1 / 8

Division of Civil, Mechanical and Manufacturing Innovation (CMMI)

Enabling research and education for national civil infrastructures, manufacturing sectors, and service industries. Cluster focus on materials transformation and mechanics, engineering infrastructure systems, and innovation sciences and decision engineering.

bettsl
Download Presentation

Division of Civil, Mechanical and Manufacturing Innovation (CMMI)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Division ofCivil, Mechanical and Manufacturing Innovation(CMMI)Dr. Adnan AkayDivision Director

  2. To enable research and education that contribute to the integrity and security of national civil infrastructures and improves the competitiveness of the nation’s manufacturing and service sectors. Mission

  3. Mechanics and Structures of Materials (K. Chong) • Infrastructure Materials and Structural Mechanics (P. Balaguru) • Geomechanics and Geotechnical Systems (R. Fragaszy) • Nano Mechanics and Bio Mechanics (J. Hsia) • Materials Design and Surface Engineering (C. Cooper) • Materials Processing and Manufacturing (M.L. Realff) • Nanomanufacturing (C. Doumanidis) • Geoenvironmental Engineering and Geohazards Mitigation (R. Fragaszy) • Information Technology and Infrastructure Systems (E. Jaselskis) • Infrastructure Management and Hazard Response (T. Birkland) • Structural Systems and Hazard Mitigation of Structures (D. Foutch) • Manufacturing Machines and Equipment (G. Hazelrigg) • Network for Earthquake Engineering Research and Simulation (J. Pauschke) • Control Systems (M. Rotea) • Dynamical Systems (E. Misawa) • Engineering Design (J. Vance) • Manufacturing Enterprise Systems (A. Deshmukh) • Operations Research (S. Nash) • Service Enterprise Engineering (M. Realff) • Sensor Innovation and Systems (S-C. Liu) Civil, Mechanical and Manufacturing Innovation Division Director: Adnan Akay Deputy Division Director: George Hazelrigg Materials Transformation and Mechanics Cluster Engineering Infrastructure Systems Cluster Innovation Sciences and Decision Engineering Cluster

  4. A Novel Biologically Inspired Painless Blood Collection Method (NCSU) • NSF Award CMMI-0402857, Mechanics and Structures of Materials • Study of the anatomy, structure and materials of the mosquito fascicle as a model for painless a hypodermic needle • Finite element modeling shows penetration is facilitated by a downward force together with a lateral oscillation to prevent buckling • Results will allow for future work in polymeric micro-needle based systems and integration with MEMS devices

  5. Integrated Sensory Feedback for Artificial Muscles (MSU) • NSF Award CMMI-0550651, Control Systems • Creation of mathematical models to control precisely the displacement and force generated by artificial muscles • Ionic polymer composites that produce bending motions at low voltages • Integration of sensing and control for artificial muscles • Polyvinylidene fluoride piezoelectric films for sensors • Sensors/actuators being used for auto-injection of living Drosophila embryos for study • Enables safe manipulation of small and delicate objects in biological studies and micro/nanofabrication

  6. Intensity Modulated Radiation Therapy (UFL) • NSF Award CMMI-0457394, Service Enterprise Engineering • New models for issues associated with Intensity Modulated Radiation Therapy (IMRT) treatment delivery efficiency and quality • Allows for adaptive treatment planning: treatment plans adjusted daily for needs of patient • New approach for optimal beam directions for individual treatment • Greater options for treatment based on potential beam directions

  7. Increasing Feed Cyclic Curled Chip Formation A Hybrid Predictive Model for Cyclic Curled Chip Formation with Serrations in Machining Using Topological Properties (UKY) • NSF Award CMMI-0606586, Manufacturing Machines and Equipment • Develop a mathematical model for predicting, simulating and animating the cyclic chip formation process in metal machining • Data are being used to correlate topological (e.g. chip length, grain density) parameters to predict the quality of the product with machining variables • Determined the change in grain boundaries by correlating the geometrical transformations during machining to the topological parameters 1000 0C Temperature field 25 0C Chip formation process Process Variables

  8. Looking to the Future • Support the ACI through research in design and manufacturing • IWG on Manufacturing Research • Workshops planned to energize ME & IE communities (M. Good, C.D. Mote, Jr., A. Ulsoy,…) • Strengthen national civil infrastructure • Workshops planned to energize CE communities (R. Luthy, G. Fenves, T. O’Rourke,…) • Strengthen core research programs, particularly through cross-fertilization • Provide opportunities for innovation • Particular attention through SGER • Investigate graduate/post doc fellowships to work in “innovation factories” (e.g., Bob Langer’s lab, George Whiteside’s lab) • Internal discussions on research programs and directions.

More Related