View allAll Photos Tagged 3DP
File name: 06_11_000016
Title: Trinity Church, Boston
Alternative title:
Creator/Contributor: Folsom, Augustine H. (photographer)
Created/Published:
Date issued: 1850 - 1929 (approximate)
Date created:
Physical description: 1 photographic print on stereo card : stereograph
Genre: Stereographs; Photographic prints
Subjects: Trinity Church (Boston, Mass.); Churches; Back Bay (Boston, Mass.)
Notes: Title from handwritten text on verso.
Series:
Location: Boston Public Library, Print Department
Rights: Rights status not evaluated
English
3D model of a reindeer 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Download the 3D model from:
www.thingiverse.com/thing:5352
Swedish
3D-modell av ett rendjur 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Whatch the video on Youtube:
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
L4.72W2.53H1.87M700 • Cₓ1.1 • 1.4MW, 8,834Nm, 12kHz, η>99%
18kg Li₂O₂ EVB, 40MJ/kg, 720MJ • 340kph • 0-100kph→1.8s, 1.5g₀
HH RIPSAW ⚡AV3F1 is the fastest and most maneuverable dual tracked ÆAV ever developed, with MC G-CNT STANAG 4569L6 NBC hull, forged β-Ti ERC, 2 × 2.8 × 0.4 m² CP, 406 mm ST, 528 mm AGC, Li-Fi, DBWL, TVS, TVPJ. Compared to analogous GP systems, CTT distributes vehicle's forces on a greater ground area, with enhanced handlings on harsh, steep slopes, better flotation over obstacles, lower rolling resistance, greater traction and acceleration, reducing soil compression and compaction without sinking on loose & impervious terrain even at low speed. Wheeled vehicles require much larger overall size and higher levels of mechanical complexity to achieve comparable cross-country mobility (e.g. G6).
REFERENCES
E.G.F. Regina 2025: X4æ specs & layout.
M. Guiggiani 2022: Vehicle dynamics science.
T. Li 2022: Vehicle/tire/road dynamics.
J.M. Jafferson & H. Sharma 2021: 3DP airless tires.
S. Arora & al. 2021: Heavy duty e-vehicles.
D. Venter 2020: ZA AFVs, pp. 38-44.
T. Yildiz 2019: Carbon fiber shipping container design.
W. Zhu & al. 2019: Ti-5Al-4Zr-8Mo-7V βc-Ti.
N. Pugh 2019: AdAstra 2 rover.
A. Walker 2018: DARPA GXV-T final demonstrations.
B. Maclaurin 2018: High speed off-road vehicles.
P. Nilsson 2018: TO of swing arm for CTTV.
C.C. Tutum & al. 2018: FGD & AM.
G. Palmer 2017: RSI Ursa rover 2945.
N. Aage & al. 2017: GVCMG for structural design.
R. McCallen & al. 2016: Heavy vehicle aerodynamics I-III.
A.M. Nawrat 2014: Tracked vehicle innovative control systems.
G. Mastinu & M. Plöchl 2014: Road & OTR vehicle dynamics.
A.L. Gain & al. 2013: TO using polytopes.
Ü. Özgüner & al. 2011: Autonomous ground vehicles.
A.F. Andreev & al. 2010: Ground vehicle driveline systems.
J.Y. Wong 2009: Terramechanics & off-road vehicle engineering.
V. Asnani & al. 2009: Lunar roving vehicle wheels.
T. Muro & J. O'Brien 2004: Terramechanics.
A.B. Pandey 2001: ASMHB, v. 21, pp. 395-404.
B. DeLong 2000: 4-wheel freedom.
S. Laughery & al. 2000: Vehicle mobility & Bekker's equations.
D. Cebon 1999: Vehicle-road interaction.
J.P. Kelche & al. 1997: FINABEL 20A5 runflat tires.
C.Q. Bowles 1997: ASMHB, v. 19, pp. 32-35.
G.W. Kuhlman 1996: ASMHB, v. 14, pp. 588-627.
S. Laughery & al. 1990: Bekker's terramechanics off-road vehicle model.
M.C. Bell 1987: G6-45 rhino 1981 blueprint 1/76 scale.
M.G. Bekker 1960: OTR locomotion.
M.G. Bekker 1957: OTR locomotion latest developments.
M.G. Bekker 1956: Land locomotion theory.
6DoF · ACOA · AM-SL · CBRN · GA · FGD · OSA · XFEM-TO · TSP · ISO668 · twistlock · runflat tire · HML · NASA SEV · HAS
Matthew Fiedler of re:3D stops in to calibrate The Studio for Critical Making's Gigabot large format 3D printer on March 21st 2016.
I couldn't resist dressing this girl up for a quick photo and a little play with Picmonkey and Gimp (pushpins from picmonkey and cloning-out the pin parts in Gimp) to give her some juggling balls.
She's wearing a barbie top, Karolyn Felix panteloons and a makielab daisy clip.
Angers (Maine-et-Loire)
Le Palais épiscopal ou Palais du Tau (côté cathédrale).
Il est adjacent à la cathédrale Saint-Maurice.
Un palais à cet endroit est attesté depuis le IXe siècle. Au XIIe siècle l'évêque Ulger fait entièrement reconstruire l'édifice en s'inspirant du Palais du Tau de Reims qu'il avait découvert lors du concile de Reims en octobre 1131. Concile qui verra l'excommunication de l'antipape Anaclet II* par Innocent II**, et l'interdiction des tournois.
Ulger reprend pour sa résidence la disposition en T qu'il avait vu à Reims, d'où l'appellation "Palais du Tau".
En 1438, l'évêque Hardouin de Bueil modifie les toitures et aménage une vaste salle qui sert actuellement de bibliothèque.
En 1506, l'évêque François de Rohan fait construire l'escalier principal qui donne sur la cour d'honneur. Ses successeurs Claude de Rueil, Michel Lepeletier et Jean de Vaugirault , feront des aménagements aux XVIIe et XVIIIe siècles.
L'ensemble sera restauré au XIXe siècle, sous l’épiscopat de Mgrs Angebault et Freppel, avec l'intervention de l'architecte diocésain Charles Joly-Leterme, qui crée une seconde cour d’entrée, une aile neuve et qui termine l'escalier d'honneur.
* En 1130, le cardinal Pierleoni fut élu pape sous le nom d'Anacletus II, tandis que le contre-parti choisit Innocent II. La famille romaine Pierleoni était d'origine juive. La famille devint catholique par la conversion d'un banquier juif de Rome qui fut baptisé dans la première moitié du XIe siècle. Le banquier pris le nom de Benedictus Christianus et épousa la fille d'un noble romain. Leur fils Leo, un des plus puissant magnat de la ville prit le parti papal. Lui même eut un fils Petrus Leonis, d'où la famille tire son nom.
** Innocent II était attaché à la grande famille des Frangipani, opposée a la famille des Pierleoni.
Quand le pape Honorius II meurt, en février 1130, le cardinal Aymeric, partisan des Frangipani réunit une commission composée d'une minorité de proches des Pierleoni qui élit Gregorio Papareschi pape sous le nom d'nnocent II. Quelques heures plus tard, les cardinaux de la faction Pierleoni, majoritaires, élisent Pierre Pierleone, qui prend le nom d'Anaclet II. C'est le schisme.
archive.wikiwix.com/cache/index2.php?url=http%3A%2F%2Fwww...
This video shows how the Ultimaker 2 3D printer using the Cura slicing software, 3D-prints eight #3DBenchy boats in sequence. One at a time!
To learn more about the Ultimaker 3D printer and 3D printing, please visit Ultimaker.CreativeTools.se
#Ultimaker #Ultimaker2 #Cura #Sequentially #3Dprinter #3Dprint #3Dprinting #3Dskrivare #3DP
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
English
3D model of a puzzle 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Swedish
3D-modell av ett pussel 3D-utskrivet på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
www.thingiverse.com/thing:110411
This is my first iteration of a 3D printed book. I have been meaning to work on this idea for a while - and with a new perspective on the summer - i have been able to find the time to develop it.
I have been thinking for some time how it would be nice to produce a book of textures and reliefs. To publish and distribute all the wonderful architectural patterning and decoration we enjoy here in Chicago and beyond.
The impetus for this project was a call for submissions from the Center for Book and Paper here in Chicago at Columbia College. The exhibition calls for both "print on demand" and "photographic" books. This "publication" is my response.
I think that - for now - the accordion style format is the most realistic. Although i would love to do some kind of traditionally bound book format - as a 3d printed object.
I also was wary of printing the whole thing in one go - it would easily have been a 80 - 100 hour print - and a lot could go wrong in that time span. After some experimentation with other connectors I prototyped a modular hinge and a modular surface that could be joined together with tbusers pins.
I chose six 3d scans scans from Thingiverse, three of my own and one each from Jason Bakutis / The Met, Pretty Small Things and AMinimal Studio. The scans - to my knowledge were (probably) all created with 123d Catch or another photogrammetry application.
The "front cover" explains how these reliefs were created, and has the Creative Commons License for the work. The "back cover" is a list of works. These two elements were created in Illustrator saved out as svg files, imported into tinkercad and extruded / booleaed with a Modular Surfaces.
This piece is very much a prototype. I am very happy with the Modular Hinge - and the Modular Surface - tbusers pins work wonderfully - i plan to use this combo on other art pieces soon. I am also interested about possibly stacking more of these to create columns, or making attachments to fix to a wall and make relief systems from them. The pages do not stack perfectly, i would rearrange the order perhaps as follows:
olmec, 2. boddhistiva, 3. mayan head, 4. lion, 5. emperor, 6. ogre
but as i had already made the list of works and i'm short on time this is what it is. also i think some kind of separator between the pages would have been good too.
To check out more of my artworks please visit: tomburtonwood.com
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The 3D model: www.thingiverse.com/thing:65922
The 3D printer: bit.ly/1k85rGX
For more information creative-tools.com
English
3D model of a gingerbread house 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Download the 3D model from:
www.thingiverse.com/thing:5354
Swedish
3D-modell av ett pepparkakshus 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Whatch the video on Youtube:
kube_3dp sells these oversized, 3D-printed minifigures. I got this one of Galactus. Its pretty cool. Fun to put together and, while I normally don't like 3D-printed parts, this is different. There's no hiding its 3D-printed, but it's a well done piece for those wanting a big Galactus fig in their collection.
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
Additive manufacturing (AM) is defined by ASTM as the 'process of joining materials to make objects, usually layer by layer, from 3D CAD data'. Additive processes include Selective Laser Melting (SLM), Laser Metal Deposition (LMD), Stereolithography, Fused Deposition Modelling (FDM) and 3D Inkjet Printing (3DP). Each technology is often distinguished by the raw materials used (including powder, wire, photosensitive liquid resins, thermoplastic filament, printing inks) or by the method of consolidation (including laser heating and melting, photo polymerisation, conduction heating, chemical reaction).
For more information www.twi.co.uk/technologies/welding-coating-and-material-p...
If you wish to use this image each use should be accompanied by the credit line and notice, "Courtesy of TWI Ltd".
N Scale Railway Models L to R;
0 Series Shinkansen (220kph) - 250+ sets
100 Series Shinkansen (220kph) - 66 sets [pix in Pt.47]
200 Series Shinkansen (240kph) - 66 sets
300 Series Shinkansen (270kph) - 69 sets
400 Series Shinkansen (240kph) - 12 sets [pix elsewhere]
E2 Series Shinkansen (502 built, 275kph) - 53 sets
E3-2000 Series Tsubasa (275kph) - 41 sets [pix in PT.56]
E5 Hayabusa Series Shinkansen (320kph) - 23 sets
E6 Akita Series Shinkansen (320kph) - 24 sets [pix in Pt.1]
E7/W7 Series Shinkansen (275kph) - E7 32 / W7 - 11 sets
500 Series Shinkansen (9 built, 300kph) - 9 sets
N700-8000 Series Shinkansen (300kph) - 11 sets
N700-2000 Series Shinkansen (300kph) - 81 sets
800 Series Shinkansen (260kph) - 9 sets [pix in Pt.55]
923 Shinkansen Test Train (270kph) - 2 sets [pix in PT.54]
E1 Max Series Shinkansen (240kph) - 6 sets
KiHa 80 Series Limited Express DMU (100kph) [pix PT.2]
KiHa 81 Series DMU (100kph) [pix PT.8]
KiYa 191 Series Electrical Inspection 2 Car EMU [pix in PT.52]
14-700 Series Salon Express Tokyo [pix PT.11]
KRC 485 Series Red Express (140kph)
E351 Super Azusa (130kph) - 10 sets
E259 Narita Express (130kph) - 22 sets
285-0 Series 'Sunrise Express' (130kph) - 5 sets [Pix in PT.57]
485-1000 Series Limited Express EMU (140kph) [pix PT.2]
All my N Scale Albums here; www.flickr.com/photos/lox-pix/collections/72157714004016606/
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
English
3D model of a 3D character Terminator 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Swedish
3D-modell av en 3D-karaktär 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Additive manufacturing (AM) is defined by ASTM as the 'process of joining materials to make objects, usually layer by layer, from 3D CAD data'. Additive processes include Selective Laser Melting (SLM), Laser Metal Deposition (LMD), Stereolithography, Fused Deposition Modelling (FDM) and 3D Inkjet Printing (3DP). Each technology is often distinguished by the raw materials used (including powder, wire, photosensitive liquid resins, thermoplastic filament, printing inks) or by the method of consolidation (including laser heating and melting, photo polymerisation, conduction heating, chemical reaction).
AM is seemingly opposite to subtractive manufacturing approaches that remove material to form the shape of a work piece. The traditional metal removal processes such as milling, turning, grinding, electrical discharge machining (EDM), fall into this category.
For more information www.twi.co.uk/technologies/welding-coating-and-material-p...
If you wish to use this image each use should be accompanied by the credit line and notice, "Courtesy of TWI Ltd".