XFEM4U UI and settings: Difference between revisions

From Struct4u
Jump to navigation Jump to search
No edit summary
No edit summary
Line 386: Line 386:


Optimize steel profiles.
Optimize steel profiles.
=====Calculation settings=====
[[File:Settings.png | 30px]]
[[File:Calculationsettings.png | 550px]]
'''Analysis'''
You can choose between two types of analysis: Geometric non-linear (GNL) or Geometric linear (GL). When you have chosen for a check according to the Eurocode (timber and steel), the analysis is always Geometric non-linear (GNL).
'''Dead weight'''
You can choose if you want the dead weight to be automatically generated or not.
'''Gravity acceleration g'''
Gravity acceleration in m/s2.
'''Code check'''
'''Design working life'''
The design working life of the construction in years
'''Consequence class'''
The consequence class of the construction. This determines among other things, the load factors that need to be used.
'''National Annex'''
The national annex can be chosen by land.
'''Steel code'''
The steel code you want to use
'''Imperfections'''
It can be set whether you want to take imperfections into account or not.
'''m'''
is the number of columns in a row including only those columns which carry a vertical load NEd not less than 50% of the average value of the column in the vertical plane considered
See Eurocode EN 1993-1-1 art. 5.3.2 Imperfections for global analysis of frames.
In '''XFEM4U''' all node coordinates will automatically be corrected/adjusted with +dx and -dx. So all UGT combinations will be automatically calculated twice. One with imperfections in positive direction, and one with imperfections in negative direction. Furthermore, in '''XFEM4U''' all Eurocode design checks are based on a geometrically non-linear analysis. Imperfections (initial sway imperfections) will be automatically included in calculating load combination(s). This is a very accurate calculation method and is applicable for every type of frame. Sway or braced/non-sway frames. In addition, there is no need to calculate (error-prone) buckling lengths any more. The geometrical non- linear analysis (Second-order analysis) ensures global buckling stability check.
In '''XFEM4U''' global initial sway imperfections according to EN 1993-1-1 art. 5.3.2 (3) a) are taken into account automatically. The beam  imperfections  according to EN 1993-1-1 art. 5.3.2 (3) b) are NOT taken into account. This means that the individual stability of all beams needs to be checked according 6.3. The buckling length can be assumed equal to its beam length since the calculation is based on analysis, including global second order effects and global imperfections. See EN 1993-1-1 art. 5.2.2 (7) b).
'''Concrete code'''
The concrete code you want to use
'''Partial fixity'''
Specific for concrete setting if partial fixity should be taken into account.
'''Timber code'''
The timber code you want to use


=====Optimize steel profiles=====
=====Optimize steel profiles=====

Revision as of 10:52, 5 September 2022

BACK

Edit

Wikipedia encyclopedia

Menu

Wikipedia encyclopedia

Renumber

With these function the nodes and beams will be renumbered

Wikipedia encyclopedia Wikipedia encyclopedia

Every adaptation can be reversed and repeated without limitation. Do you want to go back to a previous situation? That is possible. The undo function will help you flawless and fast.

A wrong or accidental input can be restored but with this function you can also quickly compare different solutions. It helps you make an optimal design of your construction.


Wikipedia encyclopedia Copy

With this function you can easily copy selected nodes, beams and plates. You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen. (1. Select base point.) Now move the mouse in the direction in which you want to copy the

nodes and beams. (2. Select second point in the direction you wish to copy.) Just like the situation within AutoCAD, a dimension line is visible. You can also directly insert the distance via your keyboard. You close with the Enter-key. All nodes, beams and plates will be relatively copied.

The COPY command is repeated. So you can place your copy in several places and thus enter your model even faster and easier. Use the esc-key or the right mouse button to end the copying process.


Wikipedia encyclopedia Move

With this function you can easily move nodes. You select the concerning nodes by the use of the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen. (1. Select base point.) Now move the mouse in the direction in which you want to move the node. (2. Select second point in the direction you wish to move.)

While moving your mouse, a dimension line in one of the main directions x,y or z will appear. You can, just as you know it from AutoCad, immediately insert the distances numerically by entering the value / values from your keyboard. There are 3 possibilities:

1. Move with a known length in one of the main directions.

The value will appear in the dimension line. Here you can type in the distance. By the use of the enter-key the input is closed and the selected nodes will be moved.

2. Move using relative Cartesian coordinates (dx, dy, dz).

First you enter the distance in x-direction. The value will appear in the dimension line. Thereafter you type a semicolon ";" and the distance in y-direction. The value will appear in a second input field. Next you type a semicolon ";" and the distance in z-direction. The value will appear in a third input field. By the use of the enter-key the input is closed and the selected nodes will be moved.

3. Move using relative Cartesian coordinates (dx, dy, dz) or to absolute Cartesian coordinates (x, y, z).

Press the space key and the dialog box below appears. Here you can enter relative coordinates or absolute coordinates directly.

Wikipedia encyclopedia


Wikipedia encyclopedia Delete

With this function you can easily delete parts. You select the concerning objects by using the select window / crossing.


Wikipedia encyclopedia Rotate

With this function you can rotate selected parts. You can also make multiple copies with this function.

You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you select the first point of rotation axis. (1. Select first point of rotation axis.) Second you select the second point of the rotation axis. (2. Select second point of rotation axis.) The dialog below will be visible.

Wikipedia encyclopedia

Enter the value of the rotation angle. Optional you can also make multiple copies.

Wikipedia encyclopedia Flip

With this function you can mirror or flip selected parts. The mirror surface is arbitrary and is selected with 3 points.

You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you select the mirror / flip surface by 3 points.

1. Select first point of mirror.

2. Select second point of mirror.

3. Select third (last) point of mirror.


The dialog below will be visible.

Wikipedia encyclopedia

Choose to mirror or flip the selected objects.


Wikipedia encyclopedia Multiple Copies (Linear Arrays)

With this function you can easily make multiple copies of selected nodes, beams and plates. You select the concerning nodes, beams and plates using the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen. (1. Select base point.) Now move the mouse in the direction in which you want to copy the nodes and beams. (2. Select second point in the direction you wish to copy.) Just like the situation within AutoCAD, a dimension line is visible. You can also directly insert the distance via your keyboard. You close with the Enter-key. The dialog below will be visible.

Wikipedia encyclopedia

Enter the number of copies. With divide the copies will be distributed over the distance. All nodes and beams will be relatively copied.

Make selections

For selecting a (big) amount of nodes or beams in one time you can use the Select window or Select crossing.

This works exactly the same way as you might know from a.o. AutoCAD.

You draw a window from left to right. You draw a crossing from right to left.

Select window ( from left bottom to the right top)

1) Determine, using your mouse, the starting point of the window that you want to draw. This is the left corner of the window you want to draw.

2) Push the left mouse button

3) While you push the left mouse button you move the mouse to the right. A window is drawn in (partly transparent) blue.

4) When you release the left mouse button, all the nodes and beams that are completely in this window will be selected.


Select crossing ( from the right top to the left bottom)

1) Determine, using your mouse, the starting point of the window that you want to draw. This is the right corner of the window you want to draw.

2) Push the left mouse button.

3) While you push the left mouse button you move the mouse to the left. A window is drawn in (partly transparent) green.

4) When you release the left mouse button, all the nodes and beams that are partially in this window will be selected.


Multi select

To select multiple nodes or beams you can use the CRTL-button.

By pushing the CRTL-button continuously, you 'draw' the selection window as is described above.


Unselect

To unselect multiple nodes or beams you can use the SHIFT-button.

By pushing the SHIFT button continuously, you 'draw' the selection window as is described above.


Look at this demo in which a few possibilities of select window/ crossing are shown.

context menu

Wikipedia encyclopedia


Wikipedia encyclopediaZoom extents

With zoom extents the total construction is shown in full screen.


Wikipedia encyclopediaDistance

By this you can measure distances between 2 nodes. The distances are displayed in 4 directions. In x-, y-, z- and xyz- direction.


Wikipedia encyclopediaScreenshot

Make a screenshot. The screenshot is copied to the clipboard ( so you can immediately paste the image to your MS-Word document), and is also saved as a file in the map where the input file is saved, under the name: "name of your input file date time.png" . In this way you can always retrace your images.


Wikipedia encyclopediaCopy

With this function you can easily copy selected nodes and beams. You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen.(1. Select base point.) Now move the mouse in the direction in which you want to copy the nodes and beams. (2. Select second point in the direction you wish to copy.) Just like the situation within AutoCAD, a dimension line is visible. You can also directly insert the distance via your keyboard. You close with the Enter-key.

All nodes and beams will be relatively copied.


Wikipedia encyclopediaMove

With this function you can easily move nodes. You select the concerning nodes by the use of the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen.(1. Select base point.) Now move the mouse in the direction in which you want to move the node. (2. Select second point in the direction you wish to move.) Just like the situation within AutoCAD, a dimension line is visible. You can also directly insert the distance via your keyboard. You close with the Enter-key.

All nodes will be relatively moved.


Wikipedia encyclopediaDelete

With this function you can easily delete parts. You select the concerning objects by using the select window / crossing.


Wikipedia encyclopediaRotate

With this function you can rotate selected parts. You can also make multiple copies with this function.

You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you select the first point of rotation axis. (1. Select first point of rotation axis.) Second you select the second point of the rotation axis. (2. Select second point of rotation axis.) The dialog below will be visible.

Wikipedia encyclopedia

Enter the value of the rotation angle. Optional you can also make multiple copies.


Wikipedia encyclopediaFlip

With this function you can mirror or flip selected parts. The mirror surface is arbitrary and is selected with 3 points.

You select the concerning nodes and beams by the use of the select window / crossing. See Make selections. Thereafter you select the mirror / flip surface by 3 points.

1. Select first point of mirror.

2. Select second point of mirror.

3. Select third (last) point of mirror.


The dialog below will be visible.

Wikipedia encyclopedia

Choose to mirror or flip the selected objects.


Wikipedia encyclopediaMultiple Copies (Linear Arrays)

With this function you can easily make multiple copies of selected nodes and beams. You select the concerning nodes and beams using the select window / crossing. See Make selections. Thereafter you mark the beginning by clicking on the screen.(1. Select base point.) Now move the mouse in the direction in which you want to copy the nodes and beams. (2. Select second point in the direction you wish to copy.) Just like the situation within AutoCAD, a dimension line is visible. You can also directly insert the distance via your keyboard. You close with the Enter-key. The dialog below will be visible.

Wikipedia encyclopedia

Enter the number of copies. With divide the copies will be distributed over the distance. All nodes and beams will be relatively copied.


Wikipedia encyclopediaDivide beam

With this function you can easily divide your selected beams into equal beam parts.


Wikipedia encyclopediaDetermine intersections of beams

With this function you can easily calculate the intersections of your selected beams. Nodes will be added on each intersection found.


Wikipedia encyclopediaSwitch beam orientation

With this function you can easily switch the begin and end node of your selected beams. By switching the nodes the direction of the local beam axis changes.


Make beam group

Specifically and only for the lateral-torsional buckling resistance check a beam group can be inserted here. XFEM4U automatically detects for which beams this qualifies. Only the beams which are connected by a fully fixed connection to this particular beam and have the same profile will be showed. You can select which beams should be taken into account. For this group you subsequently enter the length between the lateral restraints and the buckling length out of plane. See Eurocode.


Create bill of materials

A bill of materials is created of all visible beams that you can export to Excel.


Reversing plate contour

The direction of the plate contour also determines the direction of the local z axis. With this function you can reverse the direction of the plate contour.


Wikipedia encyclopediaProperties

With this function you can easily change the properties of your selected objects (beams, node, loads...).


Wikipedia encyclopediaFast preview

With this function you can make a fast preview skipping the output selection dialog.

View

Wikipedia encyclopedia


Display options

There are many ways to set the graphical view. See Display options.


Visibility

With visibility you can make a selection of beams and/or plates visible.

How does it work? Make a selection (see Make selections) and click on this menu option. Only the selected beams and/or plates will now be drawn. The other beams and/or plates will be drawn transparently.

Helpful tip: You can now also make a sub-selection. How? Rotate the model make another selection and press "Visibility" again.

To undo this click on this menu option without making a selection.


Search

The Search function allows you to look up a node, beam or profiles quickly and very easily. See Find.


Dimension

Dimension line. You can use this to draw associative dimension lines. You can place the line with 3 clicks. You click on 2 existing nodes and choose the position of the line. There is an automatic snap to previous dimension lines.


Zoom extents

With zoom extents the entire construction is shown in full screen with the default camera position.


Zoom selection

With zoom selection the selection is displayed full screen. If nothing is selected, the entire construction is shown in full screen with the last camera position..


Line view / Solid

solid

Setting whether:

· The wireframe and nodes are drawn (Line view) or that

· all profiles are drawn as solid model in true size (Solid model view)


Distance

By this you can measure distances between 2 nodes. The distances are displayed in 4 directions. In x-, y-, z- and xyz- direction.


Screenshot

Make a screenshot. The screenshot is copied to the clipboard ( so you can immediately paste the image to your MS-Word document), and is also saved as a file in the map where the input file is saved, under the name: "name of your input file date time.png". In this way you can always retrace your images.


Snap size

The amplitude in mm in which is searched to a known point (node/middle of a beam/ grid line). The default value is set to 150 mm. Generally this value suffices.


Dockable windows

What are these? Dockable windows are windows that can be moved freely or placed on fixed spots. (left/right/top/bottom of the screen)


The tables for Geometry (Grid lines / Levels, Nodes, Profiles and Beams) and the tables for Loads ( Load combinations, Beam lodes, Node loads and Combinations) can be displayed or not.


You can enter your construction fully graphically, whereby the use of tables is not really necessary. Nevertheless it can be handy to see, for instance, the node coordinates in tables. This is possible. But in contradictory to many other programs you can also make any changes in these tables. It does not matter. Graphical drawing or numerical input via tables can be done simultaneously. After each change, all tables are updated and the construction is redrawn. Of course the undo and redo functions still work.


The windows can be set as 'floating' (in a random position but also outside the screen) or can be 'docked' left/right/top/bottom in the main window. This gives you much freedom. You can decide for yourself what you find most pleasant. The program remembers this setting, so you only have to do this one time. Of course you can always change this.


For example, when you have two computer monitor, you can show the construction graphically in full screen on one monitor, and show the tables on the other monitor.

Changing dimensions

Changing dimensions or values in the graphical view

  1. Move your cursor on the number in the dimension line.
  2. When the dimension line gets its focus, the number is viewed bold. The color of the dimension changes from gray to black.
  3. Press left mouse button. A dialog appears with the number to be edited.Editor.png
  4. Change the value.
  5. Press. Vink v2.png The dialog will be closed and the dimension has been changed.

or Press Kruis.png to cancel.

Back-up files

Backup.png

When you save a project, XFEM4U makes a backup copy of the previous version of the project (that is, the project file before the current save). This backup copy has the name "_backup<nnn>_"<project_name>.xfem, where <nnn> is a 3-digit number indicating how many times the file has been saved. The backup files reside in the same folder as the project file. The number of backup files is 3.



Notifications.png Notifications

When the force distribution can not be calculated, for instance when the structure is instable, a dialog box is opened. This dialog can be reopened with the button shown above. In this dialog box the notifications of the calculation module are shown.

Notifications2.png


Detail.png Spy

By the use of the spy you can look at the results of a certain beam in more detail.

See Spy.


Detail.png Settings

Calculation settings. See Calculation settings.


Steel.png Optimize

Optimize steel profiles.

Optimize steel profiles

Steel.png

With the function optimization you can very easy and quick create an optimal design of your steel construction. This function can spare you a lot of steel kilos.


How does that work?

You will go through all the profiles (in the table Profiles ) as you have inserted before. See Beams

The alternatives per profile will be shown directly. From these alternatives you can select another profile.

Optimalisation.png


Profile No.

The profile number refers to the profile number in the table Profile shown below


Profiles

Profiletable.png

Profile

The chosen profile


Type

Here you select the profile type (or group) in which there can be searched for alternative profiles.


Maximum number per type

Here you can enter the maximum amount of alternatives per profile type. Standard this value is at 3, but you can vary this value.

Select.png

Hereby you choose a profile from the right table Alternatives. You can also double click on the line in the table to choose the profile


Alternatives

Alternatives.png


In this table the possible alternatives are directly shown. By default the table is sorted by the unity check (u.c.). This unity check is the normative check according to the Eurocode EN1993. It is also possible to sort the table by profile name or weight by clicking on the column text.


Remark: By changing the moment of inertia, the force distribution also changes. The optimization function does not take this in to account. It could be possible that the new selected profiles will not be sufficient for your design and you have to use the optimization again. However, you will experience that the optimal design will be determined quick and easy.

Menu

Menu 2.png

Menu3.png

Menu4.png

Project data

Projectdata.png

Preview

Menu: File > Preview

Toolbar: Preview v2.png


The dialog box of the print preview offers, next to the standard functionality, many extra's including directly creating an e-mail with the calculation in PDF-format attached. From this functionality you can also generate a PDF-file or add a watermark in the output file.

Preview v2.png

Output selection

Outputselection.png

Page header

Setting whether the header should be printed


Page footer

Setting whether the footer should be printed


Table of content

Setting whether the table of content should be printed


Drawing

Setting whether a drawing should be displayed at the front page. By standard this is turned off. The drawing resembles the display at the screen.


Layers

You can show certain layers separately in the output


Views

You can select the 3d view images to be added into your output report.

Settings

Tab Settings & Help > Settings

The dialog box settings consists of 5 tabs:

Settings.png

All the inserted values will be saved. When the program is restarted, all the previous entered values will be read and activated.


Apply

Without leaving the dialog box you can see which effect the setting will have on your construction.

Watch out! When you want to apply and save the inserted values definitely, you have to use the button Ok.


Default values

All the values will be reassigned to the default values.


OK

The dialog box is closed and all the inserted values will be implemented and saved.


Cancel

The dialog box is closed and the previous settings will be used.

Snap options

Tab Settings & Help > Settings > tab Snap options

Settings.png

Snap.png

When, in the graphical screen, the cursor comes near a known point and/or an edge, the cursor is automatically placed to this point. There is been snapped to this point.

In much known design programs this functionality is used. It lets you select an exact point.


A very convenient functionality by drawing or displacing a node and/or a beam.


Snap size

The amplitude in mm in which is searched to a known point (node/middle of a beam/ grid line). The default value is set to 150 mm. Generally this value suffices.


Snap to node

Setting whether there needs to be snapped to the nearest node.


Snap to midpoint

Setting whether there needs to be snapped to the midpoint of a beam. A red rectangle is displayed when this point is found.


Snap to grid lines/levels

Grid lines and levels can be used. Here you get to choose whether there needs to be snapped to the intersections. Nodes follow the grid lines and levels. The node will be drawn light grey and follows these lines. At the right bottom of the screen you can see the node coordinates. You can place a node graphically. Obviously you can also numerical change the exact node values afterwards. When you double click on the node, a dialog box is opened. You can also change the node coordinates in this table. When you click on the node, the focus directly lies on the concerning line in the node table.


Snap to existing coordinate lines

All the nodes that are inserted are not directly visualized in the grid lines and levels. This makes snapping possible. This is a very useful functionality. Often the geometry of a construction is regular. Multiple nodes often lie on the same x- or z- coordinate. A construction can be inserted very easy and quick.