Page 43 - ASME IMECE 2018 Program
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TRACK PLENARY
of Pennsylvania, he has received the Reid Warren Award and where he ensured that the technologies transitioned to the
the Lindback Award for Distinguished Teaching. In 2014, he products are technically sound and meet customer
was celebrated with a Festschrift on his 70th birthday (P. requirements. Prior to this assignment, he was the director for
Ayyaswamy’s 70th Birthday Tribute: Special Sessions on I – enterprise manufacturing technology strategy and before that
Interfacial Fluid Dynamics, and II – Devices and Modeling for the structures and materials technology strategy. Dr. Bicos
Nanoparticles) at the 7th World Congress of Biomechanics, joined the company in 1987. His prior assignments include
Boston, MA. He was also elected (2014) to the governing board project leadership positions within the Boeing Satellite Systems
of the American Society for Gravitational and Space Research. engineering design and analysis directorate, Delta rocket
program mission assurance, and two years in supply chain
Track 10: Heat Transfer management. Prior to the Boeing and McDonnell Douglas
merger in 1997, he was senior manager responsible for
10-64-2 HEAT TRANSFER AND THERMAL advanced structures R&D for the McDonnell Douglas Phantom
Works organization in which he specialized in composites and
ENGINEERING PLENARY II adaptive/multifunctional structures technology. Dr. Bicos has
published more than 20 technical papers and articles on
Tuesday, November 13, 9:00am–9:45am innovative composites, adaptive structures, and vibration
Room 306, David L. Lawrence Convention Center reduction technologies. He has two patents, one for composite
damage detection and the other for a structural damping
Aerospace Thermal Management: Challenges and device. He has received a B.S. in engineering and a MBA from
Opportunities UCLA, as well as a M.S. and Ph.D. in aeronautics and
(IMECE2018-90103) astronautics from Stanford University. He has held positions on
the AIAA Structural Dynamics and ASME Adaptive Structures
Andrew Bicos and Material Systems technical committees and is a former
Office of Congressman Tom Reed (NY-23) chairman of the ASME Aerospace Division. He is an Associate
Fellow of the AIAA and the immediate past chair of the ASME
Abstract: This talk is focused on providing an overview of Industry Advisory Board.
thermal technology solutions for broader aerospace
applications, which include hypersonic vehicle, commercial Track 11: Materials Genetics to Structures
and military aircrafts, satellite and spacecraft systems, along
with emerging areas of hybrid propulsion and more electric 11-23-1 MATERIALS: GENETICS TO STRUCTURES
aircraft architecture. The anticipated thermal and power growth
in aerospace systems in coming years is driving the need for PLENARY I
ever efficient, reliable, and affordable heat dissipation, storage, Tuesday, November 13, 8:00am–8:45am
and waste heat to power conversion technology, capable of
managing thermal energy at the multi MW level. There is need Room 307, David L. Lawrence Convention
for an interdisciplinary and multifunctional research and Center
product development approach to meet 21st century space
and aviation challenges. Recent advances in materials and Biological Materials and Mechanics: Challenges and
advanced fabrication methods (including additive Opportunities
manufacturing) have opened up significant design (IMECE2018-90108)
improvement possibilities for development of “next generation”
high performance, integrated thermal management solutions. Marc A. Meyers
Applications of this approach are illustrated by selective UC San Diego
examples, such as structurally integrated thermal management
for hypersonic vehicle, air/liquid cooling, and thermal energy Abstract: Biological materials science is a new and vibrant field xli
storage devices for pulsed power systems and use of novel of materials science and engineering. Although biologists have
lightweight 3D printed materials in aircraft, satellite, and been studying organisms for centuries, it is only recently that
spacecraft systems. Finally, the need for synergetic materials scientists have started to use their fantastic
collaboration among academia, industry, and government experimental, computational, and analytical arsenal of tools
research organizations is emphasized for rapid development to reveal new features. This talk presents the Arzt eptahedron,
of economically viable, next generation thermal technologies which defines seven unique and defining characteristics of
for aerospace applications. biological materials. The plethora of different structures and
mechanical properties of biological materials is systematized
Bio: Dr. Bicos is on leave from The Boeing through a new paradigm: eight structural design elements,
Company. His previous assignment was in which are motifs appearing on different species and scales,
Boeing Research & Technology, where he and which enable analytical treatment and lead to enhanced
was director of the performance technology understanding. We have applied this approach to approximately
strategy, where his responsibilities included twenty different organisms. We illustrate our approach by
developing the enterprise strategy for all applying this knowledge to the toucan beak, rabbit and pig
flight sciences R&D at Boeing and managing the portfolio skin, fish scales, pangolin scales, and feathers. Current efforts
of activities that develop and transition technologies and at bioinspired materials and designs, including feathers, whale
processes into Boeing’s wide array of products. He was also baleen, seahorse tail, and gar scales, are also discussed.
the chief engineer for the aeromechanics technology team,
