Diana Lados, associate professor of mechanical engineering at WPI and founding director of the university’s Integrative Materials Design Center (iMdc), received the inaugural Constance Tipper Silver Medal from the World Academy of Structural Integrity at the academy’s International Conference on Fracture, held in Beijing June 16-21. The medal, which recognizes international achievement at mid-career, will be awarded once every four years. Lados was honored for her outstanding and seminal research, her technical accomplishments and pioneering contributions with worldwide impact in the fields of metal fracture and fatigue, and her successful efforts to transfer knowledge to industrial applications.
The medal is named for a pioneering British metallurgist and crystallographer who was the first person to use a scanning electron microscope for studies of fracture and who identified the cause of brittle fracture that plagued World War II Liberty Ships. It was also presented to Dame Julia King, vice chancellor of Aston University in Britain, and Namrata Gundiah, a professor at the India Institute of Science.
“This new recognition of Professor Lados’s contributions to the field of metal fracture and fatigue serves to underscore both the importance of the field to the future of modern materials within mechanical engineering and the numerous and significant advances that are coming out of Professor Lados’s laboratory,” said David Cyganski, WPI’s dean of engineering.
Lados studies the fundamentals of fatigue, fatigue crack growth, creep, and fracture in metals, as well as component design and materials and process optimization for failure prevention and increased reliability and sustainability in automotive, aerospace, marine, and military applications. In 2012 she received a five-year, $525,000 National Science Foundation CAREER Award (the agency’s most prestigious award for young faculty members) for a study that seeks to develop a comprehensive understanding of the initiation and propagation of fatigue-related cracks, along with unified fatigue-life predictive methods and tools. The knowledge and tools will permit designers to more confidently use light metals like aluminum, titanium, and magnesium in transportation applications. In addition to enhancing performance, a major goal is to increase the use of light metals in cars, trucks, airplanes, and boats, which will result in greater fuel economy and reduced greenhouse gas emissions.
In recognition of this pioneering research, ASM International, the materials information society, presented Lados with the Silver Medal of the Society in 2012. The award, the society’s most distinguished honor for mid-career professionals, recognizes outstanding contributions to materials science and engineering, leadership, and service to ASM and the materials profession.
A full-time faculty member at WPI since 2006, she is the founder and director of iMdc, an industry-government-university research and educational alliance dedicated to advancing the state of the art and practice in sustainable materials-process-component design and manufacturing for high performance, reliability, and recyclability. The center’s nearly 25 members include some of the world’s largest manufacturing companies and several government organizations and national laboratories.
In addition to her recent honors, Lados has won numerous accolades for her work as a researcher and educator. In 2010 she became the first WPI professor selected to participate in the National Academy of Engineering’s (NAE) prestigious U.S. Frontiers of Engineering symposium; the NAE also selected Lados to participate in the Frontiers of Engineering Education symposium that same year. This experience inspired her to inaugurate the Frontiers of Engineering Education-Educational Innovation Seminar Series at WPI, which features talks by national leaders in engineering teaching and learning, and promotes pioneering practices in engineering education. In 2012 she was chosen to participate in the NAE Japan-America Frontiers of Engineering symposium.
Also in 2010, she received The Minerals, Metals & Materials Society’s (TMS) Robert Lansing Hardy Award, which honors young metallurgists who demonstrate “exceptional promise of a successful career in the broad field of metallurgy and materials science.” In 2011, she received the TMS Early Career Faculty Fellow Award for accomplishments that have advanced WPI and broadened the technological profile of TMS. As the recipient of this award, Lados launched “Integrative Materials Design: Performance and Sustainability,” a symposium series she organizes every three years at the TMS annual meeting.
She was named to Foundry Management & Technology magazine’s 2009 list of Metalcasting’s Next Generation of Future Leaders, and in 2008 she received the Orr Early Career Award and the Orr Best Paper Award from the Materials Division of the American Society of Mechanical Engineers (ASME).
Lados was the only woman on a team of five leaders in her field selected in 2011 to participate in a Department of Energy program to identify areas where materials science and engineering will shape research and business opportunities in the next decade. In March 2012 she was one of 20 New England women honored by Mass High Tech as Women to Watch. The awards honor women in various fields of technology for notable contributions to their professions and leadership in their communities.
She received the 2011 Kalenian Award from WPI’s Collaborative for Entrepreneurship and Innovation for her development of novel hybrid materials, WPI’s Sigma Xi Outstanding Junior Faculty Researcher Award, the Axel Madsen Award from the Center for Powder Metallurgy Technology, the Sigma Xi Graduate Research Scientific Award for the best PhD thesis, the American Foundry Society’s Aluminum Division Scholarship Award, and the ASM Worcester Chapter Chester M. Inman Award.
Lados earned BS and MS degrees in mechanical engineering at Polytechnic University of Bucharest, an MS in mechanical engineering at Southern Illinois University at Carbondale, and a PhD in materials science and engineering at WPI. She has published more than 60 articles and one book chapter and delivered more than 125 conference and industrial presentations and invited lectures on such topics as design and optimization of materials and processes for fatigue, fatigue crack growth, creep and fracture resistance, and fracture mechanics; advanced materials and processes for energy and nuclear applications; solidification processing and heat treatment; and aluminum foundry engineering.
About Worcester Polytechnic Institute
Founded in 1865 in Worcester, Mass., WPI was one of the nation’s first engineering and technology universities. Its 14 academic departments offer more than 50 undergraduate and graduate degree programs in science, engineering, technology, business, the social sciences, and the humanities and arts, leading to bachelor’s, master’s and doctoral degrees. WPI’s talented faculty work with students on interdisciplinary research that seeks solutions to important and socially relevant problems in fields as diverse as the life sciences and bioengineering, energy, information security, materials processing, and robotics. Students also have the opportunity to make a difference to communities and organizations around the world through the university’s innovative Global Perspective Program. There are more than 30 WPI project centers throughout North America and Central America, Africa, Australia, Asia, and Europe.
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