Rapid Prototype Zone

Archive for the ‘SLA Rapid Prototype’ Category

ABS PLASTIC MOTORCYCLE ENGINE. THIS ENGINE WAS REVERSED 3-D ENGINEERED AND THEN SENT TO OUR RAPID PROTOTYPE MACHINE.
GEARLES.COM

Duration : 0:0:17

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Tags: 3d, ABS, Engine, ENGINEERED, GEARLES, MOTORCYCLE, Plastic, prototype, rapid, REVERSE

This work was carried out for my Master Thesis in Rapid Prototyping at University Of Wollongong (Manufacturing Research Laboratory). The cross-section being created using GMAW robot is that of a crankcase.
I thank Dr Devi Saini, Dr John Norrish, Dr Alexander Nicholson and Diego for their kind support. I also thank my family for the encouragement that I have received all my life.

Duration : 0:1:15

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Tags: GMAW, prototyping, rapid, robot, UOW

This is version #2
I used a new camcorder instead of a webcam.

If you look closely you can actually see it start the next layer of material!

A time lapse of this video sped up 4 times can be found here:

http://www.youtube.com/watch?v=XFaDNAE25bA

I hope you enjoyed this video.

PLEASE COMMENT, RATE, AND SUBSCRIBE!

www.printo3d.com

A time lapse version can be found here:

Duration : 0:9:57

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Tags: 3d, before, CAD, cup, deposition, eyes, fdm, fused, machine, modeling, models, print, printer, prototype, prototyping, rapid, right, your

Here is a great example of what a Sherline 5400 CNC machine can do with Mach 3 CNC controller software. More Videos on My website http://www.globalglover.com

Duration : 0:1:53

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Tags: 3d, Central, CNC, Mach3, prototyping, rapid, Rashad_Glover, Sherline, State, University

Rapid Prototyping Right Before Your Eyes is presented by Print To 3D.

Please comment, subscribe, and rate!

www.printo3d.com

This 3D printer is a Dimension 768 BST.

The cup is 1 inch tall and 1/2 inch in diameter. The base or floor of the cup is 40 thousands of an inch thick as are the sidewalls of the cup. The stem of the cup is 100 thousands of an inch in diameter.

This machine uses Fused Deposition Modeling or FDM for short.

The machine is basically a large hot glue gun!

Duration : 0:9:18

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Tags: 3d, CAD, cup, deposition, fused, machine, modeling, models, print, printer, prototype, prototyping, rapid, right

This is a 3-part series.

Part 1: http://www.youtube.com/watch?v=nSgha8qjB3E
Part 2: http://www.youtube.com/watch?v=UOhN_rzwi80
Part 3: http://www.youtube.com/watch?v=XLat-YqMUV4

StickOS is an MCU-resident rapid prototyping and education environment for highly integrated MCUs. It makes the internal MCU functionality trivially available to a large class of users who don’t otherwise want to become MCU experts. Literally in minutes, hobbyists, researchers, and students can have useful embedded systems up and running, taking advantage of all of the MCU integrated peripheral functionality, as well as Zigbee wireless functionality, without ever understanding traditional MCU I/O registers or software development environments.

StickOS is flashed onto the MCU once, and from then on the user can control the MCU thru a USB, Ethernet, or Zigbee interface using just a terminal emulator. Internal to the MCU is an entire resident StickOS BASIC programming environment (including an easy-to-use editor, compiler, flasher, and debugger), where external pins are mapped to special “pin variables” for manipulation or examination, and internal peripherals are managed by BASIC control statements and interrupt handlers.

When coupled with an MC1320x Zigbee wireless transport, the MCU may be remotely controlled through another MCU, via a telnet/rlogin-like interface, eliminating the need for a direct USB or Ethernet connection to the host computer. Additionally, BASIC programs can access variables remotely from other MCUs, enabling the use of “remote pin variables” or other forms of inter-MCU communication.

StickOS binaries, sample applications (including wireless ones), as well as full documentation and a skeleton source code project for easily porting finished BASIC programs to C, are available from http://www.cpustick.com

Duration : 0:9:21

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Tags: badge board, cpustick, embedded system, freescale, MCU, microchip, StickOS, zigbee

Rapid prototyping for healthcare

Biomedical metallic implants are now commonplace for the replacement of diseased or missing bone and for the fixturing of bone after trauma. Despite their widespread use, these technologies have a number of limitations such as a high elastic modulus and non-optimised design. These limitations ultimately reduce the clinical effectiveness and life-span of the device, which, for treatment of juveniles and young adults, may result in the need for multiple clinical interventions during their lifetime.

There is a real need in the healthcare sector for technologies that can deliver implantable devices that offer a higher level of functionality than is currently available. In particular, their ability to actively stimulate and encourage tissue growth, both after implantation, and during their lifetime; to actively respond of the surrounding tissue and to self-repair the damage, and the ability to be able to tailor these devices to each patients requirements is critical in providing a step change in the quality of patient treatment.

The provision of advanced implant technologies will benefit the patient through improved quality of care, and will benefit society as a whole through the reduced cost of treatment and a reduced burden on the health service.

A solution to achieving customisation and tailorability is the use of Rapid Prototyping (RP) technologies. These enable the digital manufacture of components directly from the design data in a layer-wise fashion. The medical industry represents one of the largest potential users of this technology, with a very wide range of applications, including the manufacture of surgical tools, custom jigs and fixtures and internal and external implants and scaffolds.

Design data may be taken directly from the patient CT or MRI scans and used to process customised, patient-specific fixtures and implants. Until recently, RP has been widely used in the medical sector for the visualisation of defects (tumors, bone trauma etc) and for the planning of operations.

The manufacture of hard customised metallic implants has previously been supported by RP through provision of master patterns for rapid casting processes. More recently though, a new generation of Rapid Manufacturing (RM) technologies have emerged that are capable of direct layer-wise manufacture of customised hard implants.

WMG is actively investigating the direct manufacture of biomedical implants using the Arcam Electron Beam Melting (EBM) RM process, with an emphasis on the free-form manufacture of implants in novel active materials such as shape memory alloy and magnesium-rare earth alloys.

Duration : 0:4:2

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Tags: digital, international, lab, of, University, warwick, wmg

Watch more @ http://www.sme.org/metv

Duration : 0:1:17

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Tags: Applications, Biomet, Hopkins, Johns, Medical, prototyping, rapid

http://www.PrototypeZone.com
Here we cover the membership area of Prototype Zone. You can see your Rapid Prototype profile, your prototype forum posts, etc. See what you get as a free member.
Come join the free Rapid Prototyping Community today.

Duration : 0:6:9

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Tags: prototype, prototyping, Video, videos

For about two years I produced Weekend Projects, a series I created that kept me making something and making a video about it every week.

In one of my favorite videos, my friend Allison and I rapid prototyped a turkey for Thanksgiving. I revisited this video recently as I’m getting back into 3D modeling and using blender and pepakura 2.0 just came out.

Duration : 0:7:4

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Tags: 3d, Allison, blender, bre, kudla, pepakura, pettis, prototyping, rapid, thanksgiving

This is the Fused Deposition Modeling (FDM) build of a small cup 4 times faster than normal. It really takes about 9 minutes to print.

The full unaltered version is here:

http://www.youtube.com/watch?v=OSJ12_sETlg

www.printo3d.com

Duration : 0:2:42

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Tags: 3d, before, CAD, cup, deposition, eyes, fdm, fused, machine, modeling, models, print, printer, prototype, prototyping, rapid, right, your

The full video is here:

Part 1: http://www.youtube.com/watch?v=nSgha8qjB3E
Part 2: http://www.youtube.com/watch?v=UOhN_rzwi80
Part 3: http://www.youtube.com/watch?v=XLat-YqMUV4

StickOS is an MCU-resident rapid prototyping and education environment for highly integrated MCUs. It makes the internal MCU functionality trivially available to a large class of users who don’t otherwise want to become MCU experts. Literally in minutes, hobbyists, researchers, and students can have useful embedded systems up and running, taking advantage of all of the MCU integrated peripheral functionality, as well as Zigbee wireless functionality, without ever understanding traditional MCU I/O registers or software development environments.

StickOS is flashed onto the MCU once, and from then on the user can control the MCU thru a USB, Ethernet, or Zigbee interface using just a terminal emulator. Internal to the MCU is an entire resident StickOS BASIC programming environment (including an easy-to-use editor, compiler, flasher, and debugger), where external pins are mapped to special “pin variables” for manipulation or examination, and internal peripherals are managed by BASIC control statements and interrupt handlers.

When coupled with an MC1320x Zigbee wireless transport, the MCU may be remotely controlled through another MCU, via a telnet/rlogin-like interface, eliminating the need for a direct USB or Ethernet connection to the host computer. Additionally, BASIC programs can access variables remotely from other MCUs, enabling the use of “remote pin variables” or other forms of inter-MCU communication.

StickOS binaries, sample applications (including wireless ones), as well as full documentation and a skeleton source code project for easily porting finished BASIC programs to C, are available from http://www.cpustick.com

Duration : 0:4:59

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Tags: badge board, cpustick, embedded system, freescale, MCU, microchip, StickOS, zigbee

Hear from one of the industry’s leading innovators, Bert Kenyon. At Tangible Express, a global rapid-fabrication provider, Bert is showing companies large and small how to benefit from 3D printing and its offshoots.

Duration : 0:9:21

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Tags: Bert, Express, kenyon, low-volume, manufacturing, prototyping, rapid, Tangible, tooling

Rapid Prototyping video, sla, SLS Rapid Prototypes

Duration : 0:1:21

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Tags: casting, computer, electronics, medicine, prototyping, rapid, sla, sls, vacuum, Video

Rapid Prototyping provides assistance to speed the development of new components. As soon as such components have been designed on a CAD system, computer-guided machines can use laser sintering or 3D printing technology to create scale models from resin, plastic powder, acrylic, wax or metal.

Duration : 0:1:6

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Tags: BMW, BMW Sauber F1 Team, F1, factory, Formula, Hinwil, insights, One, prototyping, Rampf, rapid, rapid prototyping, Sauber, Team, Willy, Willy Rampf

Rapid Prototyping and User Testing using Drupal Prototyping Framework by Jeff Noyes

Prototype with no need to know Drupal!

The official description and resources are at http://boston.design4drupal.org/session/rapid-prototyping-and-user-testing-using-drupal-prototyping-framework

Duration : 0:36:5

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Tags: design4drupal, Drupal, ui

This is version #2
I used a new camcorder instead of a webcam.

If you look closely you can actually see it start the next layer of material!

A time lapse of this video sped up 4 times can be found here:

http://www.youtube.com/watch?v=G99lE_8Kqp0

I hope you enjoyed this video.

PLEASE COMMENT, RATE, AND SUBSCRIBE!

www.printo3d.com

Duration : 0:9:58

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Tags: 3d, before, CAD, cup, deposition, eyes, fdm, fused, machine, model, modeling, print, printer, prototype, prototyping, rapid, your

Google Tech Talks
March, 24 2008

ABSTRACT

Yang Li – RESEARCH SCIENTIST

Pervasive or ubiquitous computing (ubicomp) applications can support people’s everyday activities in the physical world by leveraging advances in sensor technologies and computing infrastructures. Designing ubicomp applications is challenging because our everyday activities are more complex, dynamic and less structured than the tasks supported by traditional desktop computing. Ubicomp design is difficult, time-consuming, and requires a high level of technical expertise, especially with sensor technologies. To address this, I created a set of rapid prototyping tools and frameworks. My early work with Topiary introduces high-level abstractions, such as maps and scenarios, for designers to easily model location contexts and specify location-based behaviors. Topiary also allows a design to be tested in the field via a Wizard of Oz approach, without deploying a location sensor infrastructure. My recent work is focused on activity-based ubicomp prototyping, a process for enabling long-term activities (such as keeping fit)—a larger unit for design than the tasks that are the focus of traditional design. To support such a process, I created ActivityDesigner, a system that allows designers to create functional prototypes of ubicomp applications based on field observations, and easily deploy and test these prototypes in situ.

Speaker: Yang Li – RESEARCH SCIENTIST
Yang Li is a research associate in the Computer Science and Engineering Department at the University of Washington. He works in the areas of human-computer Interaction and ubiquitous computing, focusing on activity-based ubiquitous computing, rapid prototyping tools and pen-based interaction techniques. Previously, he was a postdoctoral researcher in EECS at the University of California at Berkeley. He received his PhD in computer science from the Chinese Academy of Sciences.

Duration : 0:54:0

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Tags: education, engedu, google, googletechtalks, talk, talks, techtalk, techtalks

Test print on Z-corp 450 3D printer. The print was a test of facade pattern and scale for a project under development. More information at http://www.variousarchitects.no

Duration : 0:1:54

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Tags: 3d, architecture, model, prototyping, rapid, rp

Rapid Prototyping Using Legos.

(note: CAD files were made in MLCad, not LDraw, as some of you have pointed out….)

For Mechanics of Manipulations (16-741) at CMU in Spring 2009, Gurdayal Koonjul and Ned Fox (me) made a system for the rapid prototyping of Lego structures. Modelling the structure in MLCad (a free Lego CAD program), the save file is parsed in MATLAB and the output file is then sent to a DENSO 6-DOF arm. The arm picks pieces up from pre-determined locations and places them where they belong.

As this was only a semester-long project, there is lots of work still to be done, namely:
-Using webcam to find the correct pieces rather than pieces lying on a template.
-Being able to construct part even if the lines of data in the save file are not already in the correct order (ie top pieces first rather than bottom pieces first).
-Being able to place pieces that have been rotated about axes other than the Z axis.
-Other interference problems with end effector.
-Being able to parse another CAD file format (Solidworks, ProE, etc) and build that model using Legos.

If anyone is more interested, let me know and I can provide more information on what we’ve done and some problems we encountered.

Duration : 0:1:20

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Tags: CAD, carnegie, CMU, fox, gurdayal, koonjul, lego, mellon, ned, prototyping, rapid, robot

Developments in Formula One but also in normal Cars move almost as fast as the cars themselves. Rapid prototyping is a method which allows new components to be built and tested within a day.

Duration : 0:2:34

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Tags: BMW, BMW-web.tv, BMWwebtv, construction, course, Formula, High, One, race, rapid, speed, tech, Technology

From CAD to prototype

Duration : 0:1:57

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Tags: prototype

Working process of SLA Rapid Prototyping.
Interesting in Rapid Prototyping service, contact Inno-at Co., Ltd. (Thailand)
www.inno-at.com

Duration : 0:1:50

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Tags: Inno-at, rapid prototyping, sla

Various methods of rapid prototyping including examples of SLA, SLS, Thermojet Prototype, Parts produced from CAD via 3D Prinitng

Duration : 0:3:12

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Tags: 3d, CAD, casting, design, model, prototype, prototyping, rapid, sla, sls, vacuum

Various methods of rapid prototyping including examples of SLA, SLS, Thermojet Prototype, Parts produced from CAD via 3D Prinitng

Duration : 0:3:12

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Tags: 3d, CAD, casting, design, model, prototype, prototyping, rapid, sla, sls, vacuum

SLA rapid prototyping machine. Watch a rapid prototype being built using layer additive fabrication technology and laser power! This is the industry standard technology for building rapid prototype parts and masters for tooling using vacuum casting technology. Accurate to between 1-2% or 0.1/0.2mm whichever is the greater, SLA parts are proven to work better and have better surface finish and mechanical properties than most other rp technologies. Contact Martello today for a quote or visit our web site.

Duration : 0:1:15

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Tags: 3d, dsm, machine, prototyping, rapid, sla, somos, systems