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鈥淭ilt skillet鈥� doesn鈥檛 do these machines justice. What sounds like聽something you would buy on QVC to make a perfect Belgian waffle is, in truth, a behemoth 鈥� a quarter-ton pressure cooker, 4 feet wide and 3 feet deep, with a 45-gallon tub that pivots on a horizontal axis. The tilt feature makes it easy to collect the prepared food in trays.

鈥淭hese are vital to our operations,鈥� Perez said in early March, standing next to the now-repaired cooker.

鈥淲e can steam, grill or deep-fry nearly everything in these,鈥� Perez said. 鈥淲e can cook a 50-pound bag of beans and get it done in about 30 minutes.鈥�

Back in January, the kitchen staff discovered one tilt skillet鈥檚 lid wasn鈥檛 latching properly. The dining facilities team was called in. Inside the handle latch, they found the bushing, broken in two. They went online to order a replacement part but found none. The part was no longer made.

That鈥檚 when Perez pivoted to the idea of recreating the part with a 3D printer. He first turned to Sean Pamer, who handles information technology procurement for the university鈥檚 Supply Chain Center of Excellence. He knew Pamer was a 3D printing hobbyist.

鈥淚 asked him, 鈥楥an you do it?鈥� He said, 鈥業 can try,鈥欌�� Perez said.

Oz Smith, a Dining Services maintenance mechanic, shared pictures of the broken part and a sketch he made of its dimensions. Pamer researched what was needed for a printed replacement. He had the equipment to pull it off, but the plastic it required was expensive and couldn鈥檛 be purchased quickly enough.

Time for another pivot. Pamer turned to German Gavilan, School of Engineering assistant dean. Could the university鈥檚 Makerspace do the job? Absolutely, said Gavilan, who handed the task to Makerspace instructor Salvador Diaz.

Diaz huddled with Smith and fellow maintenance mechanic Cory Avila to lock down dimensions and the best material for the part. The bushing had to withstand high heat and stress. They chose a material they had on hand called rigid TPU. Diaz said it took three or four days to perfect the 3D print,聽testing and measuring each iteration.

Remember: This is a classroom environment. The honor of programming and operating the printer for this apparently novel job went to student Leonela Gutierrez, a fourth-year bioengineering major.

鈥淚 didn鈥檛 know what it was at the time,鈥� Gutierrez said. 鈥淚t wasn鈥檛 until later, when they sent me a 鈥榯hank you.鈥欌��

Perez credited Pamer for connecting the dining team to the Maker Space (which, coincidentally, is only a few yards from the Pavilion kitchen, across a breezeway in the Sustainability Research and Engineering building).

鈥淚 give Sean a world of credit on this,鈥� Perez said. 鈥淚 didn鈥檛 know (3D printing) was being done on campus, to be honest with you.鈥� Perez also lauded Smith and Avila, who he said do聽amazing work keeping dining operations running.

As for Pamer, he was pleased with how it turned out. 鈥淚t鈥檚 a fun part of my job,鈥� he said, 鈥減utting campus partners together to solve a campus challenge.鈥�