Since 1919
RUMBLE is an annual end-of-the-year exhibition presented by the architecture and urban design department at UCLA showcasing student projects and designs. The exhibition is open and free to the public, with reviews on the first two days, from June 10-15 at Perloff Hall.
Follow graduating architectural studies students Ria Luo, Brandon Tornero and Olivia Kope as they reflect back on their experiences as undergraduates at UCLA and their final RUMBLE projects.
Daily Bruin photographers visited the Gardena Valley News Web Offset printing facilities to follow the paper from the time editors hit send in Kerckhoff Hall to the time it arrives on newsstands for readers to pick up.
In this gallery, five nontraditional students share their diverse life experiences and reflect on their college journeys ahead of commencement.
Daily Bruin photographers reflect on the moments they captured this year. From fashion shows to protests, Daily Bruin photographers were there to see it all unfold.
The Bruins’ trip to the 2019 College World Series was a long time in the making.
Until it wasn’t.
From the top-ranked 2016 recruiting class to the young pitchers stepping up due to injuries in 2018, coach John Savage and UCLA baseball found themselves with plenty of expectations thrust upon them prior to this season. After winning the Pac-12 and locking down the NCAA tournament’s No. 1 overall seed, the Bruins’ path to the College World Series in Omaha, Nebraska, looked clear.
Savage and his roster of future pros may have come up short, but they said before the season this was one of the biggest years of their lives – regardless of the end result.
Targets on backs
When the Bruins opened the 2019 season, juniors first baseman Michael Toglia, second baseman Chase Strumpf and outfielder Jeremy Ydens were all named preseason All-Americans.
After opening the polls as a unanimous top-five squad, the Bruins were the No. 1 team in the country for the last 11 weeks of the regular season.
“We have been under the spotlight a lot, and they’ve handled it pretty well,” said coach John Savage. “I think the fact that we were No. 1 for as long as we have (been) certainly will help any honors or awards that these guys are getting – (Pac-12) Pitcher of the Year, All-Region, All-American – and I think everything’s kind of in stride right now.”
Junior right-hander Ryan Garcia reeled in the most awards on the team – including Pac-12 Pitcher of the Year and nods on the All-American First Team and Golden Spikes semifinalist list. Savage won the conference’s Coach of the Year award and redshirt junior righty Jack Ralston and sophomore reliever Holden Powell were named to All-American teams.
But the Bruins’ praise didn’t go unnoticed by their opponents.
Being such a high-ranked team all season long, senior designated hitter Jake Pries said he thinks the Bruins’ out-of-conference opponents definitely put targets on the Bruins’ backs when they came out west.
“Every team gives us their best punch,” Pries said. “It wasn’t the easy road to get where we were – it may look easy on the outside, but there have been some tough days. … Teams have really gone after us, which has been fun.”
Michigan gave UCLA its best punch three times – handing the Bruins their second, seventh and eighth home losses of the season and advancing to the College World Series in their place.
Moving on up
The 2019 MLB Draft started just hours before the Bruins took the field for their third elimination game of the Los Angeles regional.
Toglia, Strumpf and Garcia all got picked that night, and Savage said it immediately shook things up all over the field.
“We were a wreck the first couple innings,” Savage said. “(Toglia) just gets drafted, he makes two errors, you know, what the hell’s going on here? And I don’t know if (the draft) had anything to do with it, but it might have.”
Strumpf – who hit a three-run homer minutes after getting picked – said his dad ran down into the dugout to tell him the good news right after he finished rounding the bases.
Pries was picked No. 735 overall by the New York Yankees on Wednesday, right after he finished congratulating his teammate, junior left fielder Jack Stronach, for getting picked No. 623 to his hometown team, the San Diego Padres.
“I get lunch and I show up to the field, I put my phone down and I was getting ready to eat and (Savage) calls me into his office,” Pries said. “And all the coaches told me right when it happened. I was happy I was (at Jackie Robinson Stadium), honestly, I’m happy they got to tell me.”
Thirteen Bruins were drafted last week – a program record – but despite the career-altering stories, most Bruins said they were happy to move past it.
“There’s a lot of pressure off the field leading up to it,” Strumpf said. “All the scouts just wanting to talk to you, and you can push them off all you want, but they’re just gonna keep coming and coming. But we all agree that this is a great weight lifted off our shoulders and now we can just go play.”
Savage said he was happy it was over with too – he has had the draft break down his teams in the past.
According to the Pac-12 Coach of the Year, his 2012 team that made the trip to Omaha was a different squad after the draft started, eliminating them from the College World Series earlier than anticipated.
The end result was the same – the post-draft Bruins failed to bring home the title after falling to the Wolverines, leaving over a dozen players’ futures up in the air.
Years in the making
Strumpf said he has known where the program was headed since he first suited up in fall 2016.
“As (my class) stepped on campus, a lot of guys started talking, our coaches told us straight up, ‘Hey, there’s a reason you guys are all here,'” Strumpf said. “They knew that if we all ended up together, this could be something special.”
Two and a half years later, the Bruins’ long-awaited trip to Omaha was canceled a week early.
Just months before the final season in this era of UCLA baseball started, however, the Bruins suffered another loss. Mental skills coach Dr. Ken Ravizza was with the program from 2010 until he passed away in July 2018.
“Ravizza has been a big part of this team,” Savage said. “It’s just that calmness that he built around himself. … I see him being a major part of what we’re doing this year.”
But the Bruins had to move on – Savage put too much emphasis on the mental aspect of the game to go on without filling the position.
He said bringing in Dave Snow to fill Ravizza’s shoes helped to keep the players in the right mindset every time they took the field, even when they were facing elimination late in the postseason.
“When everybody is kind of on board on the mental game, it really sinks into the players,” Savage said. “His life lessons, (Snow’s) made me a much better person, a much better coach, handling players, the timing of messages to players.”
The Bruins fell one win short of a trip to Omaha, but Strumpf said before the season that winning a title wasn’t the only goal – he wanted to leave a legacy behind.
And while Savage said he thinks this team did that, he also had one last message for his team, his opponents and the rest of the country.
“We’ll be back.”
UCLA researchers have been developing flexible materials and structures that can perform a variety of tasks, from delivering drugs to specific parts of human body to making aircraft more efficient.
Developing and integrating soft materials into structures and robotics has far-reaching applications, particularly in the medical industry, said Khalid Jawed, a mechanical and aerospace engineering assistant professor.
Jawed has been developing soft robots that could be used to deliver drugs to specific locations in the body. He said soft robots would be more compatible with humans than traditional medical technology.
“(Soft robots) are not going to harm you even if you are in contact with them. This is a contrast (to) rigid metal propellers (used in medical devices),” Jawed said. “The field of soft robotics essentially brings robotics closer to humans just because of their safety.”
Jawed said his soft robot could also be used for environmental and structural monitoring, like in pipeline inspection, because of their flexibility.
“(Soft robots) are a lot more resilient,” Jawed said. “It is easy to break a rigid robot, whereas a soft robot can undergo much larger deformation before it fails.”
Jawed’s robots are inspired by bacteria structure and how changing the shape of a structure can change its direction, which he calls buckling instability. Jawed said buckling instability can be compared to bending a straw where kinks in the structure change the straw’s shape and therefore the water’s direction.
Jonathan Hopkins, a mechanical and aerospace engineering assistant professor, has been working on a different category of flexible technology: architected materials, which are made by linking other smaller materials together.
Hopkins’ architected materials, called compliant rolling-contact architected materials or CRAMs, are comprised of smaller rigid parts, like hinges and beams that are arranged in lattices. These lattices allow deformation in specific directions, he said.
“The neat thing about architected materials is that it doesn’t really matter what they’re made of,” Hopkins said. “They get their overall properties and behaviors from how they’re structured on a small scale.”
Hopkins said architected materials would not require a lot of energy to operate. He added that these materials could be implemented into the wings of an airplane to make flying more energy efficient.
“For different gusts of wind, (these materials) basically make it more energy efficient if you can accommodate changing wind conditions, and you can be more maneuverable,” Hopkins said. “(This would) reduce fuel costs in airplanes by a lot.”
Hopkins and Jawed said they take inspiration from their surroundings to develop their flexible technology. Hopkins said his team was inspired by mechanical gears’ rigidity and limitations.
“(Mechanical gears) roll on each others’ surface without flipping so the teeth don’t shear off,” Hopkins said. “We wondered: Is there a (flexible) version of that? One that is purely deforming like a soft material?”
Jawed said he takes inspiration from nature, modeling his soft robots after bacteria. He said he believes the natural world holds the answers to unlocking soft robots.
“If you look at octopus, starfish, jellyfish, humans, all the microorganisms, all of them are soft. There should be a reason they are soft,” Jawed said. “We think that we can harness some of these principles that are obvious in biology to build more and more functional robots.”
Qibing Pei, a professor of materials science and engineering, is working towards developing more elastic materials. Thus far, Pei and his team have developed a prototype of a thin, flexible cooling device with their findings.
Pei’s research involves the usage of electrocaloric polymers. When researchers apply electricity to the plastics, their entropy decreases. A material’s entropy is the measure of a system’s thermal energy per unit temperature that is unavailable for doing useful work, according to the Encyclopaedia Britannica.
The role of electrocaloric polymers takes the form of a film in a cooling device, Pei said. Coated with a conductive layer, the film moves back and forth between a heat source and a heat sink. The film takes the heat from the source to the sink, which absorbs it.
Pei said the primary application for this smaller cooling system would be in electronics, such as batteries and central processing units in computers, which heat up with use.
A secondary application would be developing a portable or wearable personal cooling device, a possibility given the system’s small size, he added.
Pei said the next step in developing the cooling device would be to find ways to increase the electrocaloric polymer’s cooling effect while studying its properties.
Lihua Jin, an assistant professor of mechanical and aerospace engineering, works with hydrogels. A type of polymer that disperses in liquid, hydrogels have a large water content, which makes them extremely soft materials.
Although Jin is working on developing new hydrogels in her lab, examples of these polymers can be readily found in our daily lives, she said.
“There are a lot of daily life examples of hydrogels, for example, gelatin, which is a polymer with a lot of water inside of it, and tofu,” Jin said.
Jin said the extremely soft nature of hydrogels make them compatible with soft tissues within the human bodies, as human tissues and hydrogels have similar mechanical properties. As a result, hydrogels are highly applicable within biomedicine.
Jin said currently her researchers are working on different applications of soft materials, such as soft robots and soft actuators. An actuator is a device which converts the energy of a control signal into some physical change, such as motion.
She added the next step in the development of soft materials would be further comprehension of material properties, and eventually developing theories that could possibly predict material behavior.
“Chemists, they develop the material, but for us, for mechanical engineering, we try to understand the material and even predict (the material’s) behavior,” Jin said.
So far, Jawed and Hopkins have both achieved models on the centimeter scale, however the researchers want to make their technology even smaller.
Hopkins said he is working on reducing the size of CRAMs until the constituent parts of the architected material could be barely made out.
“We’re pioneering the approach to be able to make each CRAM the size of a red blood cell,” he said.
Jawed said although there has been a great degree of research, soft and flexible materials still need further development.
“It’s a fairly ambitious goal and we are just taking baby steps,” Jawed said.
