3rd part of Multi-Series Articles 'Circular Interpolation Concepts & Programming'. This part briefly explains how cnc machinists can Calculate and Program circular interpolation G02 G03 with the use of I J and K. 9.4 - Circular Interpolation Mike Bunce. Unsubscribe from Mike Bunce? Programming in Visual Basic.Net How to Connect Access Database to VB.Net - Duration: 19:11.

[ CNCCookbook’s G-Code Tutorial ]

Circular Interpolation is Motion Along a Circular Arc

Having just finished discussing linear interpolation, or motion in a straight line, we next come to circular interpolation, which is motion along a circular arc. Other than the fairly exotic ability to follow a “NURBS” path, most g-code controllers only support two kinds of motion: linear and circular. Circular interpolation is quite a bit more demanding on your machine as two axes have to be precisely coordinated. Drawing a complete circle involves not just coordinated motion but reversal of direction at each of the 4 quadrant points. These would be the points corresponding to 0, 90, 180, and 270 degrees. If the machine has any backlash at all, it will be obvious at these reversals because there will be a glitch in the cut there.

Circular Motion is a Mode Initiated Via G02 and G03

Like linear motion (initiated by G00 and G01), circular motion is a mode initiated via G02 or G03. G02 establishes a mode for clockwise circular arcs. G03 establishes a mode for counter-clockwise circular arcs.

Circular Interpolation Programming Pdf

Defining An Arc For the CNC Controller

Once either the G02 or G03 mode is established, arcs are defined in G-Code by identifying their 2 endpoints and the center which must be equi-distant from each endpoint or an alarm will occur. The endpoints are easy. The current control point, or location when the block is begun establishes one endpoint. The other may be established by XYZ coordinates. The center is a bit more complex.

Defining the Center Via IJK Relative Offsets

The center is most commonly identified by using I, J, or K to establish relative offsets from the starting point of the arc to the center. Here is a typical clockwise arc:

Defining an arc’s center with IJK…

This arc starts at X0Y2 and finishes at X2Y0. It’s center is at X0Y0. We could specify it in g-code like this:

G02 (Set up the clockwise arc mode)

X2Y0 I0J-2.0

The I and the J specify relative coordinates from the start point to the center. In other words, if we add the I value to the starting point’s X, and the J value to the starting point’s Y, we get the X and Y for the center.

Defining the Center Via the Radius Using “R”

We can also define the center just by specifying the radius of the circle. In this case, our circle has a radius of 2, so the g-code might be simply:

G02

X2Y0 R2

Many of you will be deciding right here and now that since R is easier to understand and shorter to write, you’re just going to use R and forget about IJK. But, the CNC teachers in the world will suggest that you should prefer IJK. Their argument is that when you use IJK, you get a double check that your arc is correct.

Lisa kleypas read online. It is uncovered that Catherine Marks is really Harry Rutledge’s half-sister and is in hiding from something terrible in her past.

Why?

Because the controller gets to compute an actual set of coordinates for the center via IJK. Once it has the center’s coordinates, it can check that it is equa-distant from both end points. The check of each of those two distances is the double check. In the case of the “R” format, the controller has no such double check. It has to chose a center that guarantees equal distance.

Personally, I don’t know if I agree with the CNC instructors that this is providing any extra checking or not. I say go with whichever approach makes sense for your particular situation, but you should definitely be familiar and comfortable with both. You’re going to need to be comfortable with relative coordinates anyway, as they’re darned handy. May as well get comfortable now.

It’s kind of like being told you should only use the 4-jaw chuck on a lathe when you first start out so you’ll get very comfortable dialing it in. It’s a good skill to be good at as a machinist!

Circular

Variations in Arc Syntax for Different G-Code Dialects and Modes

When IJK Are Not Incremental and What About Having Both IJK And R? Plus, Other Modal Shenanigans and Arc Variations

This is another one of those places where lots of obscure things happen and you need to know what your controller will do without assuming anything. In general, the rule is supposed to be that if you have both IJK and R in the same block, R takes precedence and IJK is ignored. But there are controllers that don’t work exactly that way, so be sure you know what’s going on.

G-Wizard Editor let’s you specify several parameters in its Post that determine how arcs work. Here is a screen shot of the setup options:

Arc Options for G-Code Simulation

Let’s go over these options:

Incremental vs Absolute IJK: We’ve discussed IJK as offering coordinates relative to the starting point for the center. Add the I to X, J to Y, and K to Z of the starting point and you get the center. Many controls also have the option for IJK to be the absolute coordinates of the center.

Modal IJK Centers: When IJK are absolute center coordinates, some controllers will remember the last center defined, hence IJK is modal in that case. When using a control set up like this, you can just keep issuing XYZ commands for arcs without having to define a new center each time. It’s not clear you’ll save much though–how often do you want to do a bunch of arcs with the same center?

Modal R Centers: Another variation on the modal center idea is to allow the radius defined by “R” to be modal. Whatever the last R used was, the controller remembers and uses that value again if no R is given. This seems more useful than modal IJK. For example, a pocket might have arcs for the corners that are all the same radius.

Give R Precedence: As mentioned, most controllers will use “R” when both “R” and “IJK” are given in the same block. But this option allows you to change that precedence to IJK if your controller works that way instead.

Helical Interp.: This option governs whether your controller allows helical interpolation.

The Most Common Problem Configuring a CAM Post or CNC Simulator: Absolute vs Relative IJK

We’ve all had the experience of looking at a backplot (or worse, seeing it in the actual tool motion which is pretty scary) and seeing the giant almost complete circles and no sign of the familiar part motions we expected to see. Here is a typical example:

Engrave file with bad Post settings for Arcs…

If you see that sort of thing, the first thing to check is absolute versus relative IJK for arcs. The setting has to match between what the CAM produces and what the controller or simulator expects.

Fractions of a Circle, Quadrants, and Controllers

The first thing about an arc is it isn’t possible to specify more than a 360 degree arc. There are some exceptions to this on some controllers for Helical Interpolation (see below), just because it can be useful for helixes. When a full circle is desired, set the start and end points equal to one another:

G01 X3.25 Y2.0

G02 X3.25 Y2.0 I-1.25 J0

Interestingly, you can’t specify a full circle with the “R” notation. This is because there are an infinite number of circles that start and end at the same point of a particular radius, so the controller has no idea what the correct circle might be.

There is more funny business still with “R” and larger arcs. For example, an arc may still be of a particular radius and clockwise (or counter-clockwise direction), but the center is ambiguous if you travel more than 90 degrees. For example:

May 26, 2018  Adobe Photoshop 7.0 Free Version is compatible with 32 Bit as well with 64 Bit Operating system. If you are looking for the complete version of Photoshop 7.0 version for Windows 7, 8 or 10 then we have given the links below. About Adobe Photoshop 7.0 Free Version Download x64/x86 Bit. Getintopc Adobe Photoshop 7.0 free. download full Version For Windows 32-64 Bit free. download full Version for PC/Mac/Windows Xp,7,8,8.1,10. Its offline installer and Standalone Setup of Adobe Photoshop 7.0 Free Download for 32 and 64 Bit. We can also download Adobe Photoshop 7.0 free. download full Version For Windows 32-64 Bit Filehippo. Jul 10, 2019  I have my old standby Photoshop 7.0 32 bit and have used it as far as Win 8.1 64 bit, but the Setup.exe file will not execute on Windows 10 64bit, any. Adobe Photoshop 7.0 Download setup for windows. Adobe Photoshop 7.0 Free Download designed for editing the pictures and videos to make them better than before. Photoshop 7.0 Free Download is offline installer setup and compatible with x32 x64 and x86 bit. Overview of Adobe Photoshop 7.0 Free Download Adobe photoshop 7.0 filehippo free download for windows. Adobe photoshop 7. 0 64 bit.

If R is negative, it takes the longer path (in yellow). Positive gets the shorter path.

Given the two choices shown, the controller chooses the path based on the sign of the radius. Negative forces the longer arc, positive the shorter. The negative sign forces the controller to seek a viable arc of more than 180 degrees.

Some controllers are touchier still and will not program an arc that crosses a quadrant line. Hence, the largest angle an arc can follow is 90 degrees, and that angle must not cross 0, 90, 180, or 270 degrees. For angles of 90 degrees that cross a quadrant line, they must be broken into two pieces, with the join between the pieces being right on the quadrant line.

Full Circles With No XYZ

Full circles come about when the start and endpoints are identical and the center is specified via IJK (remember, R leads to an infinite number of circles). Given that you want the start and endpoint to be the same, you may not need to bother even specifying the end point with XYZ. Some controllers may require it, but most do not. Here’s a simple g-code program that produces 3 circles in this way:

N45 G0 X-2. Y.75
N46 G1 Z-.5 F10.
N47 Y.5 F30. S2000
N48 G2 J-1.1
N49 G1 Y.75
N50 Z.2
N51 G0 X.75 Y-3.4
N52 G1 Z-.5 F10.
N53 X.5 F30.
N54 G2 I-1.1
N55 X.75
N56 Z.2
N57 G0 X-4.75 Y-3.4
N58 G1 Z-.5 F10.
N59 X-4.5 F30.
N60 G2 I1.1
N61 G1 X-4.75
N62 Z.2

And here’s what the backplot looks like:

Tip to Make Arc Programming Simpler: Start With Segments

When I’m laying out a toolpath, I prefer to leave the arcs until last. In place of each arc, I simply put a line segment whose endpoints correspond to the arc’s endpoints. This makes it easy to get the rough sketch of the toolpath together quickly, and it often seems to make it easier to then go back and convert the lines to arcs once the basic structure is already in place.

Helical Interpolation

A helix is an arc that continuously moves in a third dimension, like a screw thread. With helical interpolation, we specify such an arc with G02/G03 in order to move the cutter along a helix. This can be done for thread milling, interpolating a hole, or a variety of other purposes. Here is a backplot from a 1/4″ NPT thread mill program:

Helix for thread milling…

Here is a sample of the code from the thread milling program:

Wellgames bubble shooter. G01 G91 Z-0.6533 F100.
G01 G42 D08 X0.0235 Y-0.0939 F10.
G03 X0.0939 Y0.0939 Z0.0179 R0.0939
G03 X-0.1179 Y0.1179 Z0.0179 R0.1179
G03 X-0.1185 Y-0.1185 Z0.0179 R0.1185
G03 X0.1191 Y-0.1191 Z0.0179 R0.1191 F16.
G03 X0.1196 Y0.1196 Z0.0179 R0.1196
G03 X-0.1202 Y0.1202 Z0.0179 R0.1202 F26.
G03 X-0.1207 Y-0.1207 Z0.0179 R0.1207
G03 X0.1213 Y-0.1213 Z0.0179 R0.1213
G03 X0.1218 Y0.1218 Z0.0179 R0.1218
G03 X-0.0975 Y0.0975 Z0.0179 R0.0975

This is “R” (radius) format for the arcs, and note there is a Z coordinate to specify a depth change for the end point of each arc. This code uses relative motion (G91), so each “Z0.0179″ moves the cutter 0.0179” deeper.

G-Wizard Editor provides some really useful information to help out with understanding helical interpolation. Here is the Hint from the third line (first arc move):

Note the thread pitch here is calculated as 0.1″

GWE will measure and tell you the helix pitch, which in this case is 0.100″. That can be useful for identifying what sort of thread is being milled. We can also see that this particular arc runs from 270 degrees to a scosh more than zero (0.1 degrees).

We’ll revisit thread milling in much more detail in a later chapter devoted entirely to the subject. For now, we just wanted you to be familiar with the idea that you can make helixes as well as flat two dimensional arcs.

Making Toolpaths Your Machine Will Be Happier With

Neverwinter nights 2 modules download. 3 days 18 hours: NwN:EE Project Tool: NWN-Helper. Cross-platform program for editing NWN-EE files outside of toolset. NWN-Helper is meant to make WB's life much easier.

As many different types of have evolved from ancient to modern times, many different varieties of stencils have also evolved over the time. However the designer he himself has designed the stencil some time back or before it came to access. Microsoft stencil font free download. Standard stencil font templates have hence become increasingly popular and are very easily available free of cost over the internet. The stencil font library is increasing day by day as many different fonts come to view and get standardized because of their popularity.

Circular Interpolation Programming Pdf File

Whenever the cutter changes direction, it adds a certain amount of stress. The cutter will bite into the material either more or less than it had been, depending on whether the directions changes towards the workpiece (or uncut material) or away from it. Your machine will be much happier if you program an arc rather than an abrupt straightline change of direction. Even an arc with a very small radius will allow the controller to avoid changing direction instantly, which can leave a mark in the finish in the best case and cause chatter or other problems in the worst case. For slight changes of direction, it may not be worth it. But the more abrupt the change, with 90 degrees being very abrupt, the greater the likelihood you should use an arc to ease through the turn.

Arcs are also a useful way to enter the cut, rather than having the cutter barge straight in. For information on entering the cut with an arc, see the toolpath page from the Milling Feeds and Speeds Course.

Exercises

Circular Interpolation Programming Pdf Free

1. Dig out your CNC controller manual and go through the arc settings to set up GWE to match your control’s way of operating.

2. Do some etch-a-sketch experimentation with GWE. Create some toolpaths that include arcs until you’re comfortable creating them.

G Code Circular Interpolation

Next Article: Running the GWE G-Code Simulator