3D Scanning Natural Forms

IMG_20190117_3D Scan EinScan Pro

This is a post about my new favourite toy – the EinScan Pro 2X Plus 3D scanner from Shining 3D. Why? Because it allows you to turn any object into a 3D model! And I can tell you upfront, it works REALLY well!

This is not the first 3D scanner from Shining 3D, which is a good sign that both their hardware and software has had time to mature. The EinScan Pro 2X Plus is brand new to the market, which means there are not many reviews at the time I’m writing, although you can find a brief overview from 3D Scan Expert and will no doubt see a full review from him in the near future. I’m not a 3D scanning expert, so am not going to dive into all the details here. I have used several scanners in the past and written a few posts, but this is the first that I have full access and control over and am currently using on a daily basis.

Enough with the introductions. One of my first experiments has been to 3D scan some challenging organic forms, including some shells which I picked up from the beach. The top photo shows one of these shells being scanned (we have the “Industrial Pack” turntable and “Colour Pack” upgrades for the scanner). The process is straight forward in the accompanying EXScan Pro software – a few basic settings about the detail you’d like to capture and press go. The turntable and scanner do the rest, and you can see the points being captured in real-time on screen. There is a bit of cleanup after the first scan to remove any points that aren’t needed (e.g. you can see in the photo some points around the perimeter where the scanner picked up an edge of the turntable), at which point you have your first scan.

This could be all the detail you need depending on your application; however, all you have is an outside collection of points, with no detail about the inside of the shell. So I then flipped the shell over and performed a second scan. The only difference from the previous step is that now there are 2 scans. Amazingly the software is proving quite intelligent at automatically aligning multiple scans, finding common points and bringing them all together. This doesn’t always work, and there is an option to manually align 2 scans by selecting 3 common points in each. I must admit the interface for this process is quite painful to use at the moment, so it’s always great when the software automatically does this. Overall the software is very basic, you really don’t have a lot of control – which can be both a blessing and a curse. You certainly can’t perform any sort of editing actions other than selecting and deleting points.

The final step is to turn all of the points (aka. point cloud) into a mesh suitable for 3D CAD software, or 3D printing. There is an option to create a watertight mesh, letting the software automatically fill any holes in the model. For this shell scan I only had very minor gaps which were nicely cleaned up and blended into the mesh. However, I have found with some other scans that if holes are quite large, or there are some messy overlaps in scan data, the software will produce some weird results – best to keep scanning to capture as much data as possible before creating a mesh, once you get to this step there is no turning back.

IMG_20190118_3D Print Shell

Best of all, being a watertight mesh, the file can be immediately used for 3D printing. But why simply replicate a shell? I always see large shells as decorator items in stores retailing for hundreds of dollars – and now I can 3D print them for a fraction of the price. This one was scaled up 500% and printed on a Wanhao Duplicator D9/500 – which is still working somewhat consistently after my previous post and firmware upgrades. I decided to print it in an upright orientation so that the 0.5mm layers are similar to the layers naturally occurring in the shell. Even though the print quality is still quite rough, I think this only adds to the natural effect.

The shell has been saved as a .obj file, meaning that it has all the colour information along with the geometry that would normally be a .stl file. I have shared this on Sketchfab so that you can have a closer look at the mesh in 3D using the above viewer. I think it’s a really great result, and hopefully you can see why I have called this my new favourite toy. It really does open up new opportunities (perhaps you’ve already seen some new experiments if you follow me on Instagram). Stay tuned, I’m sure there’ll be plenty more posts that involve 3D scanning and 3D printing in the future.

– Posted by James Novak

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3D Printed Chainmail: Size XL

20181030_3D Print Chainmail

If you’re into 3D printing like me, chances are you’ve already 3D printed chainmail and been excited by the ability to produce something that is made of multiple parts already assembled and ready to go. If you’re new to 3D printing, what you might not realise is that because you are printing objects in small layer increments, you can print these layers in such a way that different pieces become trapped within each other as the print progresses, permanently assembling them together. This means that something like chainmail, which has been hand assembled for thousands of years one link at a time, can now be printed with all the links in place.

One of the most popular examples in recent years has been from well known designer Agustin Flowalistik, whose unique design of chainmail has been downloaded over 100k times already on Thingiverse! Click here to download the file for yourself and add to this growing number. After one of my previous posts about the new Wanhao Duplicator D9/500 printer, I wanted to see how it would handle the intricate geometry, however, at 200% the scale. Go big or go home!

Well, as you can see from the photos it worked quite nicely. With the large 0.8mm nozzle the layers certainly look rough and messy – this print isn’t going to win any awards for being pretty. But it worked, and on this sketchy 3D printer that’s the most important thing at the moment. One of the nicest things was peeling it off the magnetic flexible build plate of the D9, which you can see in the first picture above – no hacking away with a spatula which is one of the positives of the printer. The links freely move and because of the large size, the chainmail has quite an industrial feel about it. Very satisfying.

So I think I can chalk this one up as a win on the Wanhao D9, which I think brings my score up to about 2 wins, and too many failures to count… Not great but after a firmware update I hope there will be some more wins to come.

– Posted by James Novak

First 3D Print with the Wanhao Duplicator D9/500

IMG_20180917_Webcam 3D Print Mount

If you have followed my blog for any length of time, you’ve probably noticed I’m quite a big fan of the Wanhao 3D printers – they’re cheap, reliable, upgradable, and just good value for money. Even my Cocoon Create from Aldi is actually just a Wanhao in disguise! Recently Wanhao released the Duplicator D9/500, which has an incredible 500x500x500mm build volume. Yes, you read that right, those numbers are not a typo! The picture above doesn’t do it justice, this is a big unit that currently we can only store and run on the floor until we can free up a large desk. Manoeuvring this thing is definitely a 2 person job!

Before I get into the details of the machine and my first experiences, the printed vase pictured above is the first successful print, which is the Curved Honeycomb Vase (free on Thingiverse) printed at 200% scale. Printed in vase mode (aka “spiralise” in Cura) with a 0.8mm nozzle, this print took approximately 6 hours to complete. A great design in itself, and very cool at this large size.

However, it certainly hasn’t all been smooth sailing with this printer. First, there were some lengthy delays from Wanhao between when we placed the order and finally received the machine – apparently some manufacturing and quality control issues, and Wanhao may have released the machine a bit too early to market. In total we waited several months, however, they may be much faster now that issues seem to be resolved. The second big issue we faced was assembly – the supplied instructions weren’t particularly useful or even relevant, with some of the components no longer supplied with the printer – it seems that the initial release included large brackets to help stabilise the frame and some other details in the instructions, so we were left feeling like we were missing some parts. Apparently we are not, although we still haven’t figured out some of the cable management issues and have had to hack together a temporary solution for now.

Another challenge with assembly was in constructing the frame; obviously at such a large size the frame wasn’t pre-assembled like the smaller Duplicator 3, and the frame also uses extruded aluminium rather than folded sheet metal. Squaring all of these extrusions is not simple, and some initial issues when running the machine were related to having one of the vertical frame pieces lightly twisted. Some better alignment details are definitely needed.

The final issue that we’ve been experiencing is in the auto-levelling sensor, which was not installed at the correct height in the factory and required a lot of manual adjustment (we had the nozzle collide with the bed several times when first running it). However, even with this, the machine doesn’t really seem to adjust the prints for any levelling issues; our first prints across the bed revealed a number of areas where the bed was slightly warped, which were not being corrected by the auto-level feature, so we are currently manually doing adjustments for now. And we have found the central area of the bed is OK, so the vase printed really well.

So overall I would have to recommend that anyone considering this printer hold off for at least a few more months, there are just too many issues for anyone without a lot of experience calibrating 3D printers, and without the time to really get in and troubleshoot issues. Last time I searched on YouTube it seems others have also come to a similar conclusion. I think with time this will be a great 3D printer, we’re certainly going to keep learning more about it, but this seems like a case of a manufacturer rushing to market without properly testing and perfecting their equipment. Unfortunately, an all too common story in the 3D printing world.

Make sure you follow my blog and social media accounts to keep up to date with ongoing test prints and posts about the Wanhao Duplicator D9/500. And please share your own experiences in the comments section so we can all learn from each other 🙂

– Posted by James Novak

*UPDATE 14/1/2019 Recently I have updated the firmware of the printer to see if that would improve performance of the machine. I recommend this as a priority for anyone with a D9, it could fix some of the issues you may be experiencing as there are probably several different versions of firmware out there now depending when you purchased your printer. While I haven’t noticed a difference with the levelling issues, it’s always worth running the latest firmware to fix any other potential issues. This video tutorial is excellent, I followed it exactly and managed to update both the LCD display and motherboard to version 0.164(B).

For now I’ve manually adjusted the levelling sensor so that in some areas the nozzle is lower than it should be, pushing into the print surface. This makes other areas of the warped plate the correct height, and after a few layers seems to level things off and be printing OK. Not great, but working for now.