You can see that all you need to do is go to your drive, and all you need to do for me is go to the file and click the merge button. Please make sure that you save your Katia part as an STP file, regardless of where you say you saved it or where you say I saved it. Proceed with the point STP option. Be sure to click the edge curve, as doing so will give you a wireframe. Once you have the part in your possession, proceed to the next step. Since it is necessary for me to align the CNC Machining Aluminum Parts with the capabilities of the machine, I will first select the transformation dynamics of the brass machined parts to the top, then I will select and turn the whole CNC Machining Aerospace Parts to the bottom of the axis itself, and finally I will click OK.
Now that it has moved into the middle, click and correctly remove the color so that my part can be placed here. You can access the top view to get a better look at the middle. That appeals to me the most. Additionally, it is clear to you that there are a variety of scenarios.
You can begin in this location. You are free to go to the machine at any time and change the default value that is associated with the attribute file. I'm not going to alter any of these parameters; instead, I'm going to make sure that they all use the same default program number. This time around, I have crafted a piece of content.
For instance, these various options are all hidden from view in the feed plane and the material. I only make use of the standard 6061, which is what I have been using all along. In that case, what I mean is that the following step is to set the main bounding box, which is the inventory. I make a selection that encompasses the entire surface, which produces a bounding box that I can use as a reference. Simply clicking the corner and then clicking OK allows me to select the depth. After that, I will keep the value of 20,000 on the z-axis and then click OK. In addition, when I look at the axis from the front, I can see that there is a material slide located to the upper left of the axis itself. Click the isometric button, and now, before I begin, because I switch between the front plane, the top plane, and the isometric plane, I need to make it.
Naturally, my construction plane is also displayed in the top view; consequently, I am able to initiate the creation of my tool path from this vantage point. The first part is the head or the face. It goes without saying that I don't have to pick anything. I have indicated that the material to be cut should be twenty tau. Only the instrument and its diameter need to be specified. I need to apply a filter.
After selecting the face milling cutter and setting the measurement to three inches, I clicked the OK button. My face is scrunched up in concentration. Again, I select the OK button. My appearance is entirely my own. You have the option of selecting the tool number based on the tool list that you have.
The first operation that we will face is this one. It is imperative that you remember to save side by side, as this is an extremely vital step. You have demonstrated that through your operation that there are many issues present in MasterCAM. Because it is frequently simple to crash, you should simply keep saving after every operation. Because I personally carried out these steps, the initial procedure can now be considered finished. Now we will move on to the following procedure. Either I can give it my all to ensure that I have a corner, that everything will be all right, or I can just decide on something before I begin. I can do either one of these things.
This is the actual inventory that we have. I will adjust the settings for the inventory a little bit higher. I will add a eighth of an inch all the way around, making the total 1. 8.
The answer is the same for both X and C. I will respond with an OK. I am aware that my point will be refuted at this time, but I intend to stand by it. Only the depth can be specified using this point because it is only used for the depth surface of the Z axis. Since I will not use the point for X and y, it is irrelevant whether or not they are connected to the bounding box in any way. They only need to be on the same flight, which is what I consider to be the most important detail.
I will use my mouse to bring it up to date once more. It does not appear on the screen. I will save it again just in case there are any mistakes, but right now I already know what needs to be removed. I would like to click on the outline, and I will begin at the very bottom.
Therefore, I'm going to go with the cycle because it's the most practical option. You can select the cycle here, and then click the OK button. When it comes to the tool selection, I want to choose the half inch. This time around, I plan to use the half-inch setting. Okay, I'll go ahead and choose the half-inch bull, then I'll click OK, and the corner radius will be 6.
6 25 000. I will not make any adjustments to the parameters. These parameters remain stable throughout the analysis. Everything seems to be in order.
Because I want to prevent myself from not cutting it, I don't want to cut this particular feature. I want to select an entity, but I don't want to cut it. So now I can click preview change, and you can see that it tries to cut the entire surface. The question that you might be wondering is why I should add or offset these lines and then make this wireframe. The reason for this is that we use an end milling cutter that is half an inch in diameter. If we don't use a basic wireframe, the distance from the circle to the edge will be very limited, which will ultimately result in the severe fragmentation of our entity, which we do not want to be located in the middle. Therefore, in order to prevent the size from growing, so that my half-inch tool can easily move from here to here without interfering with the solid polygon in the middle cell, I click OK, and then I double-check that my tool is set up correctly.
It is required that I choose the half-inch flat filter. It is sufficient to refrain from clicking equal to 0 or 5. If I don't want the problem, I won't change the parameters, I'll keep being consistent, and I'll start leaving the wall and floor at zero, which is why I set them to zero in the first place. This accounts for the majority of the movement of the tool diameter inlet. You have the option of keeping 0.2 or 0.2.