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Gen 2013 v2.1 Release Note Integrated Design System for Building and General Structures
Release Date : Aug. 09, 2013 Product Ver. : Gen 2013 v2.1
Enhancements
Analysis
Design
8
3
1. Improvements in Pushover Analysis
2. Improvements in Soil Structure Interaction Analysis
3. Large Displacement Analysis with Composite Section for CS
4. Time Dependent Material Properties as per Australian Specification
1. Addition of Design+ Module as per ACI318-11, AISC-LRFD & ASD05 (13th)
2. Meshed Slab and Wall Design as per ACI318-11
3. Special Seismic Load Combination into ACI318-11 as per ASCE 7-10
4. HSQ Beam Design as per EN1993-1-1:05
5. Sweden National Annex for EN1992-1-1:04 and EN1993-1-1:05
Pre/Post Processing 15
1. Improvement in data export to midas FEA and midas GTS
2. Export in IFC file format
3. Improvements in Local Direction Force Sum
4. Beam Diagram by Assigned Members
Gen 2013 Design Enhancements Gen 2013 v2.1 Release Note
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1. Addition of Design+ Module as per ACI318-11, AISC-LRFD & ASD05 (13th)
1.1 Various member design module for RC, Steel, and SRC
1.2 Intuitive and simple interface (Improvements from midas SET)
Detail Report
Word Report Summary
1.3 Various type of report including drawings
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2. Meshed Slab and Wall Design as per ACI318-11
Slab and wall design for meshed plate elements have been newly implemented as per ACI318-11. Slab Flexural design & checking, punching shear checking, and wall design & checking features are available.
Text Output Two-way Shear Check (Punching Shear Check)
Design > Meshed Slab/Wall Design > Slab Flexural Design Slab Shear Checking
Slab Flexural design : Required rebar area Rebar type and Spacing
Slab Serviceability Checking Wall Design
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3. Special Seismic Load Combination into ACI318-11 as per ASCE 7-10
Special seismic load combinations can be automatically generated as per ASCE 7-10 with considering vertical seismic forces. In order to generate the load combinations, the user can specify Vertical Load Factor and System over-strength factor directly.
Results > Combinations
Auto Generation of Load Combination
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HSQ beam design is available as per EN1993-1-1:05. For the definition of HSQ beam, “HSQ Type” option needs to be checked on with outstand flange width.
4. HSQ Beam Design as per EN1993-1-1:05
Model > Properties > Section Design > Concrete Code Design > Beam Design, Column Design
Steel Code Checking Results
Detail Report and Graphic Report
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Sweden National Annex for RC and Steel frame Design has been newly implemented in accordance with EN1992-1-1:04 and EN1993-1-1:05.
5. Sweden National Annex for EN1992-1-1:04 and EN1993-1-1:05
Design > Concrete Design Parameter > Design Code Design > Steel Design Parameter > Design Code
Concrete Design Code
Steel Design Code
Gen 2013 Analysis Enhancements
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Gen 2013 v2.1 Release Note
Tools > General Section Designer Design > Pushover Analysis > Define Hinge Properties
1. Improvements in Pushover Analysis
1.1 Export Moment-Curvature Idealized Model from midas GTS to Gen Moment-Curvature(M-φ Lumped) type hinge properties can be automatically generated based
on the idealized moment-curvature curve obtained in midas GSD. For P-M and P-M-M interaction type hinges, a number of Moment-Curvature curves with
various axial forces can be imported at once. “GSD Imported Type” skeleton curve is newly added to simulate the reduction of flexural
capacity
midas GSD
midas Gen
1.2 Display Ultimate Strain in Concrete and Rebar in GSD Ultimate Compressive Strain in Concrete(εcu) and Ultimate Tensile Strain in Rebar(εsu) are
separately plotted in Moment Curvature Curve of GSD.
Gen 2013 Analysis Enhancements
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Gen 2013 v2.1 Release Note
Design > Pushover Analysis > Pushover Curve
1.3 Display Ultimate Displacement in Pushover Capacity Curve
Ultimate displacement which is 80% of the peak base shear force are now plotted in the capacity curve of pushover analysis. The ultimate displacement will be required to determine the capacity for the global assessment of the structure.
Ultimate Displacement (80% of Peak Base Shear)
Pushover Capacity Curve
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Gen 2013 v2.1 Release Note
Pushover tab > Pushover Hinge Results > Chord Rotation Check Table
1.4 Chord Rotation Check Table
Verify the chord rotation with ductility demand (μD) for the local verification as per Eurocode and AASHTO LRFD specification. Following values can be verified in the Chord Rotation Check table. - θpd(Plastic Rotation Demand), L(Distance from the plastic joint to the point of zero moment),
Lp(Hinge Length) - θy(Yield Rotation), Фy(Yield Curvature), Фu(Ultimate Curvature), θpu(Plastic Rotation
Capacity), μD(Ductility Demand)
Chord Rotation Check Table
Gen 2013 Analysis Enhancements
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Gen 2013 v2.1 Release Note
Design > Pushover Analysis > Define Hinge Properties
1.5 Assign Pushover Hinge at the Center of Hinge Length
Hinge length ratio can be defined by the user for the region which reaches plastic moment for Moment-Curvature (M-Ф Lumped) hinge definition . The user can select whether pushover hinges will be assigned to the center of the hinge length or
I & j-end of an element.
Pushover Hinge Properties
Hinge Length
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Gen 2013 v2.1 Release Note
Model > Properties > Inelastic Hinge Properties
2.1 Improvements in Multi-linear Type Inelastic Hinge Properties
Perfect plastic primary curve of multi–linear type hysteresis models can be defined in Inelastic Hinge Properties. In the old version, in order to simulate the perfect plastic behavior, the user needed to enter the very small increment of force. Compression-only and Tension-only primary curve can be defined. Scale factor for displacement and force in multi-linear type hysteresis model is added.
2. Improvements in Soil Structure Interaction Analysis
Tension-only Hinge Curve
6x6 Matrix for Spring and Linear Dashpot
2.2 Improvements in General Link Properties 6x6 matrix for Spring and Linear Dashpot type General Link can now be defined.
Gen 2013 Analysis Enhancements
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Gen 2013 v2.1 Release Note
3. Large Displacement Analysis with Composite Section for CS
Analysis > Construction Stage Analysis Control
Construction Stage Analysis Control
Composite Section for Construction Stage
Large displacement analysis can be performed with Composite Section for Construction Stage function.
Gen 2013 Analysis Enhancements
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Gen 2013 v2.1 Release Note
4. Time Dependent Material Properties as per Australian Specification
Model > Properties > Time Dependent Material (Creep/Shrinkage) Model > Properties > Time Dependent Material (Comp. Strength)
Creep and Shrinkage
Compressive Strength
Creep/Shrinkage and Compressive Strength can be considered as per both AS/RTA5100.5-2011 and AS3600-2009. After performing construction stage analysis, midas Gen provides the following member
forces separately for each construction stage: Dead Load, Tendon Primary, Tendon Secondary, Creep Primary, Creep
Secondary, Shrinkage Primary, Shrinkage Secondary, Summation
Pre/Post Processing Enhancements
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Gen 2013 v2.1 Release Note Gen 2013
1. Improvement in data export to midas FEA and midas GTS
File > Export > MXT File (for FEA/GTS)
Data import using mxt file.
In the old version, only node and element information were transferred. In the new version, expended information such as properties, boundary conditions, loads, and analysis control information are supported.
Note. Cross-sections data that are not supported in midas FEA are imported as user-type section. Cable elements are imported as truss elements.
Midas Gen
Midas FEA
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Gen 2013 v2.1 Release Note Gen 2013
2. Export in IFC file format
File > Export > IFC File
Import in Revit Structure
Midas Gen model data can be exported into IFC (*.ifc) format file. This format will be useful for exporting structural analysis model into BIM tools. It includes only geometry information with various type of sections excepting for composite section. It does not support loads, boundaries, and analysis control information.
Export from Gen
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Gen 2013 v2.1 Release Note Gen 2013
3. Improvements in Local Direction Force Sum
Results > Local Direction Force Sum
Local Direction Force Sum
Plate + Beam Model
All Plate Model
When bridge decks and girders are modeled using combination of beam and plate elements, resultant forces can be calculated in Local Direction Force Sum. In the old version, the resultant forces were obtained only for the case that model is composed of plate elements only or solid elements only. In the new version, resultant forces can be obtained for the bridges composed of “Beam(deck) + Beam(girder)” and “Plate(deck) + Beam(girder)”.
Local direction force sum can be obtained in any construction stages. In the old version, Local Direction Force Sum was activated only in Post CS.
Pre/Post Processing Enhancements
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Gen 2013 v2.1 Release Note Gen 2013 4. Beam Diagram by Assigned Members
Results > Forces > Beam Diagrams
Beam Diagram by Elements
Beam Diagram by Members
Beam Force Table by Members
“By Member” option is added to check beam diagram by members, not by elements. When member is assigned using Member Assignment function, “By Member” option will be activated and beam forces by members can be viewed in the model view and table.
Absolute maximum, Min/Max, All(I, Mid, J) options are applicable with By Member option.