This article How 3D printing glitches inspired these Doctor Who effects was recently brought to my attention. The article (and several others like it on the web) talks about how 3D printing “glitches” like my Zombie Army print fails were the inspiration for the BBC show’s villains, the “Boneless”. To my great surprise and delight, the example 3D print fail being cited as influential on the Boneless was one of my earliest self portraits! As a Doctor Who Fan going all the way back to middle school, its quite an honor to have been of service to the Doctor.
There’s only a few weeks until my class TaDDDaa!, which covers a range of digital processes for glass casting at the Pilchuck Glass School in Stanwood Washington and there’s still a couple slots available! Session 2 runs May 30-June 17. The course will combine a 3D modeling, scanning and 3D printing/CNC routing track with a physical track for glass casting with lost PLA kiln casting and hot casting into CNC carved graphite molds.
Apply today and join me in the woods for the time of your life!
This article is an apology to Nora Al-Badri and Jan Nikolai Nelles’. I hope my questioning of your methods doesn’t land you in hot water. Last week, my post There’s Something Fishy About the Other Nerfertiti really blew the lid off a debate that has recently had a lot of chatter in online 3D scanning, printing and art circles. My post debunked the possibility that your art project The Other Nefertiti was scanned using an Xbox Kinect sensor. Immediately after my posting, the internet seemingly exploded with commentary about how the “Nefertitihack” had to be a hoax. At the end of the day, I don’t think it matters whether you scanned the artifact with a Kinect or procured a file from other sources because what you have created is a wonderful dialogue about the provenance of antiquities, ownership, copying and a strong argument for openness and sharing of data. What’s great is that this priceless antiquity is now within reach of anyone who cares to experience it and people are interacting with Nefertiti in unique and personal ways they never have been able to before.
The repercussions of my post began with Hacker News picking up on my post, which produced a ton of traffic and some great comments. The Nefertiti Hack: Digital Repatriation or Theft? was the first press I’m aware of that began to seriously consider that things with the story didn’t add up. Hyperallergic’s Claire Voon then produced some of the most insightful commentary Could the Nefertiti Scan Be a Hoax — and Does that Matter?, and it all culminated with the Times’ Charly Wilder’s follow up Nefertiti 3-D Scanning Project in Germany Raises Doubts (She was aghast that none of the three experts she had spoken to for her original article had picked up on the possibility that the data was too good for their capture method).
So we may never know the truth about the true origin of the file. I tend to think that it is somehow derived from an official museum scan, which was somehow copied in the creation of their 3D printed edition). However, the real conclusion I’ve come to is that it doesn’t matter. What matters is something the internet has taught us all along. From Wikileaks to Nefertiti, information wants to be free. Already, a quick google search will turn up a range of Nefertiti derivative works ranging from interactive art to Lego Minifig and Pez heads, voronoi (swiss cheese) versions, Nefertiti vases and many more. What will be done in the future with her data, only time will tell.
Some Nefertiti inspired works that are already making the rounds. The best is yet to come.
Perhaps the best argument for museums being open with their data is the talk below that was just posted by Cosmo Wenman. Cosmo is an artist who has been active in scanning antiquities from museum collections for several years now. He has scanned a number of famous objects and casts made from objects, including the Venus de Milo and Winged Victory of Samothrace. The talk likens these 3D scans to the 19th century tradition of making plaster casts from classical sculptures and makes a strong case by showing several examples of how people have used the data he shared. This is a position that has been shared by many museums, including the Media Lab of the Metropolitan Museum of Art here in NYC, and I sincerely hope this trend will continue. The promise of the internet is that all of man’s knowledge will be at our fingertips. The Neues Museum would be wise to take note.
The New York Times and countless other news outlets picked up on a story that’s been making the rounds of the 3D printing community the last few weeks; Swiping a Priceless Antiquity … With a Scanner and a 3-D Printer tells the story of two artists; Nora Al-Badri and Jan Nikolai Nelles, who apparently succeeded in making a massive digital art heist when they surreptitiously scanned Nefertiti’s bust in Berlin’s Neues Museum. It’s great art commentary with many levels; It talks to issues around digital copy vs. originals, who is allowed to own these copies, and going deeper, questions the museum’s right to own the statue which rightfully should belong to Egypt. By releasing the files for The Other Nefertiti free online as a torrent, the artists have initiated a huge debate with many layers. The 3D Printing community is not without its debate about this work either. The video the artists share that shows them sneaking a kinect scan from beneath Ms. Badri’s scarf raises a lot of questions as to whether the artists even scanned the artifact as they claim.
The video shows the two using a Kinect Xbox controller to capture Nefertiti, and while I have no doubt the artists may have done the Kinect stunt, there is simply no way the scan being distributed was made with a Kinect. Simply put, the scan being distributed which is made of more than 2 million triangles is far too detailed to have been made with that hardware. Even if the device was “hacked” as news reports state, this quality is not achievable with this method. Problems in the story include how the unit was powered (Kinect requires a wall outlet), but even if they carried some kind of battery, Nefertiti is under glass which also causes errors in this method of scanning. Other questions include where was the connected laptop hidden? Then, the video shows Ms. Badri repeatedly covering and recovering the Kinect as she circles Nefertiti. A normal scan would require uninterrupted line of sight of the statue as the scan is happening. In order to get coverage of the top of the headdress, the scanner would have to be held high above the statue, and not at waist level as the video indicates. Maybe multiple scans might have been made from various vantage points and meshed together later, but truthfully the scan is way too high fidelity for the way the Kinect works. The device sprays a grid of points of infrared light over the subject and each point is measured as a distance measurement while the computer software does the math to turn that into a 3D model. Its a fast way to generate a 3d model, but with accuracy that is at best only within a few millimeters.
So if it wasn’t made with a Kinect, How was this scan created, and why lie about it? When confronted about how the scan was made on the 3D in Review Podcast, Mr. Nelles is vague in his answers and claimed that he and Ms. Badri knew nothing about the device and that some hacker types had set up the hardware for them. The “hackers” then took the data and created the model for them. When asked about the hacker’s technique, Mr. Nelles stated that the hackers had left for New Zealand and were unable to be contacted.
One theory is that the scan is actually generated by Photogrammetry, a technique of capturing images of the sculpture from a variety of angles. The images are then fed into software such as Agisoft Photoscan that analyzes all the images for common points, and generates a 3D model of the subject. Paul Docherty is a researcher who has extensively used photogrammetry to reconstruct historic artifacts and sites, including a model of Nefertiti’s bust using available imagery he gathered online. He catalogued the process in his article 3D Modelling the Bust of Queen Nefertiti, and also spoke on the 3D in Review podcast about his efforts. Mr. Docherty has since gone on to question the Nefertiti Hack scan in his article Nefertiti Hack – Questions regarding the 3D scan of the bust of Nefertiti, in which he agrees that there is no way this scan was captured with a Kinect. So, its possible that the scan could have been made using a series of 45-120 high res images covertly gathered with a cellphone, but if that’s the way it was done, why show the Kinect in the video?
The last possibility and reigning theory is that Ms. Badri and Mr. Nelles elusive hacker partners are literally real hackers who stole a copy of the high resolution scan from the Museum’s servers. A high resolution scan must exist as a high res 3D printed replica is already available for sale online. Museum officials have dismissed the Other Nefertiti model as “of minor quality”, but that’s not what we are seeing in this highly detailed scan. Perhaps the file was obtained from someone involved in printing the reproduction, or it was a scan made of the reproduction? Indeed, the common belief in online 3D Printing community chatter is that the Kinect “story” is a fabrication to hide the fact that the model was actually stolen data from a commercial high quality scan. If the artists were behind a server hack, the legal ramifications for them are much more serious than scanning the object, which has few, if any legal precedents.
What do you think? Will we ever know? Nefertiti’s data liberation has certainly sparked some controversy and I look forward to seeing what the community creates from it, as well as what truths come out as the story unfolds!
Coney Island has been an important place in shaping my identity as an artist, primarily through my involvement with the nonprofit arts organization Coney Island USA. For over 35 years, CIUSA has provided a staging grounds for a huge range of artists, performers, actors, playwrights, musicians, filmmakers and practitioners of just about any other artistic discipline you can think of, entertaining NYC’s diverse audiences and preserving aspects of uniquely American popular culture, such as the iconic Mermaid Parade. CIUSA has done remarkably well in helping to shape the neighborhood’s revitalization, but the organization is still financially reeling in the aftermath of superstorm Sandy and needs YOUR help! This March 19th, I am being honored at Coney Island USA’s Spring Gala, so I am forwarding an appeal from longtime board member and friend Mark Alhadeff. Please consider taking out a journal ad or buying a ticket to what may be CIUSA’s most important fundraiser ever. Coney Island USA needs your support so that it can continue making America’s playground a special place for generations to come!
March 3, 2016
Dear Friend of The Great Fredini:
I can say with confidence that every recipient of this note will know what a special person Fred Kahl is. But, just in case you forgot, let me remind you: He is a man of vision, intelligence, and good taste. And most importantly, he is a person with a giant heart.
Further, if you’re as lucky as me and have known Fred for decades, you will also know that Fred has always listened to the advice of Joseph Campbell and “followed his bliss.” This has led him on many incredible journeys, and the ultimate destination of most of those trips has been Coney Island. More specifically Coney Island USA (Coney’s resident not-for-profit arts group) has been blessed by the presence of Fred’s energy and creativity since the 1980’s. From neon sword swal- lowing to a 3D Luna Park, from acting on our stage to serving on our Board, from a spiral wishing well to an awesome electric chair — Fred is part of the very fabric of Coney Island USA.
Now that a few strands of silver have appeared in Fred’s luscious locks we here at CIUSA have decided it is time to honor the Great Fredini. Fred has been named “Man of the Year” and will be celebrated at our Spring Gala on Saturday, March 19th. The Gala is without fail the must-attend event of the Coney Island social calendar and dedicating it to Fred was a no-brainer.
I am writing on behalf of everyone at CIUSA to invite you to join in this celebration of Fred’s life and achievements. There are two easy (and not mutually exclusive) ways to get involved:
- Attend the Gala in Coney Island on March 19th. Tickets are available now (and a great bar- gain). Show your love to Fred in person! You can learn more by visiting: http://www.coneyisland.com/gala
- Let Fred know how much you care about him by putting a customized notice in the commem- orative Journal. The Journal is distributed to all Gala attendees and becomes a keepsake. Get your message about Fred in there: http://www.coneyisland.com/gala-journal
I do hope to see you at the Gala, to read your message in the Journal and to share your joy in the year of the Fred.
Friend of Fred
Coney Island USA Board Member
I spent much of 2015 taking a year long flexible fellowship at Wheaton Arts’ Creative Glass Center of America developing ways to cast glass from computer generated sculptural forms and wanted to take some time to share these learnings. I worked extensively with glass many years ago but now create most of my art with 3D scanning and printing. The Wheaton Arts’ fellowship was a unique opportunity to bring these two practices back together.
My work in the last few years has used a combination of 3D modeling techniques. I usually begin with 3D scanning, primarily structured light scanning with Primesense/Kinect style devices and occasionally photogrammetry for non human subjects. Other non-organic forms are just modeled directly in the computer using my software of choice Zbrush. Next I will digitally manipulate and sculpt the 3D scans in the computer. Finally the work is output as a 3D print. My investigations this year took these techniques further, so that these digital sculpts were then realized as cast glass forms. I tried a few variations of lost PLA casting, as well as CNC milling graphite to make reusable molds. Enjoy.
Lost PLA Kiln Casting
The first technique I chose to explore is what people are calling “Lost PLA”, basically an evolution of the traditional lost wax kiln casting technique. Starting with a 3D printed positive of the form I want to cast in glass, I created a plaster/silica mold around my 3D print.
The actual recipe for the mold by weight was:
- 16 parts water
- 6 parts Hydroperm
- 6 parts Plaster
- 6 parts Silica (or olivine sand)
- 1 cup 3/4″ fiberglass strand
This could be done with just a 50/50% plaster-silica mix, but as I understand it the Hydroperm foams and creates air pockets in the molds to make them lighter. The fiberglass strand helps strengthen the mold and helps wick out the moisture so the molds dry more efficiently.
I began by plugging any holes in the surface of the 3D prints with microcrystalline wax and waxing the prints down to a table. I then just cut strips of tar paper and hot glued them down to form a wall around the print, leaving room for about 3″ of mold thickness. I mixed a small initial coat of mix with no fiberglass strand to use as a splash coat over the object, then mixed subsequent buckets of mix to fill the molds completely. After the mold was filled, I let it set before tipping the molds on their sides to dry (having fans helped this).
After a minimum of one day drying (and preferably more like a week), the molds were ready to be loaded into the ovens. The PLA was still on the inside and needed to be melted out. With lost wax casting, the general practice is to steam the wax out of a mold. I tried this with the 3D printed PLA and barely got it to move at all. Steaming out PLA is not an option so it has to be burned out in an oven.
Even though PLA is a biodegradable corn starch, the burnout is smoky and not good to be around so it had to be timed to happen overnight when the studio was empty. I would begin by soaking the oven at 300˚ for about three hours and then pushing it upwards at about 100˚/hour. At about 450˚ I would go in (wearing gloves, glasses and a respirator) and use pliers to pull out some big chunks of plastic as it started melting. I had to be careful not to damage the mold in doing so. At about 700˚, I would go in with a stainless steel turkey baster and suck out as much molten plastic as possible. The oven would then go to 1000˚ for an hour and be fully burned out. Because burn out in an oven is pretty nasty smelling at its peak and I can’t really recommend it as a best practice. However, I just became aware of Moldlay– a 3D printing filament designed for lost wax casting. It’s expensive but I would like to check it out.
From there I tried two basic approaches to casting into the plaster molds. The first technique involved putting molten glass from a furnace directly into the molds. The second involved cooling the molds back down, packing them with chunks of crystal glass, then firing them to melting point. Each techniques has its strengths and weaknesses.
Lost PLA Kiln Casting Technique 1- “Hot Glass Lacrosse Casting”
Since buying crystal to kiln cast with is very expensive, I was trying to be more cost effective by using the readily available furnace glass to cast with. Basically, after the mold was burned out I would soak it at 1000˚ for several hours to burn out any chemical water, and then we would ladle glass directly into the molds. I found that even after I soaked the molds 10-12 hours at 1000˚, the chemical water in the plaster would still cause the glass to bubble up as we poured the glass in. We then resorted to a technique we called Lacrosse Casting. I would gather a ladle of glass, then dump the ladle into a second ladle someone else was holding. They would rock the ladle side to side so that the molten glass skinned up on the outside a little. They would then dump that back into my ladle and I would go to the oven and gingerly drop this “hot tamale” of glass into the mold. The center of the glass was still quite hot but the skinned up exterior was less likely to bubble. Unfortunately the molds are quite fragile and this can cause damage if there are a lot of delicate details to the mold. After the mold was filled, the oven would be sent up to about 1500-1600˚ to make the flatten out and flow into the mold. As soon as the glass flattened, the oven was crashed back down to under 1000˚ and an annealing cycle began.
Issues with this technique
- This process takes a lot of time! I was casting forms that took 2+ days to print, then there was mold making, casting and annealing.
- The plaster molds are extremely fragile and can easily be damaged by the glass as it is dropped in the mold. This results with imperfect castings that often have bits of plaster encased in the glass.
- If the ladles are not very clean, the glass will often have veiling from the ladle surface. Bubbles are also often introduced resulting in a very bubbly glass. In my case I liked the underwater look this gave.
- Devitrification is a crystalizing of glass that happens at approximately 1200 degrees, making the surface of the glass fog up. Soda lime glass (Spruce Pine batch) is particularly vulnerable to this. In my case, if there was not enough radiant heat above the top of the mold and it took too long for the oven to heat up for the glass to level out in the mold, the surface would fog up.
Sample Castings (Unfinished work)
Lost PLA Kiln Casting Technique 2- Kiln Casting
The issues with molds being damaged by hot glass and devitrification lead me to acquire some crystal to kiln cast with. Casting crystal is expensive and usually formulated to not devitrify so in general this technique delivers more optically pure castings. I tried two glass formulas for kiln casting; Uroboros Glass’ system 96 and Schott optical crystal.
After the mold is burned out, I would let the oven slowly return to room temperature so I could carefully vacuum it out and pack it with chunks of glass (My glass came in large tiles so I cleaned the surface with alcohol and then used a torch to shatter them.
The small chunks could then be loaded in the mold, and the oven slowly brought back up to about 1550˚ until they melted in completely and the worst of the bubbles came to the surface. At that point the oven was crashed back down to under 1000˚ and the glass is annealed (slowly brought to room temperature).
- This technique definitely yielded the best casting results for Lost PLA
- More expensive- both in the time consuming process, oven time and most significantly the cost of the casting crystal
- Devitrification can still be an issue, depending upon the glass used
- The final casting still requires extensive grinding, polishing and finishing work
Hot Glass Casting into CNC milled graphite molds
I quickly realized that the lost PLA technique was time consuming and disconnected from all the excitement and spontaneity that I associate with hot glass work. Lost PLA castings also required extensive work divesting from the mold, then grinding and polishing. I had long wanted to experiment with CNC carving as opposed to 3D printing, and set out to experiment with milling graphite to create reusable molds as a more cost effective approach for casting glass with.
I decided to purchase the Inventables XCarve because it is an open source CNC machine, and I wanted to support Inventables great work in making CNC software more user friendly. I opted for the 1000mm version with the heavy duty Nema 23 motors and Dewalt 611 spindle which has enough power to even mill aluminum. I had a lot of trepidation about building a kit as some of the 3D printer kits I had built in the past were not well documented, but Inventables documentation was excellent and it worked pretty well right off the bat. A few support calls and posts on the message boards got me through the few small hiccoughs that I did encounter.
However, I was concerned about milling graphite as the dust is electrically conductive. If that dust got all over as I was using the machine, not only would it make a mess, it could also fry the Xcarve Arduino controller, and even the laptop driving the setup. I had no choice but to rig up a robust dust collection system. I ended up buying a dust shoe from KentCNC to mount around the spindle (Yes, I could have made my own but was running out of time at Wheaton by then). This then attached to a Dust Deputy cyclonic dust collector and a shop vacuum. The result was a powerful dust collection system that captures nearly all the graphite coming off the spindle as it cuts, and 95% of it ends up in my new favorite tool, the Dust Deputy.
Coming out of the last year of experiments, I’m most excited about this process as it has a lot of potential for small run computer designed glass objects and custom tiles for architectural use. There are some design restrictions in that molds cannot have undercuts and the Xcarve can only cut about 2 1/2″ at the deepest, but because these molds can be quickly and comparatively cheaply generated and used to create cost effective editions, I think this approach has a lot of promise. I look forward to continuing to experiment with these techniques as I share them with my class this June at the Pilchuck Glass School.
I’m please to announce that I will be teaching a class at the Pilchuck Glass School in June of 2016. The class will cover a lot of the digital to physical techniques that I have been working with over the last few years, particularly this past year with my fellowship at Wheaton Arts Creative GLass Center of America (Stay tuned, I will be publishing my finding soon).
The intensive 3 week class will take place in June of 2016. Pilchuck’s session 2 this year has a theme of Play, and we certainly will be playing with ways of bringing the 21st century to glassmaking’s 19th century traditions.
May 31- June 17
3-D Modeling & Printing, Lost PLA, CNC, Kilncasting, Hot Casting
Digital sculpting and 3-D printing tools allow artists to visualize prototypes, manipulate scale, and replicate with precision. This course will introduce an assortment of tools including Zbrush (an organic sculpting software), 3-D printers, and 3-D scanning methods of photogrammetry and structured light. Students will learn to scan, manipulate, and print objects and ultimately kilncast and hot cast them in glass. This class is for glass artists who wish to explore digital fabrication and 3-D artists who wish to explore glass.
The class will cover:
- 3D Modeling with Zbrush
- 3D Scanning with structured light and photogrammetry
- 3D Printing
- Glass kiln casting with lost PLA
- CNC milling of graphite molds for hot glass casting
It’s going to be an awesome class and I’m looking for two teaching assistants. Applications for TA’s are due February 3. I would like to find one TA who is well versed in 3D modeling and 3D printing (its a + is you own or have built a 3D Printer), and another who is familiar with glass kiln casting. Please help spread the word!