Tuesday, April 26, 2011
project project project
Monday, April 18, 2011
CLARIFICATION
Sunday, April 17, 2011
MY PIECE
Thursday, April 14, 2011
Wednesday, April 13, 2011
Research
Where would we be without the steam engines?
-with out mechanical tools such as planers, pointers, Mills, Drills, Grinders, Presses, Saws.
Now tools such as those are combined and ran by computers to get high precision and quality
LASERS AND LASER CUTTING
laser cutter works by directing the output of high power laser, by computer, and the material to be cut. The material then either melts, burns, vaporizes away, or is blown away by a jet of gas leaving an edge with a high-quality surface finish.
In 1917, Albert Einstein theorized the principle of a laser, when he came up with his theory of stimulated emission. Einstein’s theory said that an excited atom in isolation can return to a lower energy state by emitting photons, a process he dubbed spontaneous emission (http://www.ehow.com/about_6391803_history-laser-cutting.html)
http://www.olympusfluoview.com/java/stimulatedemission/index.html- shows the stimulation
In 1960, Theodore Maiman Developed the first working laser at Hughes research la. It was diescribed as “a solution looking for a problem.” So many companies began to look for that problem. Then in 1971, one of the first well known uses was the laser printer.
First experiment in laser material processing was conducted in may 1967 when peter Houldcroft used an oxygen assist gas to cut 1mm thick steel sheet with a focused CO2 laser beam. This was one of the first 2 axis moving optics CO2 laser cutting machine built in 1975 made by Bystronic, similar to what we use today.
“With the correct laser power settings, the industrial laser can cut cleanly through mild steel to 0.75 inch, 0.5 inch of stainless, as well as aluminum, bronze, and titanium. Industrial laser cutting machines are the fastest machining process for flat sheet and plate materials. With the utilization of high intensity light surrounded by a high-pressure gas, many geometric complex contours can be manufactured without the need of hard tooling. A by-product of these laser cutting procedures, edge quality rarely needs secondary processing.”” most importantly, the speed is normally faster than other profile cutting methods.” (http://www.ehow.com/about_6391803_history-laser-cutting.html)
CATIA: (computer aided three dimensional interactive application) a multi platformed CAD/CAM/Cae commercial software suite developed by French company Dassault Systemes and marketed world wide by IBM
The software was used in the 1970’s and the 1980’s to create dassault’s mirage fighter jets, and then used in industries to digitally design and manufacture machines like in aerospace, automotive, and shipbuilding. Before it moved to these industries and became CATIA it was CATi but once it partnered with IBM it became CATIA in 1981
3 D Printing: used to construct objects by printing successive layers of material to form an object. Works by taking a 3D computer file and making a series of cross-sectional slices. Easch slice is then printed one on top of the other to create the 3D object. “It works like this. First you call up a blueprint on your computer screen and tinker with its shape and colour where necessary. Then you press print. A machine nearby whirrs into life and builds up the object gradually, either by depositing material from a nozzle, or by selectively solidifying a thin layer of plastic or metal dust using tiny drops of glue or a tightly focused beam”
(http://www.economist.com/node/18114327)
-Leonardo Da Vinci connection to 3D Printing- "To make his case Reti compared Leonardo’s drawings of basic machine and kinematic elements with the basic list of ‘constructive elements’ found in Reuleaux’s Kinematics of Machinery (1876).
One such comparison is the slider crank mechanism. Leonardo da Vinci drew several designs of slider cranks and also appeared to understand the nature of kinematic singularities through these drawings"
-Also Introduction to kinetic History.
"There are several rapid prototyping technologies, including laminated object manufacturing (LOM), selective laser sintering (SLS), photo polymerization (stereolithography, SLA), and fused deposition modeling (FDM)"
http://ecommons.cornell.edu/bitstream/1813/2715/1/2003-6.pdf
Old Mechanisms used for the teaching and development of mechanical engineering :
http://www.archimuse.com/mw2001/papers/shiroshita/shiroshita.html
CNC (NC to CNC)
1949-us airforce 1st numerically controlled (nc)machine - used 1st for airplane wings- (Video Included on HIstory channel) This design design grew out of the work of John T. Parsons during the late 1940s and early 1950s. (http://www.madehow.com/Volume-2/CNC-Machine-Tool.html)
(http://www.sullivancorp.com/history-cnc.htm)
computer numerical control first design software, and then it is processed by the computer and manufactured using the CNC machine.
CNCs will performing work as lathes, milling machines, laser cutters, abrasive jet cutters, punch presses, press brakes, and other industrial tools. the first practical metalworking lathe was invented in 1800 by Henry Maudslay. (http://www.madehow.com/Volume-2/CNC-Machine-Tool.html)
Cnc machine tool itself:
http://www.madehow.com/Volume-2/CNC-Machine-Tool.html
Plasma Printing: digital-on-demand plasma print hardware solution that enables software patterned surface funstionalization, etching and deposition of functional coatings on thin (plastic) substrates. Printing electronics in a fast growing market with a large variet of different applications such as RFID tags, organic and polymer LEDs and solar cells.
http://www.youtube.com/watch?v=VEs1gfwYC5w
http://en.wikipedia.org/wiki/Laser_cutting
http://en.wikipedia.org/wiki/3d_printer
http://en.wikipedia.org/wiki/CNC_wood_router
EX:
Beijing Olympic stadium
DYMAXION- (in my book) built in 1920’s- mass producing, affordable, easily transportable and environmentaly efficient house. Heated and cooled by natural means and created its own power
Daniel Libeskind’s futuropolis, st. Gallen 2005
Eero Sarrinen GM technical Center- warren Michigan
BanQ, Office da -south boston- The restaurant design leverages the capabilities of the cnc technology to develop a carved interior space within the plywood ribs
(New tectonics towards a new theory of digital architecture: 7th feidad award):
CODES, EROS and Craft (page 46,47, 139) designer- evan douglis
CNC cuts foam
Miran Gallery (page 42, 130) designer-DeCoi architects mark
Goulthorpe
Fashion show room in paris 2003-04
CNC
Blobwall(54, 150) designers- greg lynn, Emmanuelle bourlier, andreas
froech, Christian mittman
Robotic construction
WHERE IS DIGITAL FABRICATION HEADING?
**K12 schools having digital fabrication software.
** fabrication of living tissue and cells
FACTS
http://www.designnews.com/article/511989-Urbee_to_Be_First_3_D_Printed_Car.php
“At the Massachusetts Institute of Technology (MIT), Peter Schmitt, a PhD student, has been printing something that resembles the workings of a grandfather clock. It took him a few attempts to get right, but eventually he removed the plastic clock from a 3D printer, hung it on the wall and pulled down the counterweight. It started ticking.” Started with making most prototypes, however now it is creating 20% of the final product. “3D printing allows for a great deal of customisation. Indeed, in the future some see consumers downloading products as they do digital music and printing them out at home, or at a local 3D production centre, having tweaked the designs to their own tastes” Stratasys is even trying to print a car! (click to see image)(http://www.economist.com/node/18114221)
PLACES THAT PRODUCE 3D Printing
http://www.physicaldesignco.com/
http://www.shapeways.com/
My PROJECT 101
Let’s Cut In
My goals are to create something that I can use upon leaving college. I wanted to give myself the opportunity to learn new tools. I started off thinking about doing a bed board or a lamp, but I soon realized the limitations of our schools laser cutter machine. However, not all of the laser cutter machines have the same size and cut limitations. This made me think about how uncommon these tools are. It’s not like your average printer that everyone has, or availability of printers that extend the limits. I choose to forgo these ideas because I didn’t want to substitute cut metal nor have my light be a “jigsaw” puzzle (I wanted a big light). So, my project idea changed into a combination, a light box, and from there I got excited while designing it and buying the materials and wanted to do picture frames that matched it.
My materials are wood and plexi glass. What I am unsure about and in need of some inspiration are plexi applications for color/surface change as well as how I want my light and if I what colored lights. Currently, I have my plexi glass cut. Some issues I had with it are: etching, cuts not going through enough, tight parts of my letters releasing differently. For the etching, my material must have had a bow in it or a difference in the plastic coating because a vertical part didn’t show up as deeply etched, some was even hard to see. The cuts on one of my pieces didn’t go as smoothly as the others; there was more effort in pushing it out. So, I waited till a later date to push it out finding it harder to push it out, leaving me to believe the plastic was still at a different temperature when I was pushing it out, then cooled again. That piece will have to be remade due to cracking during the “pop out stage.” For my letter cuts some of my o’s kept there middle, however for others it popped out. Smaller connections do have their limitations, however the detail that a laser cutter can accomplish is pretty impressive.
My next step is creating my “boxes/frames” 2 of them I would like to use the CNC on to create an interesting surrounding for my intricate laser pieces. I’m taking an image and using rhino to project its depths onto my piece. Currently, I have an idea of what I want, However, with the limitations of the CNC I could very well be surprised. CNC’s are based on bit size, speed, and even minor details like the vacuum being on or properly adjusting your piece at 0,0, etc. I just hope if it’s not my outcome that it’s a sweet serendipity. Although, having experience in the CNC will help me achieve my initial goal.
After that is picking a plexi-glass color or a colored background. Writing this I got a random idea of using a transparent material and printing on it for the pictures. I remember Sarah Pytlik doing and think it could be very intriguing to my piece. With that I can also light my picture frames, however, I worry about glare.
My project has already had some complications, some that were avoided and others that couldn’t be. With each time I use a machine I become more familiar with potential complications and can assess those before hand. For instance, when I cut my piece again I’m going to run the cut twice as well and make sure the surface is completely level.
I think what this process can teach is that machines like this offer us great opportunities, but they also have flaws, much like humans.
Monday, April 11, 2011
Project
Friday, April 8, 2011
Check one, issue one
Thursday, April 7, 2011
My project
Addressing the Questions
What kind of application would thermocrotic paint have in architecture?- Currently, I don't see it as a need. However, I could see it being an exterior paint that changes as the temperature changes. Interactive to the enviroment and the human eye
Arduino- Do you have a better understanding of how sensors work? -Both hardware and software. I don't necessarily get how it works. Like would I be able to recreate that based on the knowledge I have? no, however, It was crazy interesting to see it be such a simple concept to mechanically/light controlled
How could you apply processing to a component of a building? I think the program itself is a form of 3D modeling.
How are the hexbugs we saw today different from the ones that are remote controlled? Is there a different type of interaction? Where else do you see these kind of sensors applied. Remote controlled bugs are defined by what we tell it to do, they dont interact with anything but that remote. while the hex bugs are interacting with its space as well as we can get involved in changing the bugs outcomes. On the top of my head I can't think of any Touch sensors, which is probably a sham since the technology is so intreguing
Sunday, April 3, 2011
Friday, April 1, 2011
Smart meter
SMART METER
"She says the meters are saving her money on lunchtime stops, because she reinserts her card when she's ready to leave and gets a refund for unused time.
"The nice thing is I don't have to carry change around in the car or in my purse," she says.
The meters — some of which also take coins — include solar-powered devices that take credit or debit cards, meters that can be paid by cellphone, and meters linked by wireless networks that can be remotely controlled and alert officers to parking violations, Vanderhoof says."
Thursday, March 31, 2011
Andrea Morgante, founder of Shiro Studio, has collaborated with D-Shape to produce the Radiolaria pavilion, a complex, free-form structure produced using the world’s largest 3D printer. Measuring 3 x 3 x 3 metres, the structure is a scale model of a final 10-metre tall pavilion to be built in Pontedera, Italy, in 2010.The pavilion is fabricatedfrom curved profiles that are nested on standard 13mm flat sheets and water cut. Once delivered to site the entire pavil¬ion can be constructed by hand.ABC Dbayeh Dep't Store, Beirut, South FacadLaser cut metal
Wednesday, March 30, 2011
Rethinking
Monday, March 28, 2011
Laser cutter Project
MY PROJECT:
2 Options: Backboard or a Lamp(floor)
Needs: (1) 2X4’s, 2X2’s, Plywood(or better backing option, and a metal sheet (option rope lighting edge + paint)
(2) a thin wood + Plexi or substitute + light kit
Uses: Laser cutter + Wood shop (router, saw, drill)
I would like to create something that is beautiful as well as something I can use in my life. Right now I’m leaning towards the backboard because it is something I need. What it will come down to is what can I afford.
Timeline: Illustrator file prepared March 28th
This Week- Schedule Laser cutter time- Purchase supplies (if can get laser cutter time this week, then cut panels
Next week- Cut metal- 4th-14th cut and assemble Backboard or lamp
Monday, February 28, 2011
Movement through Layers
The first (3)layers I wanted to Create movement by use of shadow, opacity, and position change.
the 4th and 5th layer I wanted to appear intensely above the first 3 layers. I used edge accent to make it better pop. The 5th layer made more brighter then the 4th to appear above the 4th layer.
the 6th layer was used to be bright and above all layers, however, the intensity of the piece ruins the elegant simplicity of the piece and obvious movement.
I wish my imaging was more realistic or more obviously 3D
I would have stopped before I added the Last layer.
Wednesday, February 23, 2011
Controlled Serendipity
And I've got one pair of jeans
They’ve been stretched too far
And now they’re weak at the seams
I can’t say what’s next
And I got nothin' up my sleeve
But I don’t lose my head
Cause it ain’t really up to me
And I’m doing just fine
I’m always landing on my feet
In the nic of time
And by the skin of my teeth
I ain’t gonna stress
Cause the worst ain’t happened yet
Somethings watching over me
Like Sweet Serendipity
Sweet Serendipity
I don’t ask for a lot
No nothing more than I need
Because I love what I got
Don’t need to play the lottery
I just want to be strong
At the end of the road
I don’t want to hold on
I want the strength to let go
And I’m doing just fine
I’m always landing on my feet
In the nic of time
And by the skin of my teeth
I ain’t gonna stress
Cause the worst ain’t happened yet
Somethings watching over me
Like Sweet Serendipity