On Friday, October 20, the College of Engineering at the University of Massachusetts Amherst will hold its eighth annual Outstanding Alumni Awards Celebration during Homecoming Weekend. The college’s celebration will be held in the Marriott Room on the 11th floor of the Campus Center at UMass Amherst. The Homecoming Reception & Awards Celebration will begin at 4:30 p.m. During the reception, the College of Engineering will present its Outstanding Senior and Junior Alumni Awards to eight individuals who, through exemplary accomplishments, epitomize the potential of an education at the UMass Amherst College of Engineering.
Happy fall! We are delighted to share with you the extraordinary achievements of the MIE students and faculty for the 2016-2017 calendar year, as well as the fantastic growth of the department, both in faculty hiring and enrollment.
In 2011 the department graduated 83 undergraduate students. In 2016, we graduated 192 students. This represents 131 percent growth over five years, an astonishing statistic by any measure. Mechanical Engineering is the largest major in the College of Engineering, and we are proud of our students’ success: for the class of 2016, 92 percent of our graduates reported having either a job or going to graduate school within six months of graduation, with an average starting salary of $63,000.
Professor Erin Baker of our Mechanical and Industrial Engineering Department and her doctoral student Moijue Kaikai have secured a $160,000 grant from the Massachusetts Clean Energy Center to fund a sustainable-energy project carried out collaboratively by UMass Amherst and the Springfield High School of Science and Technology (HSST). The grant will support the establishment of a so-called Learn and Earn Program while generating interest in the renewable energy field. The funded program will not only install a solar panel and wind turbine on the HSST campus but will also create an engineering and sustainability class for 25 high-school students and an eight-week, summertime, paid internship in hands-on clean energy for those students.
The number of persons newly infected with the human immunodeficiency virus (HIV) in the U.S. is about 50,000 each year and has not decreased since the late 1990s. To address this critical problem, the first National HIV/AIDS Strategy (NHAS) was developed in 2010, with a goal to reduce incidence by 25 percent by 2015; but, since that goal was never met, it was delayed until 2020. Now Professor Chaitra Gopalappa of our Mechanical and Industrial Engineering (MIE) Department is receiving a grant of $1,567,348 from the National Institutes of Health (NIH) to answer several critical questions posed by the NHAS and to develop a new model and methods necessary for analyses of these crucial problems.
Jae-Hwang Lee, the head of the Nano-Engineering Laboratory in the UMass Amherst Mechanical and Industrial Engineering (MIE) Department, is a member of a multi-institutional and multi-disciplinary team of researchers who co-authored a fundamental materials research article on cold spray additive manufacturing published in the prestigious journal Nature Scientific Report. Cold spray is a materials consolidation process that utilizes micron-sized particles and accelerates them at supersonic velocities through a de Laval rocket nozzle. The impacting particles undergo extreme plastic deformation and then consolidate, thus forming a dense coating with a near net-shaped quality.
Neural tube defects are among the most common birth defects and affect more than 500,000 infants worldwide each year, resulting in severe health problems, including paralysis of legs, brain damage, and even death. Now Professor Yubing Sun of our Mechanical and Industrial Engineering Department has received a $400,000 grant from the National Science Foundation to develop a series of engineered tools to enable the investigation of the poorly understood mechanism that causes neural tube defects.
At the 38th annual Society of Automotive Engineers (SAE) Supermileage Competition on June 8 and 9, the UMass team scored an impressive fourth place out of 20 collegiate teams by hitting 775 miles per gallon on the 9.6-mile course at the Eaton Proving Grounds in Marshall, Michigan. See competition website. Though this fourth-place finish was equal to the best ever done by the UMass Supermileage Vehicle (SMV) in recent years, the effort was marred by a fuel leak that cost our team some crucial miles per gallon.
Professor Erin Baker of the Mechanical and Industrial Engineering (MIE) Department at the University of Massachusetts Amherst has been approved by the university system’s Board of Trustees to receive the Armstrong Professional Development Professorship. The Armstrong Professorship was established in 2001 with an endowment of $850,000 by John and Elizabeth Armstrong of Amherst and a $650,000 matching grant from the University of Massachusetts President’s Distinguished Professorship Initiative. It is awarded for a three-year period “to a faculty member who is at the beginning of his/her career and has demonstrated substantial achievement and great promise in his/her area of teaching and research.”
Professor Erin Baker of the Mechanical and Industrial Engineering Department recently published an article discussing ways to focus clean energy funding that will produce the greatest energy and environmental benefits within the constraints of a tight federal budget. Baker’s article, posted May 22 on the website of The Conversation, was also picked up by the Albany Times Union, San Francisco Chronicle, Pantagraph.com, and others. The headline of Baker’s article was “With a tight federal budget, here’s where to focus clean energy research funding.” Read Baker’s entire article in The Conversation.
Rune Percy and Alexander Smith, a student team from the Mechanical and Industrial Engineering Department at UMass Amherst, took second place in the recent elevator-pitch competition at the Awards Ceremony & Banquet for the Harold Grinspoon Charitable Foundation’s Entrepreneurship Initiative. Percy and Smith received a second-place prize of $750, based on their business-concept pitch for ARBioDesign, which aims to save tens of thousands of patients every year by personalizing dialysis treatment using rapid and inexpensive microfluidic blood-diagnostic tests.