculator™ can rapidly perform the computations for continuous beams and columns to carry one of the following tasks:
– Verification of the limit states design. A summary and a full analysis and verification report are available.
– Optimization according to weight to find the best section. A summary and a full analysis and verification report are available.
– All sections results, which is a table to present the behavior of the model for every section in the databases. The best section is indeed included in this table.
Standard CISC, AISC or European sections or parametric section shapes libraries created with the GSE General Structural Engineering software.
Sections can be selected by users or by the program.
Required inputs: section types, basic loads, geometric limits and design parameters.
To account for steel shape availability, the program can also perform verification on all section shapes of a given category.
Normes de conception
The steel standards with which the verification and optimization calculations are made must be selected.
Users must define the combined loads for verification and design computations. The combined loads are automatically generated with the Steel Calculator™.<
American Standards:
Limit States Design of Steel Structures
AISC 360-16 (LRFD)
AISC 360-10 (LRFD)
AISC-LRFD-99
Allowable Stress Design
AISC 360-16 (ASD)
AISC 360-10 (ASD)
AISC-ASD-89
Canadian Standards:
CSA S16-01
CSA S16-09
CSA S16-14
The CSA S136 standard is considered when the CSA S16 is not applicable. It occurs for Class 4 sections (slender sections).
European Standards:
Eurocode 3
Indian Standards:
IS 800-2007
Calcul des charges
The various steel design parameters such as unbraced length, bending coefficients and second order effects coefficients can be customized to tune-up the model.
Load combinations are created automatically by the program according to various codes such as the NBCC, BOCA, UBC, ASCE 7 and Eurocode.
Load patterns for continuous beams can be carried out automatically by the program.
Load combinations and load patterns can be customized to tune-up the models.
Dead, live, wind, snow and seismic loads.
Graphical tools are provided to validate the models, the section dimensions, and loads.
Load combinations and load patterns can be customized to tune-up the models.
Graphical tools are provided to validate the models, the section dimensions, and loads.
Rapports
Verification and optimization results are available for a given model.
Results for all possible sections that may be used for the given model can also be printed.
Results summaries directly provided on the screen for each member of the model.
Detailed report and executive report (critical values) as selected by users.
Graphical or numerical visualization of results.
Customized list of input data and results can be printed.
All graphics and numerical results can be printed or copied to the clipboard for use by external programs.