View
215
Download
0
Category
Tags:
Preview:
Citation preview
Rapid Prototyping for Rapid Prototyping for CastingCastingAaron AgostinoMechanical Engineering – Union CollegeAdvisor – Professor Amy Hsiao, Ph.D
BackgroundBackground
As villages were first forming there was a developing need for specialized objects. Agricultural equipment, tools, jewelry, and many other products became necessary, and investment casting was there to meet the demands. The techniques used two thousand years ago were nearly the same as those of today, though in the last hundred years our casting methods have been refined to meet the precision required of our society.
What I am trying to doWhat I am trying to do
Lost wax casting has been around since the Neolithic period and is what I am basing my project on, though rather than using wax, ABS prototypes are the starting medium.Because of my interest in metals and design, this project had some appeal to me when first suggested. Now that I am working on parts, the little problems that are coming up add to the motivation and make the project more rewarding. The primary goal is to get a better understanding of the casting process, while also trying new methods. If things go well, next term my project will move towards function by creating useful and intentional working parts as the process becomes more routine.
The ProcessThe Process ◦ Part conceptualized and created 3-dimensionally using SolidWorks◦ Parts is sliced and exported as an .STL file to be dribbled on the rapid
prototype machine◦ Vents are created, dribbled, and adhered◦ Mold is made around ABS part with a ceramic slurry◦ Part is melted out of mold with torch◦ Molten alloy is poured from crucible into
warm mold to form part ◦ Mold is broken away leaving the part◦ Vents and sprue are grinded off of the part,
leaving the final product
Setup and EquipmentSetup and Equipment
Melting process to remove ABS part from ceramic mold (above)
Oven, crucible, and tongs for casting process (below)
What has been doneWhat has been done
Part was built using SolidWorks (1) – Converted and sliced for the rapid prototyping machine which produced ABS part (2) – mold was poured around part – attempt was made to melt out part from ceramic mold (3)
(1) (2) (3)
The Second TryThe Second Try
Due to the difficulty of removing the ABS from the mold on the first attempt, the next part was designed to be geometrically more appropriate for removal
What the part was built to look like (hollow)
Mold after part is removed
National Educators National Educators Workshop in Workshop in Materials Science Materials Science and Engineering at and Engineering at NIST NIST in Gaithersburg, in Gaithersburg,
MDMD
My poster for the My poster for the The research The research poster poster competition competition
What Has Been Found Thus What Has Been Found Thus FarFar
Main problems so far:
Since the ABS doesn’t melt out as much as it burns, the geometry must be conducive to pulling out the softened parts from the mold
Ceramic which is being used, primarily composed of silica powder, is very brittle at the temperatures necessary for the ABS melting
Cu-Al needs 1085°C to liquefy, which is at the top of the range for the ovens available (1100°C ), which creates a hesitance to push the ovens so hard
Still to ComeStill to Come
Still to do this term:
- Pour another part before break- Update website (antipasto.union.edu/~agostina)
Next term:
- Molds of different ceramic materials- Casting with other material compositions- Create more complicated parts that serve a
predefined purpose
Questions about project?Questions about project?
Acknowledgements
Professor Hsiao - Stan Gorski - Rhonda Becker
Recommended