Design

Injection molding class teaches valuable lessons in mass production

22nd May 2017
Enaie Azambuja
0

Plastic objects made by injection molding are abundant and, for many of us, a constant presence in our everyday lives. Your phone case, toothbrush and the keys on your computer are all probably the result of mass production, which involves injecting molten plastic into molds. In an advanced design and manufacturing course, students learn that the ubiquitous plastic objects made by injection molding are deceptively hard to make.

Those products are ubiquitous, but deceptively hard to make, students learn in the engineering class ME325: Making Multiples: Scaled Manufacturing Tooling. In it, students design and make molds for their own mass-produced parts.

“Having the chance to actually try it, to go beyond the theory and make something, is really critical to understanding what it takes to manufacture these parts,” said Marlo Kohn, lecturer in mechanical engineering and instructor for the course.

Each student devises a product that is interesting or useful enough to benefit from being highly reproducible. The results in winter quarter were diverse: an insulin vial protector, a screwdriver with interchangeable magnetic heads, a portable spring that makes it easier to use chopsticks, a necklace organiser and a shoe tag that a person can slide onto laces to add some flair to footwear.

In each case, students sketched prototypes, printed them with a 3D printer, machined the aluminum molds and injected the molds with molten plastic of their chosen flexibility and color to create final products.

In the design classes that students take before Making Multiples, they are free to make just about anything they want, exploring many media and a wide range of techniques. Making Multiples focuses on a single medium and technique while urging students to give their projects the utmost forethought in order to experience what it’s like to mass-produce an object they created from start to finish.

“In other classes at the Product Realisation Lab, you only make one part and you could polish it for hours,” said Brian Huynh, a master’s student in mechanical engineering. “But in the real world you’re going to be making hundreds of thousands or millions.

So there’s debugging that goes with making your mold, and then there’s the injection-molding process, which makes you realise, I have to make it look good enough – just good enough – where, if I make a hundred of them, most of them look great.”

Huynh’s own work tested the line between parts that could be copied a few times and those that could be duplicated in the dozens. His original plan was to make a fountain pen, decorated with intricate ribs.

After designing the fragile and delicate mold components this piece would require, he realised making many wasn’t feasible. He changed course, instead creating a screwdriver with a design inspired by his original project.

Once students in ME325 have completed the design and manufacture of their molds, each individual part might take only 30 seconds to mold. This speed of production belies the challenges and amount of the time that went into designing the part and creating the tooling.

“When my first parts came out, I said, ‘Man, this looks so simple!’ But so much work and thought went into the mold and it was quite complicated to make,” said Katya Stavisky, a master’s student in mechanical engineering who made the shoelace tags last quarter. “Now, looking around at things, like the tools we use, I think, ‘Wow, the tooling for this must have been really difficult.’”

While other classes tend to focus on the manufacturing process itself, this course is about designing to fit the manufacturing process, Huynh said. It’s a set of lessons fraught with complications that foster flexibility. The payoff, however, has more impact than the physical products suggest.

“In the real world, I’m not going to be designing my own mold and I’m not going to be cutting my own mold. But I am going to be designing my own parts, and if I don’t know what constraints there are around it, I’m not going to end up designing a very good part,” Stavisky said.

Given the prevalence of injection molding, knowledge about this process could give these students a clear advantage in a wide variety of design careers. But the most satisfying outcome of this class, for both students and instructors, is probably the hard-won success can be shared directly with classmates, friends and family.

“Having the chance to make more than one of something gives students experience that might be useful to them in their career but also is really incredible to create one of something – one mold – and then get to share your design with all of your friends,” Kohn said.

“I think that’s a very empowering experience for students because they realise that they can make something that can be out in the world as a real object.”

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