Recently several Aerospace and Mechanical Engineering graduate students received scholarships at AME’s senior luncheon.

Graduate Student Scholarships

Arun Balakrishnan received the Thomas Milam, Sr. Scholarship. Arun is a Ph.D. Candidate from India studying aerospace engineering. His research interests and objectives include biofuel combustion, characterization of global and in-flame properties of pre-vaporized and partially premixed laminar flames, investigation of NOx formation and mechanisms at various flame conditions.

Bipul Barua received the Frank Chuck Mechanical Engineering Scholarship. Bipul is a Ph.D. Candidate from Bangladesh studying mechanical engineering. His research interests and objectives include electrospinning, polymer nanofiber, carbon nano-fiber/tubes, composites, polymer foam, metal oxide and experiential learning.

Jelena Milisavljevic received the Conoco Phillips Scholarship. Jelena is a graduate student from Serbia pursing her master’s degree in mechanical engineering. Her research interests and objectives include complex systems, disorganized and organized complexity and robust and resilient multistage manufacturing (RRMM).

Oluwaseyi Ogunsola received the Jim and Bee Close and John E. Francis Scholarship. Oulwaseyi is a Ph.D. Candidate from Nigeria studying mechanical engineering. His research interests and objectives include development and validation of thermal models for HVAC systems control and optimization.

Congratulations from all of us at AME! Keep up the good work!

In 2013, Baker Hughes teamed up with the School of Aerospace and Mechanical Engineering and the Mewbourne School of Petroleum and Geological Engineering at the University of Oklahoma to start a partnership with its students and Baker Hughes known as the 21st Century Co-op. The BHI 21st Century Co-op is a five year accelerated Bachelor of Science/Master of Science degree program in mechanical engineering or petroleum engineering. In addition to the required courses for both degrees, the BHI 21st Century Co-op curriculum includes customized courses offered by faculty and BHI engineers during summer internships, a senior capstone course, graduate cross-disciplinary courses and graduate theses all relevant to Baker Hughes and its initiatives.Baker Hughes Scholars

Through the BHI 21st Century Co-op, sophomores studying mechanical and/or petroleum engineering are invited to apply for the program. Students must submit an application including a resume, transcripts and an essay. Baker Hughes personnel interview a short list of candidates, and in consultation with the OU mentors, invite sophomores to become BHI Scholars. Baker Hughes and the OU mentors seek students who want to further their education with a master’s degree and those who are very career-driven with high professional goals.

“Integrity, teamwork, performance, learning and courage are the core values of Baker Hughes. These traits are what it takes to be a BHI Scholar,” said Jerry Varughese, mechanical engineering junior and BHI Scholar. “Our team seeks individuals who are willing to go above and beyond expectations. Our team looks for individuals who are willing to work hard but also always ready to learn.”

The aim of the program over the next three years is to enable BHI Scholars to work as a team on different aspects of a challenge problem identified by the BHI mentor. This year 11 BHI Scholars worked on the challenge problem. The mechanical engineering BHI Scholars are Wiley Abbott, Miles Burnett, Eric Douglas, Brandon McCabe, Chris Sanders and Jerry Varughese. The petroleum engineering BHI Scholars are Bryan Bodie, Pamela Duarte, Dallas Milligan, Dana Saeed and Alex Smith.

“The mix of petroleum and mechanical engineers brings a unique dynamic that allows us to constantly keep learning different perspectives,” said Eric Douglas, mechanical engineering senior and BHI Scholar. “The best part of this experience is the ability to work as a team.”

Something different with this program is its focus on interdisciplinary and collaborative learning. “Taking both petroleum and mechanical engineering classes is beneficial to creating a diverse educational background that will brand the BHI Scholars as a more valuable asset in the workplace, as well as well-rounded engineers,” said Dallas Milligan, petroleum engineering sophomore and BHI Scholar. “Having a perspective from both disciplines gives the BHI Scholars a chance to see problems from a different view, which can make all the difference in creating a unique solution.”

BHI 1 CroppedOn April 26, 2015, the Baker Hughes Scholars presented their solutions to the challenge problem to BHI mentor and engineer Larry Watkins. The challenge presented to the BHI Scholars focused on an overview of unconventional hydrocarbon resources, primarily shale plays and to review and identify the go forward challenges facing development of shale.Baker Hughes Co-op

On April 27, 2015, Rustom Mody, Vice President/Chief Engineer for Baker Hughes Enterprise Technology and the principal sponsor of the BHI 21st Century Co-op Program, presented a check for $160,000 in support of the program.

“The commitment from both Baker Hughes and the faculty sponsors to the program is encouraging. The faith they have in the scholars as they develop us into future contributors to the oil and gas industry definitely drives us to do our best,” said Alex Smith, junior in petroleum engineering and BHI Scholar. “Having this support system to challenge and force us out of our academic comfort zone has been my favorite part of this experience.”

Faculty sponsors of the BHI 21st Century Co-op are Farrokh Mistree, AME; Maysam Pournik, PGE; Chandra Rai, PGE; and Zahed Siddique, AME. For additional information, please contact Farrokh Mistree, farrokh.mistree@ou.edu.

Dr. Diana Bairaktarova, Assistant Professor of Engineering Practice, was recently featured on Current Conversations with Robert Con Davis-Undiano. Dr. Bairaktarova discusses her research and focuses on design thinking and the human experience.

This one-on-one lively forum features people who are making a difference in the world—scientists, educators, humanists, writers, and artists. The goal is to focus on people who function as “bridge builders,” or people in the culture who are making important connections between areas of knowledge.Each week the show finds relevant connections between people and areas of knowledge that really matter and gives its viewers a close-up perspective on important developments changing the world around them.

“I hope people will watch the show and be delighted at the research that’s being done at the University of Oklahoma,” Davis-Undiano said. “It’s a chance to meet some accomplished and brilliant people.”

Bairaktarova’s Research

Design Thinking

Designers

 

 

The School of Aerospace and Mechanical Engineering honored outstanding students at the spring luncheon on Friday, April 24, 2015. Both aerospace engineering and mechanical engineering awarded sophomores, juniors and seniors.

DSC_3708Pictured from left to right: Corbin Graham, Senior in Aerospace Engineering; Kyle Smith, Sophomore in Mechanical Engineering; Austin Burrus, Junior in Mechanical Engineering; Tayera Ellis, Sophomore in Aerospace Engineering; Adam Dachowicz, Senior in Mechanical Engineering; Nathan Justus, Junior in Aerospace Engineering; Richard Vollmeier, Sophomore in Aerospace Engineering; Alexander Spens, Junior in Aerospace Engineering; and Ethan Murphy, Senior in Mechanical Engineering.

Congratulations to the 2015 AME Outstanding Students!

On Thursday, April 30, 2015 the School of Aerospace and Mechanical Engineering hosted the annual Capstone Senior Design Poster Fair in Devon Energy Hall and the ExxonMobil Lawrence G. Rawl Engineering Practice Facility. A total of 28 senior teams participated in the poster fair. These student groups have been working on their capstone research throughout their senior year. Students presented their posters to a group of judges who later selected the outstanding teams in each category. The categories consisted of aerospace engineering, prototype design, studies, testing, interdisciplinary and vehicle design. Click here to see the project summaries.

Aerospace Engineering:

JNB_09671st Place Aerospace Engineering: Design/Build/Fly Speedfest-Cody Shell, Justin Parks, Josiah Lund, Austin Jones and Di Zhu

JNB_09662nd Place Aerospace Engineering: Lockheed Martin Supersonic Business Jet-Corbin Graham, Allison Parker, Kylie Richardson, Ashley Carpenter, Blake Riojas

JNB_09833rd Place Aerospace Engineering: Northrop Grumman Scale Model of Reusable Spaceplane-Jared Repplinger, Andrew Hawkins, Evgeniy Ilichev, Resen Praytor, Kegan Duplechin

Mechanical Engineering:

JNB_0938Outstanding Prototype Design: Baker Hughes Alternate Closure Mechanisms for Safety Valves-Antonio Marquez, Andrew Roberts, Patrick Wood, Jeffrey Walker, William Maez

JNB_0942Outstanding Prototype Design: Trek Bicycle Corporation Pedal-Centered Sealed Gearbox System-William Cook, Morgan Andersen, Allicyn Berka, Clayton Stich

JNB_0952Outstanding Interdisciplinary: Baker Hughes Production Decline in Shale Wells-Eric Douglas and Bryan Bodie

JNB_0948Outstanding Vehicle Design: Sooner Off Road-Ray King and James Patrick Dunbar

JNB_0946Outstanding Testing: Schlumberger Design of an Experimental Setup to Measure High Temperature Shear Strength of Polymeric Materials-Robert Marcham, Brian Rockwell, Braden Hobaugh, John Shetley, Mohammed Abu Alrahi

JNB_0944Outstanding Studies: Cameron Valve Seat Analysis and Redesign-Conor McBride, Daniel McCaskill, Melissa Oestmann, Benjamin Schoen and Joshua Woodward

To view the full album from the poster fair, please click here.

Congratulations to all the outstanding groups and all the seniors on their success as undergraduates at OU and AME. We wish you the best in your future endeavors and your engineering careers!

BOA SP 15 Cropped

The School of Aerospace and Mechanical Engineering Board of Advisors attended their annual spring meeting on Friday, April 24, 2015. The BOA had a busy day with a full agenda. They held their meeting in the Hitachi Conference Room in Felgar Hall. In addition, they attended the Senior Luncheon at the Fred Jones Jr. Museum of Art. Dave Bert, BOA Chair, was the keynote speaker for the event. Thank you to all for making the day a success!

Jivtesh GargDr. Jivtesh Garg, AME Assistant Professor, and fellow research members recently developed a model that explains how heat flows between objects separated by gaps of less than a nanometer. The team has developed an atomistic framework that successfully predicts the magnitude of heat transfer across all gaps ranging from finite sizes all the way to perfect contact. The work overcomes the shortcomings of previous continuum based models which predict a diverging behavior at short length scales.

Through this model the team demonstrated that at gaps of few atomic layers, lattice vibrations (phonons) can tunnel through (normally associated with conduction heat transfer) in addition to heat transfer through evanescent electromagnetic modes (near-field radiation) blurring the separation between conduction and radiation at short length scales. By using microscopic Maxwell’s equations energy transfer was directly expressed in terms of short-range forces and long-range Coulomb forces between atoms on either side of a gap avoiding the need for use of any bulk macroscopic properties such as the dielectric constant. Such a purely atomistic framework of describing heat transfer can also benefit from ab-initio calculations that provide short-range interactions through solution of the underlying quantum-mechanical problem.

The work has implications for practical applications where heat transfer at small gaps is becoming increasingly relevant such as heat-assisted magnetic recording and nano-structured aerogel materials. By providing an accurate atomistic description the work also paves way for development of non-local dielectric constant which can be integrated into continuum models allowing an easier prediction of thermal transport at these small gaps.

The research team is made up of Vazrik Chiloyan, Massachusetts Institute of Technology; Keivan Esfarjani, Rutgers University; Gang Chen, Massachusetts Institute of Technology; and Jivtesh Garg. To view the paper regarding the team’s work, please click here. Additionally, the team’s work was recently featured in MIT News.

DSC_3618On Wednesday, April 15, 2015, Dr. Raman P. Singh visited AME for a seminar presentation. His seminar  was titled, Quantitative Atomic Force Microscopy as a Tool to Study Heterogeneous Materials.

Dr. Singh visited from Oklahoma State University where he is the Associate Dean of Academic Affairs, Director of the Helmerich Research Center and C.F. Colcord Professor in the College of Engineering, Architecture and Technology.

Bio: Dr. Raman P. Singh is a C.F. Colcord Professor of Mechanical & Aerospace Engineering and currently serves as the Associate Dean for Academic Affairs for the College of Engineering, Architecture and Technology at Oklahoma State University. He is also the Director of the Helmerich Research Center at the OSU-Tulsa campus. He holds M.S. and Ph.D. degrees in Mechanical Engineering and Applied Mechanics from the University of Rhode Island and a B.Tech. degree from the Indian Institute of Technology from Kanpur, India. Prior to joining OSU in 2006, Singh was a faculty member at the State University of New York at Stony Brook. Before working in New York, he was a post-doctoral scholar at the California Institute of Technology.
Singh’s academic interests are in student mentorship, development and retention with a focus on new pedagogical methods. His research interests are in the mechanics of advanced materials with an emphasis on the investigation of modern engineered materials and development of new techniques for mechanical characterization at highly localized length scales. Besides academia, Raman enjoys road-trips, being a life-long student, photography and spending time with his two daughters.

Abstract: This seminar presented the use of quantitative atomic force microscopy based indentation to characterize the mechanical properties of a carbon fiber–epoxy matrix interphase at highly localized length scales. Atomic force microscopy is a valuable tool for qualitative characterizations of material surfaces. Nonetheless, its application to quantitative measurements is hampered by various technical issues. Accordingly, the talk will discuss how issues such as spring calibration, tip geometry, surface roughness and substrate effects were taken into account to obtain accurate quantitative mechanical proper ties of interphase region.
Lastly, the seminar discussed the use of surrogate modeling to characterize non-linear viscoelastic materials based on inverse analysis of indentation data. In this form, the technique can be extended to study mechanical properties complex biological structures such as the ear-drum (or tympanic membrane) or the heart wall.

celesteCongratulations to Celeste Clary as she was named the Outstanding Underclassmen Student during the Society of Women Engineers (SWE) Week. Celeste is a sophomore studying mechanical engineering. She is from League City, Texas.

Congratulations from all of us at AME! Keep up the great work!

 

On Monday, April 6, 2015, the Space Systems and Mission Design class of the School of Aerospace and Mechanical Engineering hosted Mr. Keith Reiley, a Boeing Project Manager. Mr. Reiley spoke with students about current projects and advancements in the space industry, including some current projects at Boeing. Mr. Reiley is a University of Oklahoma graduate from 1982 with a degree in Engineering Physics.

Keith Reiley is currently the Boeing Commercial Crew Transportation System Program Manager. He has been managing the development efforts for Boeing’s Commercial Crew program since it’s inception in 2009. Prior to working at Boeing, Mr. Reiley was Director of the NASA ISS Mission Integration office, responsible for overall configuration and assembly planning, management of assembly missions and integration of international partners.

Next Page →

Follow

Follow this blog

Get every new post delivered right to your inbox.