• Mechanics
• Design, Manufacturing, & Product Development
• Controls, Instrumentation, & Robotics
• Energy Science & Engineering
• Ocean Science & Engineering
• Bioengineering
• Micro & Nano Engineering
• Research Labs and Programs

Research Laboratories and Programs

The educational opportunities offered to students in mechanical engineering are enhanced by the availability of a wide variety of research laboratories and programs, and well-equipped shops and computer facilities. The department provides many opportunities for undergraduates to establish a close relationship with faculty members and their research groups. Students interested in project work are encouraged to consult their faculty advisor or approach other members of the faculty.

 

Many members of the Department of Mechanical Engineering participate in interdepartmental or school-wide research activities. These include the Biotechnology Process Engineering Center, Center for Biomedical Engineering, Center for Materials Science and Engineering, Computational and Systems Biology Program, Computation for Design and Optimization (CDO) Program, Computer Science and Artificial Intelligence Laboratory, Institute for Soldier Nanotechnologies, Laboratory for Energy and the Environment, Laboratory for Manufacturing and Productivity, Operations Research Center, Program in Polymer Science and Technology, and Sea Grant College Program. More information about each of these can be found in the section on Interdisciplinary Research and Study in Part 1, MIT Bulletin and Interdisciplinary Graduate Programs in Part 2, MIT Bulletin. The department also hosts a number of industrial consortia, which support some laboratories and research projects. Research in the department is supported, in addition, by a broad range of federal agencies and foundations.

Below is a partial list of departmental laboratories, listed according to the seven core areas of research.

• Mechanics: Modeling, Experimentation, and Computation
• Design, Manufacturing, and Product Development
• Controls, Instrumentation, and Robotics
• Energy Science and Engineering
• Ocean Science and Engineering
• Bioengineering
• Micro/Nano Science and Technology

Mechanics: Modeling, Experimentation, and Computation (MMEC)

AMP Mechanical Behavior of Materials Lab
Mechanisms of deformation and fracture processes in engineering materials.

 

Center For Nonlinear Science
Interdisciplinary research into nonlinear phenomena. Incorporates the Nonlinear Dynamical Systems Lab (modeling, simulation, analysis), Nonlinear Dynamics Lab (experiments), and Nonlinear Systems Lab.

 

Composite Materials and Nondestructive Evaluation Laboratory
Development of quantitative nondestructive evaluation characterizations which are directly correlatable with the mechanical properties of materials and structures.

 

Finite Element Research Group
Computational procedures for the solution of problems in structural, solid, and fluid mechanics.

 

Hatsopoulos Microfluids Lab
Fundamental research on the behavior of fluid systems at microscopic scales, and the engineering applications that accrue from it.

 

Reacting Gas Dynamics Laboratory
Fluid flow, chemical reaction, and combustion phenomena associated with energy conversion in propulsion systems, power generation, industrial processes, and fires.

 

Design, Manufacturing, & Product Development

Computer Aided Design Laboratory
Advancing the state of the art in design methodology and computer-aided design methods.

 

Laboratory for Manufacturing and Productivity
The Laboratory for Manufacturing and Productivity (LMP) is an interdepartmental laboratory in the School of Engineering devoted to exploring new frontiers in manufacturing. It has three major goals:

1. The development of the fundamental principles of manufacturing processes, machines, and systems
2. The application of those principles to the innovation of manufacturing enterprises
3. The education of engineering leaders

Current research topics include polymer microfabrication, semiconductor fabrication processes, MEMS, precision engineering, wireless sensors and RFID technologies, data infrastructure, design and management of manufacturing systems and supply chain, photovoltaics, and environmentally benign manufacturing.

 

Martin Center for Engineering Design
Design methodology, design of integrated electrical-mechanical systems, prototype development, advanced computer-aided design techniques.

 

Park Center for Complex Systems
Research to understand complexity, educating students and scholars on complexity, designing complex systems for the benefit of humankind, and disseminating knowledge on complexity to the world at large.

 

Precision Compliant Systems Lab
Fundamental and applied research on all aspects of the design, manufacture, and control of high precision machines ranging from manufacturing machines to precision consumer products.

 

Precision Engineering Research Group
Fundamental and applied research on all aspects of the design, manufacture, and control of high precision machines ranging from manufacturing machines to precision consumer products.

 

Controls, Instrumentation, & Robotics

Active-Adaptive Control Laboratory
Research on adaptive control, theory and applications to propulsion and transportation, active control, theory and applications to flow and combustion.

 

Auto-ID Center
Creation of the "Internet of Things" using radio frequency identification and wireless sensor networks, and of a global system for tracking goods using a single numbering system called the Electronic Product Code.

 

D'Arbeloff Bio and Robotics Lab
Research on mechatronics, home and health automation, interface between hardware and software, and development of sensing technologies.

 

Field and Space Robotics Laboratory
Fundamental physics of robotic systems for unstructured environments. Development, design, and prototyping of control and planning algorithms for robotic applications, including space exploration, rough terrains, sea systems, and medical devices and systems.

 

Nonlinear Systems Laboratory
Analysis and control of nonlinear physical systems with emphasis on adaptation and learning in robots.

 

Robotic Mobility Group
The Robotic Mobility Group researches a wide variety of issues related to mobile robotic systems, with an emphasis on modeling, design, sensing, and control of these systems.

 

Energy Science & Engineering

Center for 21st-Century Energy
Innovative science and technology for a sustainable energy future. Fundamental research in transport phenomena and thermodynamics; applied research in energy conversion, transportation, and thermal management. Draws upon activities in several of the department's laboratories.

 

Cryogenic Engineering Lab
Application of thermodynamics, heat transfer, and mechanical design to cryogenic processes and apparatus and the operation of a liquid helium facility.

 

Electrochemical Energy Lab
Engineering of advanced materials for lithium batteries, proton exchange membrane and solid oxide fuel cells, and air battery and fuel cell hybrids.

 

Fuel Cell Laboratory
Innovation in the design of fuel cells and in the application of fuel cell technology for energy conversion in stationary and portable power plants.

 

Sloan Automotive Laboratory
Processes and technology that control the performance, efficiency, and environmental impact of internal combustion engines, their lubrication, and fuel requirements.

 

W. M. Rohsenow Heat and Mass Transfer Laboratory
Fundamental research in convection, microscale/nanoscale transport, laser/material interaction, sprays, and high heat fluxes; applied research in materials processing, fluidized bed combustors, energy-efficient buildings, and thermal management of electronics.

 

Ocean Science & Engineering

Acoustics Group
Research in ocean acoustics, acoustic sensing for naval applications, fisheries, ocean exploration and mapping, ocean observation systems, signal processing, and detection in the underwater environment.

 

Center For Ocean Engineering
Provides an enduring ocean engineering identity, giving visibility to the outside world of MIT's commitment to the oceans, and serves as the focus point of ocean-related research at the Institute. Supports the research activities of the MIT/WHOI Joint Program in Oceanographic Engineering and the Naval Construction and Engineering Program.

 

Design Laboratory
Research in biomimetics, robotics, naval architecture, ship and offshore structure design, computer-aided design and manufacturing, geometric modeling and computer visualization, distributed systems for ocean forecasting, adaptive ocean sampling methodologies, cable and riser dynamics and design, and marine transportation. Affiliated with the MIT Sea Grant Autonomous Underwater Vehicles Lab.

 

Hydrodynamics Group
Includes the Marine Hydrodynamics Laboratory (Propeller Tunnel) and the Testing Tank Facility (Towing Tank); the Vortical Flow Research Laboratory; the Experimental Hydrodynamics Laboratory; the Laboratory for Ship and Platform Flows; and the Marine Computation and Instrumentation Laboratory. Research areas include experimental fluid mechanics, vortex-induced hydrodynamic loads, seakeeping, maneuvering and control, computational fluid dynamics, hydrodynamic load prediction, performance evaluation of ocean vehicles, wave-field analysis and prediction, propulsor system design, marine robotics, biomimetics, air-sea interaction, and advanced sailing-boat design.

 

Multidisciplinary Ocean Dynamics and Engineering Laboratory
The research is concerned with the understanding and modeling of complex physical and interdisciplinary oceanic dynamics and processes. It is based on the utilization and development of new mathematical models and computational methods for ocean predictions and dynamical diagnostics, for optimization and control of autonomous ocean observation systems, and for comparisons and combinations of models with data.

 

Structural Dynamics Laboratory
Emphasis on vortex induced vibrations and riser dynamics.

 

Structural Mechanics and Dynamics Group
Includes the Impact and Crashworthiness Laboratory, with emphasis on structural mechanics of large complex structures, impact loads and weapon effects on structures, and crashworthiness.

 

Bioengineering

BioInstrumentation Laboratory
Utilization of biology, optics, mechanics, mathematics, electronics, and chemistry to develop innovative instruments for the analysis of biological processes and new devices for the treatment and diagnosis of disease.

 

Human and Machine Haptics Lab
Interdisciplinary studies aimed at understanding human haptics, developing machine haptics, and enhancing human-machine interactions in virtual reality and teleoperator systems.

 

International Consortium for Medical Imaging Technology
Development and implementation of information technology that will lead to improved medical diagnosis and health care as well as reductions in costs.

 

Laboratory for Biomechanics of Cells and Biomolecules
Development of new instruments for the measurement of mechanical properties on the scale of a single cell or single molecule to better understand the interactions between biology and mechanics.

 

Micro & Nano Engineering

Pappalardo UG Teaching labs
Creation of new engineering knowledge and products on the nano and micro scale through multidomain, multidisciplinary, and multiscale research.