Category: Biomedical Engineering

Michigan Tech SWE Section travels to Wisconsin for ‘Spring Forward’ Professional Day

Michigan Tech SWE section members and alumnae gather for a photo at Spring Forward 2022.

Nine student members of Michigan Tech’s section of the Society of Women Engineers (SWE) and their advisor, Gretchen Hein (MMET), recently attended Spring Forward, a professional development day in Kohler, Wisconsin, hosted by the SWE-Wisconsin.

Laura Kohler, Senior Vice President of Human Resources, Stewardship and Sustainability at Kohler Company gave the keynote address. She spoke about her career path, the importance of diversity, and leadership. 

Michigan Tech SWE Section members toured the Kohler Design Center after attending SWE-Wisconsin Spring Forward 2022

Mechanical Engineering alumna Jackie (Burtka) Yosick ‘14 also works at Kohler. She was on hand to discuss her work with engines and generators.

“We were also pleasantly surprised to meet Helene Cornils, director of the Advanced Development Kitchen and Bath Group at Kohler and the parent of a current Michigan Tech biomedical engineering student,” said Hein.

Two former Michigan Tech SWE Section presidents, Katie Buchalski ’19 and Andrea (Walvatne) Falasco ’12 were also present at the event. Buchlaski is an environmental engineering alumna now working at Ruekert-Mielke, where she designs municipal road and utility projects with a focus on modeling the stormwater runoff from individual sites to city-wide studies. Falasco, a mechanical engineering alumna, is lead mechanical engineer at Kimberly Clark, where she designs new equipment to make products that include Kleenex, Huggies, and Kotex. 

Numerous Michigan Tech students won SWE awards at the event, as well. One of those was biomedical engineering major Kathleen Heusser, who won a first place scholarship from the GE Women’s Network.

“Receiving the first-place 2022 GE Women’s Network Scholarship was an incredible honor,” said Heusser. “In addition to the tuition assistance it provides, the scholarship affirms my confidence in the value of my resume, my education, and my professional references, as well as my scholarship essay on what being an engineer means to me,” she explains. “The last paragraph in my essay shares how my work as an engineer will be motivated by my love of others in order to work hard–creating solutions to the problem of an individual, a company, or a society.

Michigan Tech biomedical engineering student, Kathleen Heusser, receives the GE Women’s Network Scholarship

Another highlight of the day: Michigan Tech’s SWE section received the SWE-Wisconsin President’s Choice Award.

After the conference, each Michigan Tech student in attendance reflected on their participation and what they learned:

Aerith Cruz, Management Information Systems: “It was a great opportunity for Michigan Tech SWE members to bond and connect with one another. Being able to travel as a section and experience professional development together is a fulfilling experience. We are able to share learning opportunities and build long-lasting connections with one another. It is also incredibly fun getting to know each other while exploring the area.”

Kathryn Krieger, Environmental Engineering: “It was inspiring to hear the paths of various women, and the impacts they have made. I really enjoyed hearing about modern, female-centered design that benefits women in impactful ways–rather than the stereotypical ‘pink and shrink’ method.”

Natalie Hodge, Electrical and Computer Engineering (dual major): “Laura Kohler shared this quote in her presentation, attributed to Cassie Ho: ‘Don’t compare yourself to others. It’s like comparing the sun and the moon. The sun and the moon shine at their own time.’” 

Katherine Baker, Chemical Engineering: “I especially enjoyed attending the session, ‘Navigating Early Stage Careers: The First 10 Years’. It had a great panel that gave a ton of advice on how to advance as an engineer in the workplace.”

Maci Dostaler, Biomedical Engineering: “Women are necessary when it comes to inclusive design, which was covered during one of the sessions, ‘Breaking the Glass Ceiling’”.

Alli Hummel, Civil Engineering: “Laura Kohler talked about the importance of making time for your personal life and how that is necessary to succeed at work. She is a great example of a woman who succeeds in prioritizing both work and family life.”

Lucy Straubel, Biomedical Engineering: “I really enjoyed the whole experience. It was great to hear all the advice everyone else could give me. And making friends and memories was a bonus, too.”

Amanda West, Mechanical Engineering: “One of the things I liked most about the conference was keynote speaker Laura Kohler’s speech, where she mentioned the importance of having and maintaining relationships with your mentors, an important part in developing your career and professional skills.”

Kathleen Heusser, Biomedical Engineering: “In one session called Navigating Early Stage Careers: The First 10 Years, Tess Cain of DSM, among others, gave insightful tips about saying ‘no’ to a project or demand from management that’s just not feasible. She pointed out that how others accept your ‘no’ depends a lot on how you say it. You should use a response that includes ‘I can’t/Here’s why/Here’s what I would need to make this work’ in order to go in a doable direction with the project. And another inspiring quote, overheard during the Nonlinear Careers and the Versatility of Engineering Degrees panel, was that ‘100 percent of candidates are not 100 percent qualified.’ Raquel Reif of Kohler, in particular, stressed that already having expertise in a job field is not a necessary prerequisite to apply for the job you want.”

TECH SCEnE Offers the Best of Both Worlds in Michigan’s Upper Peninsula

Keweenaw Bay Indian Community tribal members share their knowledge, wisdom, and culture with TECH SCEnE REU students. Apply for TECHSCEnE Summer 2022 by March 15 at https://www.techscene.mtu.edu. Tentative program dates are June 3, 2022- July 29, 2022. Tribal college, community college or university students, women and students from underrepresented backgrounds are all encouraged to apply.

What are you doing this Summer 2022? Want to combine cutting-edge engineering research with direct community involvement and impact? With a generous stipend, travel allowance, plus all expenses paid for 8 weeks?

Samantha Haynes, future biomedical engineer, spent 8 weeks as a TECH SCEnE REU researcher last summer.

Biomedical engineering student Samantha Haynes decided to immerse herself in something entirely new via TECH SCEnE, a National Science Foundation Undergraduate Research Experience (REU) at Michigan Technological University. Haynes came all the way from Arlington, Virginia, where she studies biomedical engineering at Virginia Tech.

The 8-week, all-expense paid program offered at Michigan Tech is called TECH SCEnE (short for Technology, Science and Community Engagement in Engineering). Haynes stayed on campus, went on outdoor trips throughout the Keweenaw Peninsula, guided by the Keweenaw Bay Indian Community, and conducted hands-on research in campus labs alongside a faculty mentor.

TECH SCEnE research projects include water quality testing for heavy metal contamination, smart adhesives for underwater applications, remote monitoring and mobile robots, simulating daylight for hatcheries, and in vitro modeling of the impact of heavy metals.

Samantha is seventh from the left. TECH SCEnE stands for Technology, Science and Community Engagement in Engineering

In addition to hands-on laboratory experience, Haynes and her fellow students took plenty of field visits to the beautiful lakeshores of Lake Superior and Keweenaw Bay. Application deadline for Summer 2022 is March 15. Tentative program dates are June 3, 2022- July 29, 2022.

This year is forecast to be outstanding for viewing the Northern Lights in the Upper Peninsula of Michigan. Located just 20 minutes or so from the Michigan Tech campus, McLain State Park on Lake Superior is a great potential viewing spot!

Haynes pioneered research on heavy metal contamination in the soil and wild rice beds around the Keweenaw last summer as an undergraduate researcher taking part in TECH SCEnE. She also worked alongside members of the Keweenaw Bay Indian Community (KBIC), her fellow REU students, and other volunteers to plant over 75 trees, build hoops houses, harvest foods, and upkeep a large community garden, the tribe’s People’s Garden.

Wild rice, known as manoomin, the good berry, is both a spiritual and nutritional staple of the Keweenaw Indian Community.

Samantha, what did you like most about TECH SCEnE?

I applied to TECHScENE REU because I thought the internship was very unique. I was excited to have the opportunity to work in Michigan and learn about the local Indian community. I personally value diversity and learning about different communities very much, so I appreciated that this type of internship existed. I’m also passionate about creating positive social change, helping to protect the environment, and using science to bridge gaps in education and educate the public on pressing issues.

What was the best part?

Samantha and fellow volunteers tending to plants in one of the many Hoop Houses of the Keweenaw Bay Indian Community People’s Garden

Out of all the experiences activities we did throughout TECH ScENE, building relationships with my fellow peers, mentors, and the Native American community was my favorite part.

What was the most challenging aspect?

The unlearning process of everything I thought I knew about Native Americans. We participated in weekly workshops to unlearn false, preconceived ideas and to learn factual information about Native American tribes and tribal members, especially those we were working with as part of TECH SCEnE. 

“Boozhoo! Welcome to our wellness trail,” says this sign, located on Keweenaw Bay Indian Community tribal land. Take a moment to learn a few words of the Ojibwe language. “Miikaans means “trail”. “Aki” means Earth. And “boozhoo!” means “greetings!” or “hello!”

What next? What are your future plans?

Currently I am a junior in biomedical engineering, so the next step is to secure another internship for summer 2022, in order to gain more experience. Once I graduate, I plan to start working and possibly consider graduate school after a year or two.

Samantha’s final presentation, with her TECH SCEnE research mentor, Professor Rupali Datta

Are you an adventurous college student? Want to learn how to use science and technology to benefit both the community and the environment? Apply to TECH SCEnE by March 15. Tribal college, community college or university students, women and students from underrepresented backgrounds are all encouraged to apply. Learn more and apply for free at techscene.mtu.edu.

TECH SCEnE: Adventure is Calling Your Name

TECH SCEnE REU 2021 alum Elizabeth Chery studies biomedical engineering at Florida International University, in Miami, Florida.

Want to combine engineering research with direct community involvement and impact? Biomedical engineering student Elizabeth Chery did, and she took the plunge just last summer at a National Science Foundation Undergraduate Research Experience (REU) at Michigan Technological University.

The 8-week, all-expensed paid program is called TECH SCEnE (short for Technology, Science and Community Engagement in Engineering). Chery stayed on campus, went on outdoor trips throughout the Keweenaw Peninsula, guided by the Keweenaw Bay Indian Community, and conducted hands-on research on campus with her team right alongside a faculty mentor.

“I found it very refreshing to be surrounded by nature in Michigan’s Upper Peninsula, and to enjoy endless outdoor activities like fishing, biking, hiking, and going to state parks.”

It was nearing the end of spring 2021. Summer was just around the corner. Chery found herself eager to start applying some of the knowledge she had gained in her college courses out in the real world.

“I wanted to see how what I was learning could connect to my future—or who I could help. I also wanted to get more exposure to research, to find out what it might be like in graduate school,” she explains.

“I have a passion for service, too, so when I discovered TECHSCEnE—an REU that emphasize bi-weekly organic gardening and indigenous culture visits—I was highly motivated to apply. This program was everything I wished for!

“TECH SCEnE is great for any student deciding whether to go into research or industry. There will be a balance of both to help guide you to your decision.”

Elizabeth Chery, TECH SCEnE REU 2021


Elizabeth, what did you like most about TECHSCEnE?

“Being in Houghton I soon discovered my love for the outdoors, and learning about indigenous cultures.”

The beautiful remote location of the program is what I enjoyed the most! I went to school in the big city. People fly to Miami to visit all the trendy hotspots I grew up with as a child. I found it very refreshing to be surrounded by nature, and to enjoy endless outdoor activities like fishing, biking, hiking, and going to state parks.

I liked being around many different kinds of people—and learning how to work together. Although we’re all in the same age group, we came from different parts of the United States, each with our own different social norms and upbringing. Despite TECHSCEnE’s overall goal—to consider research as a career—the faculty did a phenomenal job of educating us about team building. I met great people and we made tons of special memories together! We went on numerous field trips, some centered on career information, and others focused on social skills. Both are essential components for working in the real world. 

Elizabeth Chery presents her research results during the final days of her TECH SCEnE NSF REU at Michigan Tech

What was the most challenging aspect?

“This hiking trip in North Carolina for my birthday (in September) was inspired by the scenic beauty in I enjoyed during TECH SCEnE.”

Staying organized was a definite challenge with all the data we collected during the experiments. It was absolutely imperative that I document and create a daily report, so that I could make a strong bi-weekly presentation to my peers in the TECHSCEnE program. They were not as well-versed in my topic, so I needed to take an abstract idea and relate it to something more common without being too repetitive or complex. Their bi-weekly feedback helped me find the sweet spot of not over-explaining, yet still being clear and understandable.

What next? What are your future plans?

After completing TECHSCEnE, I joined a research lab at my own university to continue my interest in research. I recently added a minor in chemistry to my major, too. My goal for the upcoming summer is to intern for a biomedical technology company or pharmaceutical company. And my future career goal remains the same: to pursue a graduate degree in biomedical engineering with a concentration in tissue engineering. My ultimate goal is to become a physician-scientist.

Are you an adventurous college student? Want to learn how to use science and technology to benefit both community and the environment? Apply to TECH SCEnE by March 15. Tribal college, community college or university students, women and students from underrepresented backgrounds are all encouraged to apply. Learn more and apply for free at techscene.mtu.edu.

Hoda Hatoum: How Can You Mend a Broken Heart? Flow Dynamics in Arrhythmias

Dr. Hatoum and PhD student Brennan Vogl test heart valves for overall performance and energetics, turbulence generated, sinus hemodynamics (aortic and pulmonic), as well as ventricular, atrial, pulmonic, and aortic flows.

Hoda Hatoum shares her knowledge on Husky Bites, a free, interactive webinar this Monday, 2/14 at 6 pm. Learn something new in just 30 minutes or so, with time after for Q&A! Get the full scoop and register at mtu.edu/huskybites.

Dr. Hoda Hatoum

What are you doing for supper this Monday night 2/14 at 6 ET? Grab a bite with Dean Janet Callahan and Hoda Hatoum, assistant professor of Biomedical Engineering at Michigan Tech. She’ll talk about her cardiovascular research along with Brennan Vogl, one of the first PhD students to join her Biofluids Lab in the fall of 2020.

Atrial fibrillation (aka AF or AFib), when the heart beats in an irregular way, affects up to 6 million individuals in the US, a number expected to double by 2030. More than 454,000 hospitalizations with AFib as the primary diagnosis happen each year. Current AF treatment guidelines recommend antiarrhythmic drugs as initial therapy, but their efficacy is limited and comes with the risk of serious adverse effects. Another option, catheter ablation, electrically isolates the pulmonary veins—the most frequent site of AFib triggers—with more success and an excellent safety profile.

Brennan Vogl

“One of my goals in the lab is to evaluate and provide answers to clinicians so they know what therapy suits their patients best,” says Hatoum. During Husky Bites, by way of example, she’ll show us just how AFib ablation impacts the heart’s left atrial flow.

The left atrium is one of the four chambers of the heart, located in the heart’s upper half. It receives oxygenated blood from the lungs, and pumps it down to the left ventricle through the mitral valve. The left ventricle then pumps the oxygen-rich blood to the rest of the body through the aortic valve.

An actual human heart is about the size of your fist, shaped like an upside down pear. Every cell in your body gets blood from your heart (except for your corneas).

Hatoum’s research seeks to better understand flow dynamics of the heart during arrhythmia, as well as the complexity of structural heart biomechanics, prosthetic heart valve engineering, and the structure-function relationships of the heart in both health and disease.  

Hatoum earned her BS in Mechanical Engineering from the American University of Beirut and her PhD in Mechanical Engineering from the Ohio State University (OSU). She was awarded an American Heart Association postdoctoral fellowship, and completed her postdoctoral training at the Ohio State University and at Georgia Institute of Technology before joining the faculty at Michigan Tech.

“One of my goals is to evaluate and provide answers to clinicians so they know what therapy suits their patients best.”

Hoda Hatoum

Why hearts? “It all started with my doctoral program,” Hatoum recalls. “I had the opportunity to work closely with clinicians, to attend their structural heart meetings, and to plan with them the appropriate therapy to be administered for patients. Every patient is very different, which makes the problem exciting and challenging at the same time.”

Now, working in her own Biofluids Lab at Michigan Tech, Hatoum integrates principles of fluid mechanics, clinical expertise with collaborators nationwide (including Mayo Clinic, Ohio State, Vanderbilt, Piedmont Hospital and St. Paul’s Hospital Vancouver), and design and manufacturing–all to find solutions for cardiovascular flow problems. 

Play Biomedical Engineering Biofluids Lab Aortic Valve Models video
Preview image for Biomedical Engineering Biofluids Lab Aortic Valve Models video

Biomedical Engineering Biofluids Lab Aortic Valve Models

These aortic valves open and close based via the contraction of a pump, controlled by a LabView program. See more during Husky Bites!

Hatoum designed and built a pulse duplicator system—a heart simulator—that emulates the left heart side of a cardiovascular system. She also uses a particle image velocimetry system that allows her to characterize the flow field in vessels and organs. Hatoum and her team of students use these devices to develop patient-specific cardiovascular models, conducting in vitro tests to assess the performance and flow characteristics of different heart valves. “We use idealized heart chambers or patient-specific ones,” she notes. “We test multiple commercially available prosthetic heart valves—and our in-house made valves, too.”

From the Biofluids Lab website: a wide array of current commercial bioprosthetic transcatheter mitral valves.

Hatoum and her team design their own heart valve devices. “With the rise of minimally invasive surgeries, the clinical field is moving towards transcatheter approaches to replace heart valves, rather than open heart surgery,” she explains. 

“Currently, transcatheter heart valves are made of biological materials, including pig or cow valves, that are prone to degeneration. This can lead to compromised valve performance, and ultimately necessitate another valve replacement.” To solve this problem, Hatoum collaborates with material science experts from different universities in the US and around the world to utilize novel biomaterials that are biocompatible, durable and suitable for cardiovascular applications. 

Which area of research pulls Dr. Hatoum’s heartstrings the most? “Transcatheter aortic heart valves,” she says. (Look closely at this photo to see the closed leaflets of an aortic valve.)

“With the challenges that come with TAVs, and with the low-risk population targeted, I believe this is an urgent field to look into, so we can minimize as much as possible any adverse outcomes, improve valve designs and promote longevity of the device.”

Congenital heart defects in children are another strong focus for Hatoum and her team. “We devise alternatives for highly-invasive surgeries for conditions such as pulmonary atresia, Kawasaki disease, and more.” Hatoum collaborates with multiple institutions to acquire patient data, then, using experimental and computational fluid dynamics, she examines the different scenarios of various surgical design approaches. “One very important goal is to develop predictive models that will help clinicians anticipate adverse outcomes,” she says.

“In some centers in the US and the world, the heart team won’t operate without engineers modeling for them—to visualize the problem, design a solution better, improve therapeutic outcomes, and avoid as much as possible any adverse outcomes.”

Hoda Hatoum
Dr. Hoda Hatoum grew up in Lebanon. She’s a big fan of road trips.

Brennan Vogl was the first student to begin working with Hatoum in the lab when she arrived at Michigan Tech in 2020. “It is a great pleasure to work with Brennan,” says Hatoum. “He is very responsible and focused. He handles multiple projects, both experimental and computational, and excels in all aspects of them. I am proud of the tremendous improvement he keeps showing, and his constant motivation to do even better.”

Dr. Hatoum, how did you first get into engineering? What sparked your interest?

As a high-school student, I got the chance to go on a school trip to several universities and I was fascinated by the projects that mechanical engineering students did. That was what determined my major and what sparked my interest.

Hometown, family?

I was raised in Kab Elias, Bekaa, Lebanon. It’s about 45 kilometers (28 miles) from the Lebanese capital, Beirut. The majority of my family still lives there.

‘My niece took this image from the balcony of our house in Lebanon, located in Kab Elias. It shows the broad landscape and the mountains, and the Lebanese coffee cup that’s basically iconic.”

What do you like to do in your spare time?

I like to watch TV, read stories (thrillers) and go on road trips.

The sun temple in the Haidara ruins near Kab Elias, believed to date back to the Roman era.
A recent snow in Kab Elias (photo taken within the last week).

How can a student request to join your Biofluids lab?

The student experience is an amazing one, and one that is rewarding. When a student first joins the lab, they do not have any idea about the problem. As they get exposed to it, they add their own perspective. I currently work with two PhD students and two undergraduates. Usually, an email with interest in the research that I do is sufficient. Our lab employs both mechanical engineering students and biomedical engineering students because of our focus on mechanics. 

Brennan, how did you first get into engineering? What sparked your interest?

I first got into engineering when I participated in Michigan Tech’s Summer Youth Program (SYP). At SYP I got to explore all of the different engineering fields and participate in various projects for each field. Having this hands-on experience really sparked my interest in engineering.

Hometown, family?

I grew up in Saginaw, Michigan. My family now lives in Florida, so I get to escape the UP cold and visit them in the warm Florida weather.

Brennan loves to ski in Houghton’s plentiful powder, but he’s an even bigger fan of warm, sunny weather.
Poppy is on the left and Milo is on the right.

Pets? Hobbies?

I enjoy skiing, and I have two Boston Terriers—Milo and Poppy. They live with my parents in Florida, I don’t think they would be able to handle the cold here in Houghton, as much as I would enjoy them living with me.

SWE Celebrates Graduating Seniors and Scholarship Recipients

Michigan Tech’s section of the Society of Women Engineers (SWE) celebrated the end of the semester with a banquet sponsored by Oshkosh.

Graduating seniors recognized at the event are:

The section also awarded two $1,000 scholarships to our upper-division students. The scholarships were sponsored by Ruby & Associates Inc. and Deployed Technologies to recognize students for their contributions to the SWE section and the University community.

Scholarship recipients are:

By Gretchen Hein, Society of Women Engineers Advisor.

Tau Beta Pi Inducts 15 New Members at Michigan Tech

Congratulations to our Fall 2021 Tau Beta Pi Initiates! (Not pictured here: Andrew Scott and Dr. Mary Raber)

The College of Engineering recently inducted 14 students and one eminent engineer into the Michigan Tech chapter of Tau Beta Pi.

Tau Beta Pi is a nationally recognized engineering honor society and is the only one that recognizes all engineering professions. Students who join are the top 1/8th of their junior class, top 1/5th of their senior class, or the top 1/5th of graduate students who have completed 50% of their coursework. The society celebrates those who have distinguished scholarship and exemplary character, and members strive to maintain integrity and excellence in engineering.

Fall 2021 Initiates

Undergraduate Students: Dom Bianchi, Mechanical Engineering; Sean Bonner, Civil Engineering; Sam Breuer, Computer & Electrical Engineering; Sophia Brylinski, Materials Science & Engineering; Spencer Crawford, Computer Engineering; Jacqui Foreman, Chemical Engineering; Stephen Gillman, Computer Engineering; Michael Kilmer, Materials Science & Engineering; Emerald Mehler, Chemical Engineering; Ben Stier, Computer Engineering; Alex Stockman, Computer Engineering; and Jordan Zais, Biomedical Engineering

Graduate Students: Tonie Johnson, MS, Biomedical Engineering; and Andrew Scott, MS Electrical & Computer Engineering

Eminent Engineer

Mary Raber is Chair of Michigan Tech’s Department of Engineering Fundamentals

Dr. Mary Raber

Tinu Folayan Welcomed as Write-D Facilitator

Write-D Space

Writing in the Discipline (Write-D) and the Department of Chemical Engineering are pleased to welcome Tinu Folayan as the department’s Write-D facilitator beginning in the spring 2022 semester.

Write-D provides a dedicated time and space for graduate students to get work done and receive support on writing projects within their discipline, such as manuscripts, research proposals, etc. Guest speakers from the department and industry visit to briefly present research, writing and publishing tips.

Current departments and facilitators include:

Write-D is a free program open to all graduate students. If your department is not listed but you would like to participate, contact Write-D coordinator Sarah Isaacson at sisaacso@mtu.edu.

By Sarah Isaacson, Write-D Coordinator.

Fall 2021 Research Seed Grants for Engineering PIs

Michigan Tech campus and Portage waterway in the autumn.

The Vice President for Research Office announces the Fall 2021 Research Excellence Funds (REF) awards. Congratulations to all the principal investigators!

Thanks to the individual REF reviewers and the REF review panelists, as well as the deans and department chairs, for their time spent on this important internal research award process. Awardees in the College of Engineering include:

Research Seed Grants

By Kathy Halvorsen, Associate Vice President for Research Development.

Portage Health Foundation Research Excellence Fund Awards Spring 2021

Trisha Sain
Trisha Sain
Hyeun Joong Yoon
Hyeun Joong Yoon

The Health Research Institute is pleased to announce the Spring 2021 Portage Health Foundation Research Excellence Fund (PHF-REF) awards.

We would like to thank the reviewers, deans, department chairs and applicants for their efforts on this internal award process. The following are the faculty award recipients in engineering programs.

PHF-REF Research Seed Grant (PHF-REF-RS) Recipients

Trisha Sain (ME-EM)  
Hyeun Joong Yoon (BioMed) 

More information about REF awards and the application process can be found on the Research Excellence Fund page.

Tau Beta Pi Honor Society at Michigan Tech initiates 39 new members

Each chapter of Tau Beta Pi has its own bent statue. On campus at Michigan Tech campus it is located between Rekhi Hall and the Van Pelt and Opie Library.

The College of Engineering inducted 38 students and one eminent engineer into the Michigan Tech Michigan Beta chapter of Tau Beta Pi this academic year.

A nationally-recognized engineering honor society, Tau Beta Pi is the only one that recognizes all engineering professions. Members are selected from the top eighth of their junior class, top fifth of their senior class, or the top fifth of graduate students who have completed 50 percent of their coursework.

Tau Beta Pi celebrates those who have distinguished scholarship and exemplary character and members strive to maintain integrity and excellence in engineering. The honor is nationally recognized in both academic and professional settings. Alumni embody the principle of TBP: “Integrity and Excellence in Engineering.”

The new Tau Beta Pi logo in blue, with Tau Beta Pi symbol, "the bent" which resembles an old watch winding key.

Fall 2020 Initiates:

Undergraduate students
Evan DeLosh, Mechanical Engineering
Nolan Pickett, Mechanical Engineering
Ben Holladay, Electrical Engineering
Jacob Stewart, Civil Engineering
Malina Gallmeyer, Environmental Engineering
Caleigh Dunn, Biomedical Engineering
Mikalah Klippenstein, Electrical Engineering
Savannah Page, Biomedical Engineering
Katie Smith, Chemical Engineering
Cole Alpers, Mechanical Engineering
Ben Pokorny, Mechanical Engineering
Kyrie LeMahieu, Mechanical Engineering
Anna Hildebrandt, Materials Science & Engineering

Graduate students
Shankara Varma Ponnurangam, Mechanical Engineering
Koami Soulemane Hayibo, Electrical Engineering
Kaled Bentaher, Chemical Engineering
Nicholas Hendrickson, Mechanical Engineering

Spring 2021 Initiates:

Undergraduate students
Anders Carlson, Mechanical Engineering
Brian Geiger, Mechanical Engineering
Emily Street, Mining Engineering
Jacob Lindhorst, Mechanical Engineering
John Benz, Mechanical Engineering
John Hettinger, Computer Engineering
Joshua King, Materials Science & Engineering
Laurel Schmidt, Mechanical Engineering & Theatre Technology
Matthew Fooy, Chemical Engineering
Matthew Gauthier, Mechanical Engineering
Max Pleyte, Biomedical Engineering
Nick McCole, Engineering
Nick Niemi, Biomedical Engineering
Tom Morrison, Chemical Engineering
Zach Darkowski, Mechanical Engineering

Graduate Students
Aiden Truettner, Chemical Engineering
Iuliia Tcibulnikova, Geological & Mining Engineering & Sciences
Rajat Gadhave, Mechanical Engineering
Ranit Karmakar, Electrical & Computer Engineering
Sreekanth Pengadath, Mechanical Engineering
Fnu Vinay Prakash, Electrical & Computer Engineering

Professor Tony Rogers, Michigan Tech

Eminent Engineer
Dr. Tony Rogers, Department of Chemical Engineering