Tekla Structural Designer 2019i SP1 version 19.1.1.42 | 315.2 mb
The Tekla product team is pleased to announce the availability of Structural Designer 2019i SP1. The release includes a number of enhancements and issue resolutions.
Tekla Structural Designer 2019i Service Pack 1 - Release notes:
Issues with Associated Bulletins
[TSD-4688]1 - Foundation Design - Pile Caps - Eurocode - for the shear check and the reduced design shear load near to supports per EN 1992-1-1 Cl. 6.2.2(6), the lower limit of av = 0.5d for checks undertaken at av <= 0.5d was not applied which could result in an unconservative design result. For more information please see Product Bulletin PBTSD-1910-1. This issue is fixed in this release.
Enhancements & Fixes
- A number of additional fixes which are not detailed explicitly here are also made to improve general performance and stability.
- [TSD-1491] - Show/Alter State - Fixed/Pinned - Cantilever ends can now be easily applied graphically via the Review View > Show/Alter State > Fixed/Pinned command as shown in the picture below. A new “Cantilever end” attribute is added to the options for the Fixed/Pinned command with the same Mode options as the existing Fixed/Pinned attribute. When this is activated, a Cantilever end can be set by simply clicking on the appropriate end of a member.
- [TSD-5142] - Tekla Support Tool - fixed an issue where the Tekla Support Tool (run via the File > Contact Support option) incorrectly checked the signed-in customer account for a Tekla Structures maintenance license in order to submit a Support case.
- [TSD-1491] - Show/Alter State - Fixed/Pinned - Cantilever ends can now be easily applied graphically via the Review View > Show/Alter State > Fixed/Pinned command as shown in the picture below. A new “Cantilever end” attribute is added to the options for the Fixed/Pinned command with the same Mode options as the existing Fixed/Pinned attribute. When this is activated, a Cantilever end can be set by simply clicking on the appropriate end of a member.
- [TSD-5142] - Tekla Support Tool - fixed an issue where the Tekla Support Tool (run via the File > Contact Support option) incorrectly checked the signed-in customer account for a Tekla Structures maintenance license in order to submit a Support case.
[TSD-4829] - Tekla Portal Frame Designer (TPFD) - fixed an issue where some decomposed wind loads were duplicated on Portal Frames exported to TPFD. Note that the issue occurred only for the less common circumstance of Portal Frame columns divided into one or more stacks with wind walls set to decompose to nodes. The issue would generally be clearly apparent in producing much larger lateral deflections in TPFD when compared to those in Structural Designer.
- [TSD-4848]* - Cores - Envelope Results - the method of calculating Core enveloped results is corrected and now selects the core maximum and minimum values from all pre-calculated core combination results in an envelope rather than summing individual member/panel enveloped values.
General
Steel Design - Beams - Natural Frequency check:
[TSD-5189] - Construction Stage - following customer feedback, the Natural Frequency check is no longer performed for the Construction Stage combination for both non-composite and composite beams, as it is not required for this combination/condition. This issue relates only to the first release of 2019i (version 19.1.0.86) in which it was introduced.
[TSD-5173] - Web Openings - the check can now be applied to non-composite beams with web openings.
- [TSD-5095]1 - Concrete Design - Slabs and Mats - Punching Checks - Grillage Chase-down results are now considered by Punching Checks, making them consistent with slab and mat panel and patch design.
Note that the Grillage Chase-down results are only applicable to and available for slab design for those which are meshed in the 3D Analysis. This is always the case for Mat Foundation panels, but less common for slab panels which would generally only be meshed in the 3D Analysis in the case of transfer slabs. For more on this subject see the TUA article When should I use the "Mesh 2-way Slabs in 3D analysis" option? .
Head Code US
Steel Design - Beams:
[TSD-4546] - Seismic Design - for the seismic design check 'Seismic Stability Bracing', the maximum unrestrained length check now considers continuous LTB restraint to flanges. Where both top and bottom flanges of a beam/ sub-beam are continuously restrained, the message "Fully restrained against LTB - Not Required" is now issued in Design Details. Where one flange is continuously restrained, intermediate restraints to the opposite flange within the unrestrained length are now also considered when determining the design length for the check.
[TSD-4108] - Shear Check - Major - fixed an issue where the summary table correctly identified the Pass/Fail status for the Shear major check, but when expanded to expose the detailed calculations, the status incorrectly showed a Pass.
- [TSD-4429]1 - Concrete Design - Beams - fixed an issue which prevented design of cantilever beams where a seismic check was being attempted when not required or valid, most commonly when no Seismic cases or combinations existed.
Foundation Design - Pile Caps:
[TSD-1523] - Foundation Design - Pile Caps - the design process is enhanced to include the special investigation for punching shear at the face of the column described in the CRSI Design Handbook. This additional check is performed when there is a valid critical perimeter but some or all of the piles are located between this and the loaded perimeter.
[TSD-4675] - Pile Edge Distance - the pile edge distance check has been updated according to the requirements of the latest 2015 version of the CRSI Design Guides. Piles having an allowable load greater than 280 Tons are now required to have a minimum distance of 36" between the edge of the pile cap and the pile support point (centroid).
Steel Design - Beams - Natural Frequency check:
[TSD-5189] - Construction Stage - following customer feedback, the Natural Frequency check is no longer performed for the Construction Stage combination for both non-composite and composite beams, as it is not required for this combination/condition. This issue relates only to the first release of 2019i (version 19.1.0.86) in which it was introduced.
[TSD-5173] - Web Openings - the check can now be applied to non-composite beams with web openings.
- [TSD-5095]1 - Concrete Design - Slabs and Mats - Punching Checks - Grillage Chase-down results are now considered by Punching Checks, making them consistent with slab and mat panel and patch design.
Note that the Grillage Chase-down results are only applicable to and available for slab design for those which are meshed in the 3D Analysis. This is always the case for Mat Foundation panels, but less common for slab panels which would generally only be meshed in the 3D Analysis in the case of transfer slabs. For more on this subject see the TUA article When should I use the "Mesh 2-way Slabs in 3D analysis" option? .
Head Code US
Steel Design - Beams:
[TSD-4546] - Seismic Design - for the seismic design check 'Seismic Stability Bracing', the maximum unrestrained length check now considers continuous LTB restraint to flanges. Where both top and bottom flanges of a beam/ sub-beam are continuously restrained, the message "Fully restrained against LTB - Not Required" is now issued in Design Details. Where one flange is continuously restrained, intermediate restraints to the opposite flange within the unrestrained length are now also considered when determining the design length for the check.
[TSD-4108] - Shear Check - Major - fixed an issue where the summary table correctly identified the Pass/Fail status for the Shear major check, but when expanded to expose the detailed calculations, the status incorrectly showed a Pass.
- [TSD-4429]1 - Concrete Design - Beams - fixed an issue which prevented design of cantilever beams where a seismic check was being attempted when not required or valid, most commonly when no Seismic cases or combinations existed.
Foundation Design - Pile Caps:
[TSD-1523] - Foundation Design - Pile Caps - the design process is enhanced to include the special investigation for punching shear at the face of the column described in the CRSI Design Handbook. This additional check is performed when there is a valid critical perimeter but some or all of the piles are located between this and the loaded perimeter.
[TSD-4675] - Pile Edge Distance - the pile edge distance check has been updated according to the requirements of the latest 2015 version of the CRSI Design Guides. Piles having an allowable load greater than 280 Tons are now required to have a minimum distance of 36" between the edge of the pile cap and the pile support point (centroid).
Tekla Structural Designer delivers powerful features for optimizing concrete and steel design, including the ability to quickly compare alternative design schemes, efficiently manage changes and collaborate seamlessly. Regardless of project size or complexity, Tekla Structural Designer's fully automated, productivity-enhancing capabilities enable engineering firms to improve operations, successfully bid more projects and enhance client service.
Tekla Structural Designer 2019 introduces updates around flexibility and interoperability. The new Core Walls feature enhances real-world simulation and constructible core wall modeling, and new and improved export features focus on data interoperability with Tekla Structures and Autodesk Revit. In addition, the interface and usability for users of Tekla Structural Designer and Tekla Structures have been fine-tuned for a more aligned experience.
Modeling has never been easier with Tekla Structural Designer. From modeling in 3D or 2D views, to duplicating levels and several built-in tools, Tekla Structural Designer allows you to quickly model any structure. Watch this short video to learn more about some of the tools that will speed up your modeling time.
Tekla software solutions for advanced BIM, structural engineering and steel fabrication management are produced by Trimble. Tekla software is at the heart of the design and construction workflow, building on the free flow of information, constructible models and collaboration.
Product: Tekla Structural Designer
Version: 2019i SP1 version 19.1.1.42
Supported Architectures: x64
Website Home Page : https://tekla.com/
Language: english
System Requirements: PC *
Supported Operating Systems: *
Size: 315.2 mb
System requirements for effective operation
CPU: Multi core Intel i5 Series or above, Xeon or AMD equivalent
Highest affordable performance recommended.
Memory: 16GB (32GB or more recommended)
Memory requirements are highly dependent on model content.
OS: 64-bit Microsoft Windows 7 SP1 / 8.1 / 10
Operating systems must be running the latest service packs / updates.
Graphics: 1600 x 900 resolution (1920 x 1080 or higher recommended)
1GB or higher of dedicated RAM.
Utilizes HOOPS Visualize, a third party graphics engine available from Tech Soft 3D. To check your adapter’s compatibility visit the HOOPS developer website for HOOPS 20.x, DirectX and OpenGL requirements.
Disk space: 1GB or more of free space for installation
Operational disk space requirements are highly dependent on model content.
Internet connection: Required for access to Online Services and some documentation.
CPU: Multi core Intel i5 Series or above, Xeon or AMD equivalent
Highest affordable performance recommended.
Memory: 16GB (32GB or more recommended)
Memory requirements are highly dependent on model content.
OS: 64-bit Microsoft Windows 7 SP1 / 8.1 / 10
Operating systems must be running the latest service packs / updates.
Graphics: 1600 x 900 resolution (1920 x 1080 or higher recommended)
1GB or higher of dedicated RAM.
Utilizes HOOPS Visualize, a third party graphics engine available from Tech Soft 3D. To check your adapter’s compatibility visit the HOOPS developer website for HOOPS 20.x, DirectX and OpenGL requirements.
Disk space: 1GB or more of free space for installation
Operational disk space requirements are highly dependent on model content.
Internet connection: Required for access to Online Services and some documentation.
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Added by 3% of the overall size of the archive of information for the restoration
No mirrors please