 Where did this come from? I've been donated this in exchange for a video featuring it. They originally wanted an ad, like a paid promotion. But I was like, as it happens, my next one to my video is going to be around 3D printed impellers. So if you guys want, like an instead, basically, rather than like an ad insert in another video, do the entire video featuring the 3D printer, but do it as a review. So that it'll be an honest review, like if the printer sucks or the stat sucks. But I did ask some mates and they were like, no, it's actually a pretty reasonable printer. Nice. Either way, I am going to have a 3D printer now. Is this not the most expensive thing in our house? Yes. Great. 3D printer. Woo. And then... I'll do that. The magic. The magic later. You know, it will definitely jam or like hit something and it will not go through and you'll have to jiggle it. And what does that bit do? So this one senses when you run out of filament. You know, so you don't lose your print, it will go and park itself and it will wait until you put the fresh filament in. And this is the actual printing head. It has extruder and everything inside. And the motor actually drives it through the extruder. Ah, it hits up pretty well. You know, it's 150 degrees already. It's pretty in the bed. 60 degrees. You know how to know when it is 60 degrees? No. 60 degrees is about the limit at which you can hold your hand on a hot surface. So I don't need to use hairspray or anything because it's a pre-heated bed? No, that's a pre-heated bed and it's coated with a special material. If it doesn't stick well, what you may need to do, you may need to take a very, very fine sandpaper and just, you know, do a few passes just to create, you know, these scratches. Nice bit quiet. It's very quiet. The fan. It's fine. It's alright. It's quiet on the laptop. I hope it's not a bit coin-y. Yeah, it's the kind of thing that's like mining cryptocurrency while we print. Do anyone who starts working have to watch your first and probably about 5 or 6 videos? Watch it. Yeah. But for some time you get, you know, chill about it and just let it go and it happens there. It's quite your happy watching. This one seems pretty spot-on, right? Yeah. Has there been anything even vaguely resembling an error? Yeah. Even with that bridging? They had plenty of time to work out all these works and even my work. They were sent back. It's alright, you know, with the picks. And they introduced and they put all the changes that I thought on mine. You know, they are already different. Such as? Such as developing a boat, you know, which makes it quite a lot easier and more precise in that direction. The better cooling for the nozzle. And this rail here is wide, not narrow, you know. So it actually has quite a lot of base mechanics to hold the whole thing in place and you know, to increase the rigidity of the table, you see. Trying to lift it up and down and not pulling it down. There are no artifacts on the print. You know, the first printers, you know, had the rails and verticals. And they were very, very narrow and so, yeah, that was the problem. So on this one, yeah, it's all fine. Plus. There you go. Sweet. The next step is the most satisfying. You do this. Oh, fancy. And then you let it cool. And then you do that. Yeah, we don't have officially endorsed Bitcoin on this channel. Yeah, let's endorse Ender. And that is magnets or frictions or statics? Magnets. Great. And we go to just normal print point two. Maybe even point two should be fine. And here's your levels. Perimeters. Three perimeters looks good to me. Infill. I usually, for structural models, I prefer about 25 to 40 percent. Let's put it at 25 percent. Lead is fine. Everything is fine. Skirt, three millimeters are right. Support material. And then you go into plotter. And you press slice now. And it's going through a process of slicing. Once complete, you know, that is what you have. And on this slider here, you can adjust this stuff. Right. You can see, you know, how it is going to do that. You know, this will be a decent print. It will take 13 hours to print. Oh, so here you put the runner for the header turbine on print. Everything is fine. Everything works out of the box. These are very minimal adjustments. And I personally like my printers to be a project, but that's not for everyone. And this is definitely a product. It just does the job. You have to have specialist knowledge to use it. The installation on the computer was pretty simple and quick. The settings worked pretty much straight away. And voila, you know, it's printing the turbine. And I definitely like the robustness of the aluminum print. You know, there are many other printers that are significantly less robust. And yeah, it's a good one, you know. The other thing is it's silent. It's nice, you know, you can actually have it in your room. It would be interesting to see the power usage. You know, even in the time of energy crisis and, you know, cost of living crisis. Stars out of 10? I'll solidate. So 100 watts when it's not printing. It's going to be about the same when it's printing. Now it's going to, you know, heat to 200 degrees. Something kind of need the temperature and the power to go up. Oh yeah, okay. 140. So it's about 40 watts more. So 100 for the printer itself and then 40, 50. I would say that, you know, it's 100 for a printer because the bed is heated. It's like heating on the bed, you know, consumes the most of the power. As you see, like it reached the power. Now it is cooling down 80 watts. So now that's all process printed. I'm quite certain, you know, if you would have it in a warmer room it would consume less. It is kind of cold in here, yeah? You know, once you have it there in your warm room it will be, you know, probably 20 watts less. I mean, our warm room is not much warmer than this room. It's got the boiler and a skylight, but it's still winter in Scotland. But 100 watts is fine. So if this print is going to take 12 hours, then that's 1.2 kilowatt hours. Something like that. Which is what it's electricity cost now. About 50p. 1.2 about 40p. You also use about 15% of filament. As for filament, it's roughly 15 pounds. So you use two pounds, 30 on a filament, roughly, and 40p for electricity. So it's roughly 216 pounds liquid. That's not bad. Also like I will optimise this design for printing so that it uses less support material and is a bit quicker and more efficient. Great. Awesome. Happy with that.