I will give a short explanation of how I designed and built this RoboPlanter. Four Spider Legs: with articulation, to give the full "action figure" treatment to this planter.Besides, the Upper Body can be fitted and locked on this body. Lower Body: collects the water excess, so you can keep your desk clean.It has four holes to eliminate water excess, and a plasma weapon on each side. Upper Body: pot reserved for the plant (small cactus or succulent).I love diabolic four-legged techno-abominations (why nobody has released any action figure of the Spider Mastermind from the classic "Doom" game?), so I decided to give that personality to my first 3D Printed Planter. And if well I'm learning Fusion 360 (and I'm still crying for the death of 123D Design, my first CAD software), nothing like the simplicity and friendliness of Tinkercad! Nothing like grabbing a bunch of trash and transforming it into a planter with personality! Nevertheless, I had cravings to create a 3D printed one. Usually my favorite building material is plastic trash and junk. Probably some of you remember my classic "RoboPlanters" (like this, this, this, this and this). Model printed at about six times life-size.Hello. Model printed at about twice life-size.Ī printout of the cranial endocast of the specimen shown on the left. 3D printouts of digital infillings of these cavities based on CT data thus provide a non-destructive means to study the shape of the brain.Ī 3D printout of Monodelphis domestica, the gray short-tailed opossum. The shape of the endocast of the cranial cavity of many animals, especially mammals and birds, closely conforms to the shape of the brain. The 3d printout on the left was used to make a mold, from which bronze casts like this one were made.Ĭasts of the interior cavities of objects, called endocasts, can also be printed as 3D models. The holes between the eyes would be underneath the frontal shield of the bill. See here section 2, figure 6.1 or any other image of a platypus so you can see that the nostrils are in that gap. Model printed about three times life-size. The two holes between the eyes are a section of the skull where the bone is very thin so its likely a replicas defect. Molds can be created from 3D printouts instead of the actual specimens, reducing the possibility of damage.Ī 3D printout of Lanthanotus borneensis, the earless "monitor" lizard from Borneo. The foot bone's position in the egg is indicated by the arrow.ģD printouts can be useful when casting delicate or rare specimens. Amy Balanoff, a former paleontology graduate student at The University of Texas, removes a model from the 3D printer.Ī life-sized printout of the bottom of the elephant bird egg containing the embryonic remains, along with a scaled-up printout of an isolated foot bone. This technique allowed her to study the skeleton without having to crack the egg.ĭr. Using CT scan data, Amy digitally isolated each element of the skeleton, then rendered them as both life-sized and enlarged 3D physical models. Amy was working on reconstructing and describing the embryo of an extinct elephant bird still encased in its egg. Amy Balanoff, a former paleontology graduate student in The University of Texas Department of Geological Sciences. Click here for a list of DigiMorph taxa for which printable STL files can be downloaded.Īmong those who have used this resource is Dr. As this new technology becomes more common, this will allow researchers and students improved access to rare and unique specimens. The STL data files used to generate these 3D printouts can be distributed over the internet, giving anyone who has a 3D printer the data necessary to generate models. Casts of internal features normally hidden from external view - such as the cranial cavity and inner ear canals and labyrinths - can also be printed, presenting unique objects for study and research. This technology not only lets us make casts of the many rare specimens that we scan, but also allows us to scale these models up or down - so that detailed features on a tiny specimen can be rendered large enough to be seen without the aid of a microscope. The rapid prototyping printer uses a thermoplastic material, deposited layer-by-layer by an inkjet-like printer head, to carefully build a model. Fossil Monotreme Tooth Beside A Platypus Skull Framed Print. The University of Texas High-Resolution X-ray CT Facility is able to print its scans as 3D models! Using our 3D Systems ThermoJet solid object printer, we can transform 3D renderings based on our digital CT data into physical objects. The watermark in the lower right corner of the image will not.
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