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ProtaStructure is a package for multi-material modeling with steel, concrete and composite members, 3-D finite element analysis and a code-. ProtaSteel 2018 - Quick Start Guide (Sep 2018) Key in the offsets 50mm & Number of Intervals = 3 (as shown below) Untick the diagonal so that it will. Produce high quality drawings and all design documentation from ProtaStructure automatically using included ProtaDetails and ProtaSteel.

Serial number serial number for prota steel 2018 - excellent

Prota is Proud to Release Our New ProtaStructure 2018

Our largest update ever, ProtaStructure 2018 includes our fantastic ProtaSteel for steel connection design and detailing, Hundreds of new features and enhancements in ProtaStructure and ProtaDetails for rapidly designing and documenting your building projects, and our dynamic new ProtaBIM 2018 for coordination with other leading BIM systems.

Some real highlights we'd love to share with you include:

  • ProtaSteel

    ProtaSteel is our new powerful steel detailing module that works seamlessly with ProtaStructure. Auto create & design your steel connections, insert ancillary steel members, fine tune member position & create final engineering drawings including connection details.

  • Steel Modelling, Analysis and Design to EC3, BS5950 & AISC360-10

    Use our dynamic new steel modeling features for quickly defining your steel member, trusses, purlins, and braces. Analysis and design your buildings to your prefered leading code of practice.

  • Significantly Enhanced Analysis Speeds

    Get work done faster – ProtaStructure Analysis is upwards of 5 times faster over previous releases.

  • Merged Shear Walls and New Polyline Column Design and Detailing

    Increase your design efficiency by merging shear wall panels into a single core wall for integrated analysis, design, and detailing. Define and design any steel reinforcement layout for irregular shaped columns.

  • Multiple Openings in Shear Walls and Slab Drops of any Shape

    Easily create openings in your shearwalls and insert isolated slab drops & openings of any shape, anywhere in your project floor, handle toilet drops and architectural set downs with ease.

  • Auto truncation of Beam Elevation Details

    Automatically truncate and arrange your beams into your drawing sheets with ease saving hours of drafting time.

  • Column Grouping

    Save the earth - Automatically group your columns and reduce repetitive detailing requirements. Together with beam grouping cut down on the number of drawings you produce, save costs, rationalize design and reduce your paper usage.

  • Revit Integration

    Share models bi-directionally with other leading BIM platforms including Revit, greatly enhancing project coordination and workflow. Synchronise and track model changes in either Revit or ProtaStructure. Take advantage of enhanced filtering commands to share parts of the model you like, co-ordinate a floor at a time or the whole project model, your projects, your choice.

  • Pile Design

    Take your soil investigation data and quickly calculate geotechnical capacities and design your concrete and prestressed piles for both axial and lateral loads. Fantastic! - even creates drawings and calculations.

Did you Know?

ProtaStructure supports model merging allowing you to independently model different parts of a building, say a podium and a tower, and then easily combine them into one. Save significant modelling time by getting more of your team involved with ProtaStructure 20‌18.

Want to more information?

Check out our “what’s new” document.

Click to login to your Prota support account download and install.

Источник: [https://torrent-igruha.org/3551-portal.html]

NEWS & EVENTS

CaB Royale Limited, a leading skills and technology provider in Ghana has started training for four Universities in Ghana.

The beneficiary institutions are Central University, Kumasi Technical University, Cape Coast Technical University and Takoradi Technical University.

The topnotch training is in line with CaB Royale’s vision of equipping people to be able to imagine, design and create things using “modern CAD and BIM Technology”.

Two global technology giants; Autodesk Inc. and Prota Software are providing technology support for their role as major stakeholders in this Partnership.

Globally Autodesk Inc, the world’s largest software manufacturer in Architecture, engineering and construction, through its Authorized Academic Partners assists educational institutions to shape the future of design and engineering education with training and support tailored to their academic programme by the integration of latest industry technology into their training program.

The main purpose of this collaboration according to Mr. Abel Cudjoe, the CEO of Cab Royale, is to create student experts in these Industry-demanding technology while in school in order to give them the competitive advantage in the job market after school, thereby reducing graduate unemployment. Such Partnership helps in raising student who are Industry ready.

CaB Royale Ltd as part of the package will offer latest industry – specific Autodesk software lessons to the universities and also set up BIM Technology Centres in the school’s computer laboratories and provide certified local and international product experts or trainers.

Students after completion will obtain Autodesk Certified User certificate which is internationally recognized as relevant certificates in the respective Industries.

In addition, students will be prepared to participate in local and international competitions organized by Autodesk and CaB Royale Ltd in order to build their capacity and confidence.

The technology training this year took off with Central University in January when they resumed, followed by Cape Coast Technical University who started on the 17th of February. Kumasi Technical University and Takoradi Technical University are billed to take off on Monday 2nd of March 2020.

Ghana

ProtaSteel 2018 QSG.pdf

Citation preview

2018

Quick Start Guide

For support & training please contact Support : [email protected] Training : [email protected]

www.protasoftware.com

Table of Contents 1.

Introduction

3

2.

Exporting model to ProtaSteel

3

3.

User Interface

4

4.

Zoom & Pan Methods

5

5.

Selection Methods

5

6.

Views & View Settings

5

7.

Creating new Views

6

8.

Visibility & Selectability

7

9.

Macros

8

10. Insert Sag rods

9

11. Adjustment of members by creating points

10

12. Adjustment of members orientation & coordinates

12

13. Steel Connections

14

14. Fin Plate Connection

15

15. Stiffened End Plate Connection

17

16. Haunch Connection

17

17. Stiffened End Plate Connection

18

18. Corner Bolted Gusset Plate Connection

18

19. Bolted Gusset Plate Connection

19

20. Splice Connection

20

21. Collision / Clash Checks

21

22. Audit Model

21

23. Detail Item Manager

22

24. Preparing Engineering Drawings

24

25. Drawing Module

24

26. Creating Drawings via Drawing Manager

24

27. Profile Annotation

27

28. Creating Connection Detail

28

29. DXF Export

31

30. Closing Summary

32

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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1.

Introduction

Thank you for choosing ProtaSteel – Steel detailing & connection creation module of the ProtaStructure suite. The main steel model must be created in ProtaStructure. The model can be exported & opened in ProtaSteel seamlessly. In ProtaSteel, you can :  Model ancillary/secondary steel members such as roof purlins, girts, sag rods, staircase, etc.  Adjust members to final positions for accurate detailing  Create and design steel connections  Produce engineering drawings of the steel structure and connections

Before you proceed, it is highly recommended you go through ProtaStructure Quick Start Guide as knowledge of the fundamentals of ProtaStructure is required. This Quick Start Guide aims to get you up and running quickly. You should be able to learn the fundamentals of ProtaSteel in approximately 2 hours by following this simple guide.

2.

Exporting model to ProtaSteel

A sample steel model is already created & installed in default installation folder of ProtaStructure. We will now open the model, run analysis & export to ProtaSteel :  Start ProtaStructure and the Open Project dialog will appear.  Select & open project “Quick_Start_Guide_Steel_Complete”  Go to Run  Building Analysis  Go to Analysis tab  Tick Building Analysis  Start  Close the Building Analysis menu  Go to Steel Design (top menu)  Load ProtaSteel ProtaSteel will start and load the project model. ProtaSteel model is created in subfolder “ProtaSteel” in the project folder.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

3

3.

User Interface

The various components of ProtaSteel user interface are as shown below: File tools

Frame tools

Detailing tools

Secondary Macros

Connection Macros

Visibility Filters

View Mode

Modelling View

View Creation Selectability Filters Point tools

Project Explorer

Reference Object & Measurement

Utilities

Copy, Move & Mirror Views Tool Bar

Bottom Status Bar

Working Units

Default views are created under the Views folder in the Explorer pane in the left pane. By default the views created are 3D view & plan view of each storey. Double-click on the desired view to access it. The graphical editor supports multiple windows; you can open as many windows as you desire. Modelling can be done both on the plan view as well as the 3D View.

Frame Creation Tool In ProtaSteel, you can only create joist, purlin, girt, stair member, eaves beam & sag rods. Main members such as beam, column & brace must be created in ProtaStructure.

Manual Detailing Tool These are secondary detailing tools such as weld creation, section plate creation, element cutting & trimming & profile adjustments.

Connections Macros These are all the steel connections creation tools, eg. gusset plate, fin plate, haunch, splice etc. Tip: If you hover the mouse cursor over any icons, a tooltip will appear with detail explanation on how to use it. By right-clicking on the macro icon, you can set the default parameters that will be used each time it is run.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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4.

Zoom & Pan Methods

The view manipulation is similar to ProtaStructre. You will find it easiest to use the mouse wheel to: Zoom in Zoom out Pan (move) Rotate

– scroll your mouse wheel up – scroll mouse wheel down – hold down the middle mouse wheel and drag – Right click & drag

The following keyboard shortcut keys are useful : Zoom All Origin of Interest

5.

– Home key  Zoom so that all content is visible in the viewport – F9 key  Select an origin of interest by clicking on any node or any object (such as bolt or plate). The model will then rotate around the selected point.

Selection Methods  Left-click on the entity to select the entity.  To select multiple entities, hold down CTRL key while you pick them You can drag with the mouse to access further selection options:  Drag from left to right to create a rectangular box. When you release the mouse button, all entities completely contained within the box will be selected  Drag from right to left similarly and all the entities that are contained within the box and which cross it boundaries will be selected  To deselect all entities, left-click on any empty space anywhere in the viewport.

6.

Views & View Settings

By default, the 3D view general is created & shown when you open the project. The plan of each storey is also created. The views are shown under the View folder in the left Explorer pane.  Double-click on the desired view in the left-hand Explorer pane to open it. You can open as many views that you like.

 Double-click on Views will open the View Manager where you can quickly :  Open a view  Close a view  Delete a View  Display the View Properties

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If you have multiple views opened, you can manage them, e.g, fit them into the screen by going to Windows (top menu)  Tile Horizontal / Tile Vertical / Cascade. You can change the Object Draw Mode by going to Views (top menu)  Object Draw Modes The shortcut icon can also be found on the righthand most vertical toolbars 

7.

Press Alt + D continuously will cycle through the draw modes.

Creating new Views

New views can be created by going to Views  Create View

Let us create a new sectional view along grid 3 :  Go to Views  Create Views  By Two Points  Click two points to define a plane  the view will be created as shown below

2 1

Tip: A white line arrow will appear once the mouse cursor hovers on 2nd point. This white line indicates the direction of viewing. In this case, the above view is looking into the building.

Note : The sectional view is actually created from the same 3D model but viewed from a different camera angle or orientation. Changes made to the active view are automatically reflected in all other views. The extent, boundary and objects to display can be set via View Properties. ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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To access the View Properties:  Double-click anywhere on the new view  The View Properties will appear

 Give the view a new name “Axis 3”  Change the Up(+) & Down (-ve) to 1000mm & -1000mm respectively This means that the view will only show elements 1m into & out of the plane. This will make the view less cluttered as elements along other grids will be hidden. If zero values are entered, then it will be unlimited.  Up-Down Method : - Partial : Any element that exists partially within the set extents will be shown - Full : Only elements that exist fully within the set extents will be shown  Click OK to close the dialog & view will be updated. Any sectional view is inherently a 3D view, hence you can still rotate the view.  Right-click & drag to rotate the Axis 3 view Notice that only members within the 1 m extent is shown.  Go to View Properties again  Change the Up-Down method in View properties to FULL  Apply Notice all the beams out of the plane of Axis 3 will hidden.  Press F4 to restore lookup (i.e. restore to original viewing direction) Important : You must give the view a new name and check / tick “Save” to ensure the view is saved. Only saved views can be used to generate drawings in the drawing module.

8.

Visibility & Selectability

You can control what objects are visible and selectable by assessing the Drawing Settings dialog :  Pick Drawing Settings in View Properties dialog

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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 Alternatively, click on the Visibility/Selectability icon “…” in the middle toolbar  Turn off the Grids & Points  Apply & see effect  Go back & turn them back on You can Save these different settings as different name to quickly re-use them. The shortcuts to visibility / selectability objects are in the middle toolbar.

9.

Macros

Most of the icons in ProtaSteel such as purlins, sag rods, girts & connections are called “macros”. A macro is generally defined as a shortcut tool that specifies how a certain input sequence will result in a desired output according to a defined procedure. The instruction on how to use each macro is shown in the tooltip if you hover the mouse cursor over the icon. 

Before creating the element using the macro, you can setup the macro settings, e.g. member profile, plate offsets, bolts, etc. by right-clicking on the macro icon which will bring up the Macro dialog.



Once a macro is clicked, the mouse cursor will change to the hand icon



for object(s) selection or crosshair + meaning it is waiting for point selection. Perform the required action(s) to get the desired result, as stated in the tooltip. The macro will remain activated; you can continue use the macro without having to click on the macro icon again. Once you have finished, you must press ESC to cancel & stop the macro. The mouse cursor will

  



  

meaning that it is waiting

change back to default arrow (selection mode). After creating the elements in a group such as the purlins, each element will have its individual properties; which can be changed by double-clicking on it  this will bring up the Element dialog. However, all the elements are still associated with the macro & can be changed in a group. This can be done by selecting the macro sign & then press ENTER will bring up the macro dialog. After making the changes, clicking Apply will apply to all the elements associated with the macro. Clicking Get will set it default for this macro for the entire project. If you have problems selecting the macro sign, you can select any element or component of the macro (e.g. a plate of a connection) then press “M”  this will select the macro  followed by ENTER which will expose the Macro dialog. You can select all the elements associated with the macro by selecting the macro sign or an element of the macro  press “CTRL + M”. You can also delete all the elements & components of a macro by selecting the macro sign & then press DELETE. It is highly recommended you review settings of the macro before executing it.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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10. Insert Sag rods In ProtaStructure, the main steel members are modelled & designed; usually omitting the minor or nonstructural members to keep the model size manageable & efficient. After the model is transferred to ProtaSteel, you might then want to add ancillary steel members such as sag rods. We will insert some sag rods between the girts along axis 3 :  Double-click on 3D View in the Explorer pane to go to the default 3D view  Right-click on Sag Rod icon  This will expose the Sag Rod Macro Dialog.  Key in the offsets 50mm & Number of Intervals = 3 (as shown below)

 Untick the diagonal so that it will not be included  Choose the section profile by clicking on “…” (as shown above)  Pick Round Bar D10  Select  Pick Get to make these input the default from now on  OK

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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2

 Left-click on the Sag Rod icon Notice the cursor turn to a hand icon meaning that it is waiting for required element selection action(s).  1 – Left-click on bottommost girt 

1

2 – Left-click on topmost girt

 Right-click  Sag Rods will be inserted Each sag rod has its individual properties & can be selected, deleted or changed.  Double-clicking it will reveal its properties.

Macro Sign

All the sag rods are represented by the macro sign They can be changed in a group by selecting this macro sign  press “Enter” as stated previously.

 Insert sag rods for another panel between grid B, C & D using the same steps above, i.e. start by picking the bottommost girt (no need to pick the sag rod icon again)  Once complete, press ESC to cancel the Sag Rod macro action. Notice the cursor changes back to default arrow . Please be reminded to press ESC to cancel any macro action after you are finsihed with it, otherwise you will not be able to proceed with the next action. You can use Sag Rod Connection or Sag Rod Holes macros to assign connections to sag rods and girts/purlins.

11. Adjustment of members by creating points In ProtaSteel, you might also want to adjust the position of members that are not exactly at the correct position, i.e. fine-tuning of final member positions for detailing purposes.  Double-click on previously created Axis 3 view in the Explorer pane  Zoom in to the location of the diagonal braces between grid C & D As you can see, the diagonal bracings are connected to the top of the beam. It is more accurate for the bracings to join at the middle of the beam. To do that, we must create a point (or node) in the middle of the beam. With the point created, we can then move the ends of the bracing to this point. TIP : Press Alt + D continuously will cycle through the draw modes.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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 Press Alt + D until you see the outline of members only (wireframe mode)  Click “Create Dividing Points” icon the right-hand tool bar

1

New Point 2



1 – Click top point of the beam



2 - Click bottom point of the beam

at

A new point “+” is created as shown in the left figure.  Press ESC to stop the function

 Click Adjust Profile Manually icon the top menu toolbars

1

2



1 – Select the diagonal top bracing



2 - Click on existing end point



3 - Click on the new point

in

The brace end will be shifted to the new point.

3

Before

 Repeat the above Step 1 to 3 for the other bottom diagonal brace. The final positions of the diagonal braces are as shown in the left figure.

After

 Double-click on PS View 1 in the Explorer pane to go to the 3D view.  Zoom in the same location & check the diagonal braces final positions to ensure they are correct.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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12. Adjustment of members orientation & coordinates All member position & orientation can also be changed without creating new points. We will make such minor adjustments to some of the floor braces:  Double-click on Storey 1 view to open that view  Right-click & drag to rotate it a 3D view  To show the grids, double-click anywhere in the view to access View Properties  Filter Grid Mode  Tick Pass Always  Apply The grids will be shown.  Zoom to the joint GL 2/B-C where the secondary, main beam & 2 horizontal “L” brace meet  Press F9 & click on the joint to set it as point of interest so that rotation is about this point F9 & click here

Notice L braces orientation is not symmetrical with the other. We will rotate the brace so that flange of the brace is aligned with the flange of the beam.

Shift away

Shift away

 Select the brace  Press Ctrl + Q to rotate it until the correct orientation is achieved as shown in the left figure  Repeat for the other brace The braces are coming in too close to the secondary beam. We can shift it slightly away.  Press Ctrl + W to offset the brace horizontally until it is farthest away from the secondary beam  Repeat for the other brace

There is still a problem in the vertical position of the brace as it is too close to the top of the beams. Usually braces are connected to the middle of the beam so transfer of force is to the centroid of the members.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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Minor shift in the vertical alignment can be done by pressing Ctrl + W. However, if you try this you will find that the offsets are too small. Further detail adjustment can be done by exposing the Profile properties.

Ctrl + W Ctrl + E away Ctrl +R away away

 Double-click on the right L brace Profile Properties dialog allows you to change :  Profile /Section type by picking “…”  Alignment (Out of Plane, In-plane, Rotation)  Offsets Start & End  Draw Frame Coordinate System  Change Frame Coordinate System to For Analysis & design  Apply Notice 3 arrows appear at the frame end. Red arrow = x-axis; Green arrow is y-axis; Blue arrow is z-axis If the axes is not visible, please ALT+D to change to Wireframe  Enter z Start & End Offset to 100 mm  Apply  Check the 3D view to ensure brace is moved down  Repeat for the other brace (-100mm)  OK to exit

Preserve constructive changes during model re-import In the General Definitions tab, the option “Preserve constructive changes during model re-import” is by default checked. This will preserve the constructive offset changes in ProtaSteel during subsequent re-import from ProtaStructure. Hence, during the next import, the import log file will show a warning : Imported Frame's ID in *.cdf file[xxx]: Frame is locked. Therefore, in plane, out of plane and start/end offsets were not applied.

Ignore the above warning if you want the member offsets to be retained in ProtaSteel. If this option is unticked (disabled), offsets done in ProtaSteel will be discarded during the next re-import from ProtaStructure.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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13. Steel Connections Once we have finalized position of the steel members, we can start “connecting” the steel members, i.e. create connections. Connections can be created in two ways: 1. Automatically using the connection macros 2. Manually by using the Plates, Bolts, Welds & Cuts commands The automatic connection macros will automatically create a feasible connection & perform material strength checks for the standard connections types listed below:    

Beam to beam & beam to column endplate Beam to beam & beam to column fin plate Bolted & welded gusset plate, purlin, girt Splice connections.

The following basic material strength checks are performed:    

Plate bearing check Bolt shear & Bolt tension check Weld stress check Plate tension & plate bending check

The force used in the automatic connections are obtained from the higher of the two values : 1. The critical design forces of the connected members imported from ProtaStructure 2. Pre-set Capacity Ratio in the Profile Properties > Detailing Definitions. Capacity Ratio = Design Force / Maximum Member Capacity (equal less than 1) This is to prevent unrealistic design when the design forces are very small or negligible. For example, in determination of the number of bolts for a simple beam to beam fin plate :   

The critical design shear imported from ProtaStructure is 30 kN. This requires 1 number of bolts. The Shear Capacity Ratio of the beam is set to 0.3. This works out to be 100 kN which requires 2 number of bolts. The final design shear force used is 100kN and hence 2 number of bolts is chosen.

The above are basic checks and not clause by clause code specific checks. You are advised to perform your own additional calculation checks if required. There is no check or design at all for the following connections: Haunch Connection, Apex Haunch Connection, Direct Welding Connection, Base Plate Without Design, Eaves Beam Connection, Profile Fit Connection, Sag Rod Connection & Sag Rod Holes. Before performing connection design, we should customize the default design parameter :  Go to File  Settings  Project Preferences  Ensure that Design Standards for Connections is set to EC3  General Overdesign Factor for Connections = 1

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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This means that the connections will generally design for 100% of the member capacity. This setting works in combination with capacity ratios of the connecting members (changed via Profile dialog  Detailing Definitions). The Capacity Ratio is automatically calculated = Design force divided by the actual capacity of the member. Hence, Capacity Ratio x Overdesign Factor = Final Factor.  Under Steel Detailing Ensure the following   

Plates : Preferred Plate Material = S355 Bolts : Preferred Bolt Material = Class 8.8 General Weld : Preferred Weld Material = Class 42

 Apply  OK

14. Fin Plate Connection We will create a fin plate connection between the adjacent main & primary beam joint.  Right-click of the Fin Connection macro The Fin Plate Macro dialog will appear which allows you to customize the connections.  Go to the Design Tab & ensure the following : 

Design Standard = EC3

Note : Slip Coefficient is blank & hence will follow the Project Preferences  Bolts settings  Pick Get to make it default settings for this connection type for all projects from now on.  Zoom GL 2/B-C to the previous joint where the secondary, main beam & 2 “L” brace meet.

1

 Double-click on the secondary beam  In Profile Properties, go to Detailing Definitions tab The Capacity Ratio is automatically set as 0.3 for this beam. This will used to calculate the minimum design shear used for the connection.  Apply  OK

Important Note : The capacity ratio works in combination with General Overdesign factor for Connections (in Project Preference). Hence, Capacity Ratio x Overdesign Factor = Final Factor.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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1

We will now insert a fin plate connection at the primary & secondary beam joint.  Pick Fin Plate Connection

2



1 – Pick the main beam



2 – Pick the secondary beam

 Right-click 3 times A fin plate connection will be created.

1

We will now insert corner bolted gusset plate for the L brace that uses the beam fin plate as boundary.  Pick Corner Bolted Gusset Plate Connection

3 2

Macro Sign



1 – Pick the main beam



2 – Pick the brace



3 – Pick the blue fin plate

The connection is created. Repeat the same for the other brace.

Tip : The connection consists of plates, bolts & welds. Each element has its individual properties & can be selected, deleted or changed. Double-clicking it will reveal the element properties. The entire connection is represented by the macro sign . Double-clicking on it will bring out the Macro dialog box where the entire connection can be changed. It is highly recommended you review settings of the connection macro before executing it.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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15. Stiffened End Plate Connection We will create Beam to Beam End Plate Connection between the main & secondary beam.  Zoom to the adjacent joint GL 2/B-C where the secondary & main beam meet  Pick Stiffened End Plate Connection 

1 – Pick the main beam



2 – Pick the secondary beam

The connection is created.

16. Haunch Connection We will create a haunch connection between the column and beam at GL B/2.  Right click on the Haunch Connection icon  In Haunch Macro, go to Figure 2 tab  Ensure that all the end plates A,B,C & D is checked  Apply  OK to exit

We will now insert the haunch connection.  Pick Haunch Connection

2 1



1 – Pick the column



2 – Pick the beam

The connection is created. The blue transparent box is the cut object. This can be turn on/off in Visibility dialog.  Repeat the same for the other end of beam to column joint

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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17. Stiffened End Plate Connection We will create a stiffened end plate connection at the column beam joint at grid C/3.  Double-click on Axis 3 view to open view  Zoom in the joint where the column, beam & 2 diagonal braces meet at grid C/3

1

 Press F9 on this joint to set the point of interest  Rotate the view slightly about this joint

2

 Pick Stiffened end plate connection icon 

1 – Pick the column



2 – Pick the beam

 Right-click  Connection is created

18. Corner Bolted Gusset Plate Connection We will connect the diagonal brace at the same joint. There is problem because the existing connection is getting in the way, i.e. we cannot connect the diagonal brace directly to the column due to the top stiffener plate. This can be solved by using the Corner Bolted Gusset Plate Connection.

1

2

 Rotate the view around so the connection is not obstructed by the girt  Pick Corner Bolted Gusset Plate Connection

3



1 – Pick the column



2 – Pick the top brace



3 – Pick top orange plate

A logical & constructible gusset plate connection will be created joining the top plate of the previous connection.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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19. Bolted Gusset Plate Connection For the bottom brace, it is a slightly different situation as the brace should connect to the bottom of the beam flange directly. Hence, we should use the Bolted Gusset Plate Connection.  Rotate the view around the connection so you are viewing the bottom of the brace  Pick Bolted Gusset Plate Connection

1 2



1 – Pick the beam



2 – Pick the bottom brace

 Right-click A logical & constructible gusset plate connection will be created joining the bottom flange of the beam.  Press ESC to cancel the macro

Let’s push back & shorten the green gusset plate so that it ends exactly at the beam end for constructability.  Select connection macro by selecting the macro sign

 Press Enter

 Alternatively select the gusset plate > press “M” > Press Enter (wait for the macro dialog)

 Enter 25mm in the above plate set-back value  Apply You can see the plate is shortened and the stiffener plate is added.

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 This is more constructible because the gusset plate & stiffenner can be assembled off-site as part of the beam assembly.  The previous stiffened end plates will be part of the column assembly.  Hence, when the column & beam are brought to site, it’s easy & quick to install & “connect” them together.

20. Splice Connection Splice connection must first be inserted in a column or beam in ProtaStructure. For this model a splice connection has been inserted at the corner column at GL D/3 at 800mm above the 1st Storey.

1

 Zoom the corner column at GL D/3, slightly above Storey 1 Notice the column is broken into 2 separate elements as a column splice was created in ProtaStructure.  Pick Splice Connection

2



1 – Pick the top column



2 – Pick the bottom column

The column splice connection is added.  Press ESC to cancel the macro

 The green color bolts are called Workshop Bolt. These bolts are pre-installed in workshop before being brought to site.  The orange bolts represent the bolts to be assemble on site. The above setting & other bolt parameters can be viewed & changed in the Bolt Group property :  Double-click on any of the bolt  Bolt Group property will appear  Go to Settings 2 tab  Assembly Location  two choices are in the dropdown menu :  Workshop  Site

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

20

21. Collision / Clash Checks Prior to creating detail general arrangement drawings, it is recommended that a collision check be performed for all elements. The collision check shows elements which are clashing or overlapping : 

Select all or some elements of the model



Go to Tools (top menu)  Diagnostic Tools  Collision  Clash Check



Alternatively, right click on the model screen and pick Clash Check

As a result, the clashing elements will be left selected (in red). Generally, collision occurs when two or more elements overlap each other. It usually occurs when connections are not made yet. For example, before the haunch connection was made, the beam end flange & web plate is overlapping into the column (as shown below).

If a Clash Check is performed by selecting both the elements, they will remain selected after the check.

22. Audit Model Before creating detail drawings, it is important to determine errors and inconsistencies that may exist in the model. This function will perform several model tests, such as duplicate points : 

Go to Tools (top menu)  Diagnostic Tools  Audit Model



Select the checks desired  Run Test

You can select the object(s) specified in the result report and automatically navigate to it in the model.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

21

23. Detail Item Manager The Detail Item Manager creates and manages detail items such as the connections. We can use this function to create exploded drawings of the connection with different views & detail information such as dimensions, location of bolts, welds, etc.  Zoom into the connection that we have created at Grid C

 Click & drag a window to select all components of the connections, including all the plate, bolts & welds  Pick Detail Item Manager The Detail Item Manager dialog will appear.

In the Detail Item Manager :  Type the name “Con1” at the bottom  Pick Add  Con 1 will be added  Pick Select Objects  Select the beam, the column & the 2 braces  Right-click The moment we do so, a “3D detail box” appears around the connection in the 3D view (as shown below)

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

22

This box controls the various directional views that we want to show in the drawings. The view is shown in 3 colors, red, blue and green. Each color has a front & back view. Hence there is a total of 6 possible views. The view names can be changed – so if the top of the connection is not the actual top, change the name.  For this connection, pick Front & Right only  Pick Filter Box to show only the connection elements (Restore Filter will restore all elements)  Close to save & exit the dialog  Repeat the same steps for the Splice Connection at corner column at GL D/3 For practice purposes, we can similarly insert connection box on the connections we have previously created in Story 1. The summary of steps are :  Open the view that is most suitable to insert the connection, try Storey 1 view  Zoom into connection  Click & drag a window to select all components of the connections, including all the plates & bolts  Pick Detail Item Manager  Add the connection name  Click Select Objects & pick all the members of the connection  Tick the desired view direction box  Close the dialog We have completed the connections and are now ready to generate the drawings.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

23

24. Preparing Engineering Drawings ProtaSteel has a powerful tool to prepare engineering drawings – it’s simply called the “Drawing module”. The drawings are based on the views prepared in the modelling module. The steps are summarized as below :  Create the desired Views in main modelling view.  Ensure the orientation of the view you want to use in the drawing is correct as the drawing module will automatically use the latest views.  Double-click on Axis 3 view  Press F4 to reset the view to default  Double-click on Storey 1 view  Press F4 to reset the view to default  Create any detail views such as connection details using Detail Item Manager  Start the Drawing module by double-clicking Drawings in the Explorer pane (Ctrl + D)

25. Drawing Module In the Drawing Module, the same views that was shown in the main model will be duplicated under the Explorer  Modelling Views :     

3D View – 3D view of the model Storey F – foundation plan view (ST00 in ProtaStructure) Storey 1 – Storey 1 plan view as defined in ProtaStructure Storey 2 – Storey 2 plan view as defined in ProtaStruture Axis 3 – New view along Axis 3

If you do not have the same views, please close the drawing module to return to the main model & create the view as outlined in previous sections.

26. Creating Drawings via Drawing Manager  Double-click on Drawing Manager (or F6) The Drawing Manager is where you can start a new drawing. The sample plan drawings of foundation, Storey 1 & Storey 2 are already created & listed.

The View Manager allows you to manage the drawings :  Select Storey 1  Open Drawing  Alternatively, simply double-click on Storey 1 to open it  Close the Drawing Manager & review the drawing

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

24

Drawing Border

Viewport Border

The outermost brown line is the Drawing Border (A0 size). The size & other settings of the drawing can be changed by :  Double-click on any empty space within the drawing border to access the Drawing Properties Documents Properties will appear where the following can be changed :     

Drawing Name Print Area & Margin Paper Size & Orientation Created, Approve by, Approved Date Document State : Normal / Freeze / Broken

The inner dotted blue line is the Viewport border which is directly linked to the view :  Place the mouse cursor at the lower-right corner  cursor will change to resize  Click & drag to resize & ensure all the elements is visible  Place the mouse cursor at the boundary line  click & drag to move the position of the region  Double-click any place within the Region to access the Region Properties Note : Region has been renamed Viewport in current release

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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Region Proper Editor dialog will appear. In the General tab, the following can be changed :  Name of the region  Scale  MovX, Mov Y : Coordinates of view  Rotation : States the rotation angle  Drawing Mode : Line/All Visible/Hidden Line/Full Dashed  Change the Name to Storey 1 Plan  Change Scale to 25  Change Draw Mode to Hidden Line  Apply The drawing will be updated to scale & hidden line.  Pick Fit to auto fit all the elements & the new title  Go to Label Settings tab The Label Settings dialog allow you to change :  Label Position  Offsets  Name & Scale Text Settings  Pick Locate Outside so the label will be place outside the region border  Tick Write next to Name & Scale Text Settings  Pick Change under Name Text Settings  Change Name Text Height to 10mm  OK  Change Scale Text Height to 10mm  OK  Apply Notice that the name & scale appears larger in the drawing.  Go to Filtering tab The options here controls what is shown in the drawing :    

Up (+) & Down (-) filters objects in & out of the paper Min X & Max X filters objects in the X plan direction Min Y & Max Y filters objects in the Y plan direction Up-Down Method : - Partial : Any element that exists partially within the above extents will be shown - Full : Only elements that exist fully within the above extents will be shown  Filtering Settings – expose more filter options

 Change Up(+) to +500 & Down (-) to -500  Apply  Girts disappears as they are placed slightly above the floor level  Pick OK to exit

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

26

27. Profile Annotation We now add steel profile annotation, i.e. show the member sizes. Firstly, we should select the members we want to annotate. To select the members easily, we can control what elements is selectable:  Click on Selectability icon Drawing Options dialog

at the top menu (or View  Selectability Settings) to access the

 Untick Region (Viewport)  OK This prevents you from selecting the region border. The same options are available in Visibility tab which controls what is shown in the drawing.  In the drawing, left click & drag a box around all the steel members to select them We will set up the default profile annotation :  Right-click on Profile Annotation icon

to access the Annotation Settings The settings here controls how steel members are annotated (labelled) :  The various type of annotations are listed in the table  Click & drag any annotation name into the box which also defines the position of the annotation

 Click and drag Profiles & Material in the box  Click Annotation Settings to view or change the text settings :  Font type & size  Format or style of the annotations

 Click OK to exit without changing the text format  Click Apply & Create Annotations  Alternatively, click OK to exit  Left-click on the Profile Annotation icon The annotations as shown below. c are added next to all steel members c

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

27

28. Creating Connection Detail Let us now create a new connection drawing for the connection we created along Grid 3.  Double-click on Drawings Manager (or F6)  Pick Create Drawing  Create Drawing Dialog will appear

 Name it “Connection Axis 3”  Change the Paper Size to A1  Orientation = Landscape  Pick Drawing Type = Steel Connection Detail  Pick OK  The drawing will be created & automatically opened  Close the Drawing Manager dialog (Pick OK if prompted to save) The drawing “Connection Axis 3” will be opened and brought to focus. The drawing is empty & we will insert the required view into the drawing.  Right-click on Axis 3 View  Create Viewport

The view region will be inserted but region may not be positioned correctly. Let us move it within the c drawing border. In order do this, we need to be able to select the blue region border.  Click on Selectability icon

at the top menu to access the Drawing Options dialog  Tick Region (Viewport)  OK  Click & drag the Region into the Drawing Sheet

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

28

 Double-click on the region to access the Region (Viewport) Property Editor  Scale can be change but let’s leave it as default  Go Filtering tab  change Up = 500 & Down = -500  OK to close the dialog Notice there is a circle around the connection – this is directly linked to the connection box created in the main model.

 Click on Connection Detail Connection Macro icon The Connection Detail will be inserted into the drawing as shown below.

Further customization of the connection detail can be done.  Double-click in the detail region of the connection to access the Region (Viewport) Property Editor Under Detailing tab, you can change :  Bolt Import Style  Bolt Drawing Style  Try the various options & click Apply

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

29

 Go to Filtering tab  Pick Filter Settings  Go to Object Types You can choose to turn on/off objects.  Untick Weld  OK  Apply The welds & weld annotations will be hidden.

You can use the annotations tool bar to annotate the bolts, plates & welds.  Click & drag a window (right to left) to select bolts & plates to be annotated (does not matter if other objects are selected)  Right-click on Bolt Annotation Settings

access the

 Pick Clear to remove existing settings  Click & Drag Count, Diameter & Material to the bottom Fields  Pick Annotation Settings to view/change font type, color, etc  OK  Pick “Apply & Create Annotations”  Right-click on Plate Annotation Settings

access the

 Pick Clear to remove existing settings  Click & Drag PL Thickness, & Material to the bottom Fields  Pick Annotation Settings to view/change font type, color, etc  OK  Pick “Apply & Create Annotations”

 Repeat similar steps for the Section Right-Right detail according to your preference. You should get details which are similar to figure shown below (depending on your preference)

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

30

29. DXF Export All the drawings created in ProtaSteel can be exported as DXF format :  Double-click on Drawing Manager (or F6)  Under DXF Export  Pick Settings In the DXF Export Settings, you can choose the layers to be exported, change the Layer Name & Line Type.

 Close the Dxf Export Settings  Pick Export  Choose the destination folder  OK The dxf drawing will be created in the folder selected.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

31

30. Closing Summary Congratulations! You have completed your steel model & generated the engineering drawings in ProtaSteel. In this Quick Start Guide, we have imported the ProtaStructure model in ProtaSteel. We then inserted ancillary steel members such as sag rods, adjusted members to their final positions, created some steel connections & generated the engineering drawings. This will give you the necessary knowledge to proceed to a real project. For more help and guidance, please refer to ProtaSteel help reference accessible from Help menu. Alternatively, you can attend our training courses to obtain a more in-depth knowledge of the usage of the software. Please visit our website www.protasoftware.com for more information.

ProtaSteel 2018 - Quick Start Guide (Sep 2018)

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Источник: [https://torrent-igruha.org/3551-portal.html]

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ProtaStructure

Structural BIM Design Technology for a Connected World

Fast multi-material building modelling using physical structural members

State-of-the-art structural analysis methods

Economical and reliable design

Fully automated engineering drawings and fabrication detailing

Complete quantities take-off for costing and comparison

Leading BIM Integration for project coordination

ProtaStructure is an innovative BIM solution for structural engineers to model, analyze and design buildings quickly and accurately.

From one central model, easily compare different schemes and automate your steel and concrete design, significantly reducing project delivery time.

Produce high quality drawings and all design documentation from ProtaStructure automatically using included ProtaDetails and ProtaSteel.

Seamlessly coordinate projects with intelligent BIM integration.

ProtaStructure saves time and increases business profitability.

At First Glance

Fast project delivery with fully integrated Concrete and Steel design from one central structural BIM design model.

Easy, quick and intuitive physical modelling with Multiple Window Views and Dynamic Input

Multiple Window Views

64-bit Architecture and Enhanced Technology Platform.

3D finite element analysis with state-of-the-art analytical model with extensive analysis options and shell element support for floors and shearwalls.

Advanced analysis techniques including Linear Elastic Analysis, Equivalent Static Earthquake Load, Response Spectrum Analysis, Time-History, Pushover, Concurrent cracked and uncracked analysis, Staged Construction, P-Delta, Temperature Difference, and Seismic Basement and Isolator considerations.

Advanced Analysis 1
Advanced Analysis 2

Design to a range of leading international codes including specialist seismic requirements.

Seismic assessment methodologies for Performance Based Design or Retrofit of buildings using Lenear Elastic, Nonlinear Push over or Time-History analyses.

Fully automated RC detailing into your drawing sheets. Manual drafting using smart rebars. Change management and dynamic quantity tables together with Fast engineering macros including retaining wall, stair, pool, pile analysis, design and detailing.

Fully Automated RC Detailing

Automated steel connection design using IntelliConnect, full steelwork engineering drawings together with comprehensive part numbering and shop detailing for fabrication.

Automated steel connection design using IntelliConnect 1
Automated steel connection design using IntelliConnect 2

Industry leading BIM integration for starting, coordinating and sharing models

Industry Leading BIM Integration

Interactive user experience with extensive in-product learning, contextual help, live updates and dedicated technical support from Professional Engineers.

Seismic Analysis and Design Capabilities

ProtaStructure provides engineers with comprehensive tools to design and detail buildings quickly and economically to meet rigorous earthquake standards including US and EC codes of practice.

Wide Coverage of Seismic Codes

ProtaStructure supports a wide range of seismic codes including IBC, UBC, EC8, NSCP, SNI, Thai, Indian and Turkish standards.

Seismic Parameters and Response Spectra

Elastic and design response spectra are calculated automatically using code-specified parameters. Sitespecific spectra can also be introduced. Mass sources are automatically calculated including consideration of varied live load participation.

Equivalent Static Earthquake Loads

Static earthquake loads are automatically calculated and applied at story levels. Multiple diaphragms and accidental eccentricities are taken into consideration.

Response Spectrum Analysis

Mode superposition analysis can be used where static approach is not applicable. Modal results are combined with CQC. RSA base shear is automatically scaled to Equivalent Static results. Cumulative mass participation of modes is automatically calculated.

Response Spectrum Analysis 1Response Spectrum Analysis 2

Diaphragm Modeling and Story Meshing

ProtaStructure has smart features for automatically detecting and defining intelligent rigid diaphragms. Multiple towers with discrete independent floors, discontinuous, stepping, sloping slabs and openings are all considered. Any floor can be selectively meshed and assigned as a flexible diaphragm.

Diaphragm Modeling and Story Meshing 1
Diaphragm Modeling and Story Meshing 2Diaphragm Modeling and Story Meshing 3

Two Stage Analysis for Upper and Lower Structure

An automated two stage analysis is performed in one-go for buildings with rigid basements. Different mass sources for upper and lower structure are automatically considered.

Consider Cracked and Uncracked Sections in One Analysis Run

Cracked and uncracked section properties can be simultaneously used in the same analysis for different load cases. Code modification defaults can be automatically applied to section properties.

Vertical and Horizontal Irregularities

ProtaStructure has powerful features to assess building irregularities in accordance with earthquake code requirements. Floor Torsion, Diaphragm Discontinuity, Mass, Stiffness, Weak Storey and Non-parallel system irregularities are all checked, and any required penalties are applied.

Vertical and Horizontal Irregularities

Strong Column-Weak Beam Checks

Tedious Strong Column-Weak Beam checks are automated at every joint. Joint checks are summated bi-directionally at every floor to ensure building collapse mechanisms perform in meeting accepted code provisions.

Joint Shear Checks

Overlooking joint shear can potentially cause catastrophic failure of buildings during earthquake events. ProtaStructure automatically detects Confined or Unconfined joints and checks against brittle failure.

Joint Shear Checks

Ductile Member Design and Detailing

Columns, walls, and beams are designed to special ductility requirements. Automated confinement of beam and column critical sections, wall end zones (boundary elements), wall design envelope, capacity shear design and much more are automatically considered.

Diaphragm Integrity and Load Transfer Checks

Transfer of inertia loads between slabs and lateral load resisting members including shearwalls and collectors beams is automatically verified. For flexible diaphragms, in-plane shear, tension and compression stresses are checked to prevent diaphragm failure.

Wall Coupling Beams

Special attention is provided for coupling beams. Different cracked section properties can be defined. The wall-beams assembly is checked for coupled wall effectiveness.

Seismic Isolators

Seismic isolators can be inserted anywhere on the structure for different seismic isolation scenarios. Both upper and lower structure design can be performed in ProtaStructure using target earthquake spectra. Drift of the structure and isolator displacements are also reported as a part of the design.

ProtaStructure for Performance-Based Design and Building Assessment

Prota provides unique tools for engineers to carry out performance-based building assessment.

Nonlinear Fiber Analysis of Sections

Column, beam, and Wall sections can be modeled with fiber elements using distributed plasticity and analyzed with state-of-the-art numerical techniques to derive the Moment-Curvature relationships.

Force-deformation relationships for integration points are obtained from detailed fiber section analysis.

Nonlinear Fiber Analysis of Sections

Nonlinear Static Pushover

Single Mode Static Pushover analysis is performed using ProtaStructure – OpenSees integration. Parameters such as the number of steps and target displacements can be controlled by the user.

After the analysis, the Capacity Curve is obtained. Users can specify the monitored node for which the curve will be generated. Results can be examined at any desired step. A detailed performance assessment report is generated afterwards.

Nonlinear Static Pushover

Nonlinear Time-History Analysis

Nonlinear Time-History analysis can be performed using ProtaStructure – OpenSees integration.

User selected multiple ground motions can be applied simultaneously in X and Y directions. Ground motion application direction is rotated by 90 degrees, and analyses are repeated.

Ground motion records are automatically scaled by ProtaStructure to your design requirements using the simple scaling method between 0.2T and 1.5T.

Analysis results from multiple ground motion sets are automatically post-processed. The average values of absolute maximum responses are extracted and used to prepare detailed performance assessment reports.

Nonlinear Time-History Analysis

Design Codes

Structural engineers around the world like to employ their own local approaches to both design and detailing. At Prota we understand this which is why we offer both a broad range of leading international codes as well as provide specific customization to suit your local requirements.

Reinforced Concrete Design Codes

ACI318-08

ACI318-11

ACI318-14

BS8110-97

CP65

HK2004

TS500-2000

Eurocode 2 Base Code and National Annexes

United Kingdom

Ireland

Singapore

Malaysia

Poland

Steel Design Codes

AISC360-10 (LRFD, ASD)

TSC 2016 (LRFD, ASD)

BS5950

Eurocode 3 Base Code and National Annexes

United Kingdom

Singapore

Malaysia

Poland

Seismic Analysis and Design Codes

IBC 2018

UBC97

ASNI1726-19

NSCP 2015

DPT 1301/1302-61

TDY 2007

TBDY 2018

Eurocode 8 Base Code and National Annexes

Loading and Wind Loading Codes

BS 6399

TS 498

AASCE 07-10

MS 1533

DPT 1311-50

NSCP 2015

Eurocode 1 Base Code and National Annexes

United Kingdom

Ireland

Singapore

Malaysia

Poland

Philippines

Indonesia

Thailand

Modelling

With its focus on structural BIM modelling, ProtaStructure allows physical RC, Steel and Composite structural members to be easily, quickly and intuitively defined in one model.

Structural BIM Modelling

Instantly create models using smart DXF import to extrude gridlines, beams, columns, slabs and shearwalls directly from structural or architectural drawings or make use of physical BIM links with IFC’s, Revit or 3D DXFs to establish complete models with a click.

Use dynamic input to rapidly create Concrete beam, columns, slabs, foundations and shearwalls and custom shaped corewalls and columns. Define openings, drops and physical set out to exactly define your project.

Use real structural steel elements including truss, purlin, brace, girt, sag rods with flexible parametric macros. Specify your splice locations on steel columns, beams and trusses.

Real Structural Steel Elements 1
Real Structural Steel Elements 2

Define conventional, waffle, precast and flat slabs with curved and irregular edges and drop head panels.

Create Raft, Piled-Raft, Pad Base, Pile Cap and Combined foundations together with Strip Footings and Foundation Beams for complete foundation design. Set foundations up at any level.

Build custom trusses using the truss editor and save them in the library for later use. Define multiple horizontal and vertical braces and use flexible purlin layout generators.

Truss Editor

Make use of the new general purpose frame member to model irregular arrangements with ease.

Frame Member

Merge different model parts together allowing concurrent modelling for rapid project creation.

Fast generation of multiple storeys with similar storey feature.

Multiple Storeys with Similar Storey Feature

Simultaneously work on different floor plans and 3D model with multiple window system. Easy access to parts of model with element Filters.

Define different materials and reinforcement steel grades on floor and element basis throughout the project.

Create Arc and multi-segment axes/beams, sloping members and structures with non-orthogonal plans.

Non-Orthogonal Plans

Anchor fixed column and beam positions to corners and edges. When section sizes change, anchored positions are retained.

Model sloping slabs, beams, columns and sloping and tapered shearwalls easily using planes or multi gridlines.

Assign flexible user-defined supports including springs under columns and shearwalls.

Loading

Prota’s unique loading processes are highly automated and accurate, saving you time and driving efficient design.

Automatically decompose loads from plate, ribbed and waffle slabs, using Yield Lines and/or Finite Elements Methods. Apply point, line and patch loads to slabs.

Yield Lines and/or Finite Elements Methods 1Yield Lines and/or Finite Elements Methods 2

Apply user-defined Point Loads, Moments and Span Loads to columns and shearwalls.

Check model loads, finishes, elements sizes and properties using color coded visual interrogation.

Color Coded Visual Interrogation

Automatic calculation of code-based seismic loads using Equivalent Static and Response Spectrum Analysis methods.

Automatic Wind Load Calculation to EN1991-4(2005) BS6399-2(1997), ASCE7(2010) & MS1533(2002) and Thailand codes

Analysis

Structural analysis is performed by specifically developed 64-bit 3D finite element solver and state-of-the-art analytical model.

64-bit 3D Finite Element Solver

Rapid analysis using multi-cores and pre-processing technology.

Analysis of slab systems independently or integrated with the structure by using finite elements.

Analysis of Slab Systems 1
Analysis of Slab Systems 2

Automatic rigid links, rigid zones and asymmetrical end-releases on frame members.

Analysis of shearwalls and custom shaped corewalls with or without openings using shell elements, mid-pier and single-pier models.

Analysis of Shearwalls and Custom Shaped Corewalls

Staged Construction Analysis with detailed options, P-Delta analysis and definition of equal/gradient temperature differences. Special Seismic Analysis considerations.

Soil-Structure Interaction Analysis for all types of foundations.

Soil-Structure Interaction Analysis

Sophisticated Post Analysis checks for reviewing code compliance including deflections.

Real-time visualization of stress contours, deformations, force and moment diagrams using the full-featured Analysis Post-Processor.

Design

Design is the very essence of what we do as Structural Engineers. Providing elegant, practical solutions to design is at the heart of ProtaStructure

Design

Interactive and batch concrete beam and column design including reinforcement optimizations and design grouping.

Biaxial design and reinforcement optimization of columns and shearwalls with any section. Generation of interaction diagrams and capacity reports for easy design tracking.

Biaxial Design and Reinforcement Optimization of Columns

Design of shearwalls and slabs using conventional or mesh reinforcement.

Automatically create reinforcement layouts for columns and corewalls with “I, H, L, T, U, E, +” sections

Code-based automatic containment tools to specify link and tie-bar layouts compatible with column sections of any shape and size.

Design economically and accurately by including column sections in FE mesh and considering openings, drops and loads on slabs in FE analysis.

Design of flat, ribbed, waffle slab systems using analytical and finite elements methods and automatic punching checks.

Selection of the most efficient steel profile based on active codes.

Automatic design of steel connections using IntelliConnect and ability to reuse at all similar joints

Integrated meshing and analysis of slab and foundation systems with the building model.

Advanced documentation tools including ordered report sets, integration of external reports, table of contents, smart notification system (summary of warning, error and information messages).

Advanced Documentation Tools

Design pad bases, pile caps, strip foundations, rafts, piled rafts and combined foundations using analytical and finite element methods.

Analytical and Finite Element Methods

Combine different models to cater for shared foundation systems.

Use different subgrade coefficients and varied thicknesses for within raft foundations.

Источник: [https://torrent-igruha.org/3551-portal.html]
Serial number serial number for prota steel 2018

3 comments

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