Assistant Professor, Aerospace Engineering, Physics, and Space Science, Mechanical and Civil Engineering
Kimberly B. Demoret, Ph.D., P.E., is responsible for the Aerospace Engineering Capstone Design curriculum at the Florida Institute of Technology. Prior to joining the university in 2015, she spent nine years working at Kennedy Space Center on development of launch systems in support of NASA's space exploration goals. She also spent 20 years as an officer in the US Air Force working in many fields, including space launch, aerospace ground test, flight dynamics research, and system acquisition. Her thesis and dissertation addressed vibration suppression techniques appropriate for aerospace applications, including constrained layer damping and the introduction of local modes in large space structures. Her current area of research is Engineering Education.
Ph.D. Aerospace Engineering, Air Force Institute of Technology
M.S. Mechanical Engineering, Arizona State University
B.S. Mechanical Engineering, University of Colorado, Boulder
Professional Engineering Liscence (Mechanical Engineering - Florida)
American Society of Engineering Education Annual Conference, Best Paper Award, Mechanics Division (2018)
NASA Exceptional Engineering Achievement Medal, 2011
NASA Astronauts Personal Achievement Award ("Silver Snoopy") 2010
Air Force Reconaissance System Program Office Senior Professional of the Year 1999
Air Force Flight Dynamics Directorate Supervisor of the Year 1997
“Vibration Damping Method for Cylindrical Members” Air Force Invention Award #21150 (S/N 08/456,970) (1995)
MAE2081 Engineering Mechanics: Statics
MAE 3291: Aerospace Junior Design
MAE 4291: Aerospace Senior Design I
MAE 4292: Aerospace Senior Design II
2006-2015 Systems/Safety/Test Engineer Kennedy Space Center, FL.
(NASA Engineering Support contracts with ASRC Aerospace and QinetiQ/Vencore Corporation)
• Awarded NASA Exceptional Engineering Achievement Medal and Space Flight Awareness “Silver Snoopy” Award for improving safety and reliability of launch hardware designs. Wrote ~600 pages of mission assurance documentation, engineering analyses and trade studies.
• Wrote the trade study used to decide NASA's approach to developing the Mobile Launcher (ML) for the new Space Launch System (SLS), showing it was technically feasible and more cost effective to modify the newly fabricated Constellation ML instead of modifying a Shuttle MLP or fabricating an all-new launcher.
• Developed Statements of Work to redesign the Ares ML structure to support the new SLS launcher, and worked with 33 NASA design teams to define installation requirements for Ground Support Equipment required for launch- overall effort estimated at $175 million.
• Supervised 10 engineers at NASA's Launch Equipment Test Facility (LETF). Led modernization efforts and worked with customers to design tests for ground equipment and flight hardware.
Skills/Knowledge Acquired: Refined expertise in space launch systems, steel construction, and safety and reliability analyses. Obtained professional engineering licensure in the state of Florida,
1998- 2001 Chief, Treaty Monitoring Programs Branch Patrick Air Force, FL.
United States Air Force, Detachment 3, Aeronautical Systems Center (ASC).
• Principal architect and Program Manager for $160,000,000 effort to upgrade and sustain a worldwide data acquisition system for monitoring nuclear test ban treaty compliance.
• Developed initial acquisition concept, managed source selection, then successfully executed the program for its first year. Supervised 11-member team and worked closely with other functional representatives to successfully execute these efforts.
Skills/Knowledge Acquired: Expanded source selection/program management expertise and advocacy skills. Increased technical insight on seismic monitoring and data collection systems. Held Top Secret / Sensitive Compartmentalized Information (TS/SCI) clearance.
1994-1998 Laboratory Branch Chief Vibration, Acoustics, and Sonic Fatigue Branch
United States Air Force Research Laboratory, Wright-Patterson Air Force Base, OH.
• Supervised 20-member branch and $50 million acoustic test facility. Directed research and development on vibration and acoustic loading, material corrosion, and other causes of structural failures in aerospace vehicles.
• Mentored young officers in performing research on adaptive/flexible wing concepts and vibration suppression designs appropriate for space and aircraft applications.
• Integrated in-house and contracted research efforts to add structural damping to aircraft jet engines after high cycle fatigue failures grounded the USAF fighter aircraft fleet.
Skills/Knowledge Acquired: Subject matter expertise in the areas identified above; experience with Department of Defense applied research; extensive supervisory experience with both civilian and military personnel.
1991-1994 Engineering Doctoral Student Air Force Institute of Technology (AFIT)
United States Air Force, Wright Patterson Air Force Base, OH.
• Researched structural dynamics and optimization of constrained layer damping treatments; work led to three technical papers and the award of US Patent.
Skills/Knowledge Acquired: Expertise in structural dynamics and control theory. Enhanced time management skills and self-discipline.
1989-1991 Test Facilities Manager Arnold Engineering Development Center
United States Air Force, Arnold Air Force Base, TN.
• Managed space simulation and wind tunnel facility testing and modernization efforts, then helped develop a strategic planning office for the Center.
Skills/Knowledge Acquired: Facility management, strategic planning, and advocacy skills.
1987-1988 Engineering Graduate Student Arizona State University, Tempe, AZ.
• Research in damping of large space structures using finite element analysis.
Skills/Knowledge Acquired: Expertise in structural dynamics, vibration, control theory.
1984-1987 Space Shuttle System Engineer Space Launch Complex 6 (SLC-6)
United States Air Force, Shuttle Test Group, Vandenberg Air Force Base, CA.
• System engineer for Space Shuttle ground launch systems (launch umbilicals, access arms, etc) during site activation. Also worked on the processing of the solid rocket boosters.
Skills/Knowledge Acquired: Broad experience in field engineering and mechanical systems.
Engineering Education research on team dynamics as they pertain to capstone design projects (including collaborations with the School of Psychology), retention and motivation of engineering students, enhancement of professional and design skills throughout the engineering curriculum.
Investigating the use of MakerSpaces and design projects as a tool to improve student engagement and support entrepreneurially minded learning.
Demoret, K., J. Schlegel, M. Jensen (2018) Standardizing the Statics Curriculum Across Multiple Instructors,Paper ID #22303, 2018 ASEE Annual Conference & Exposition, Salt Lake City, UT.
Demoret, K. (2018) "Team Time Cards: a Tool to Increase Accountability and Reduce Social Loafing in Capstone Design," 2018 Capstone Design Conference, Rochester New York, 2018.
Demoret, K., K. Nyein, J. Wildman (2018) Capstone Design and Psychology: Teams, Traits, and Competencies Measured in Student Surveys. Paper ID #22302, 2018 ASEE Annual Conference & Exposition, Salt Lake City, UT.
Demoret, K. (2014). Inputs to Design for A&E Modifications for SLS Mobile Launcher GSE Installation, K0000221667-GEN. Requirements document for the NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2013). SLS Mobile Launcher Supplemental Requirements for Structural Modifications, K0000150719-GEN. Requirements document for the NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2013). Structure and Support Systems Requirements for the Design of Mobile Launcher Modifications for the Space Launch System, K0000062933-RPT. Requirements document for the NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2011). 2011 Mobile Launcher Structure Trade Study: Initial Findings, KSC-NE-11477, NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2010). System Assurance Analysis, Ares I First Stage Forward Skirt Umbilical, 892MAA00001, NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2010). System Assurance Analysis, Ares I Service Module Umbilical, 895MAA00001, NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2010). System Assurance Analysis, Ares Upper Stage Liquid Hydrogen and Liquid Oxygen Umbilical, 897MAA00001, NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2010). System Assurance Analysis, Ares Instrument Unit Umbilical, 899MAA00001, NASA Engineering and Technology Directorate, Kennedy Space Center, FL.
Demoret, K. (2004). Chapter 1: A Basic Philosophy of Communication; Chapter 2: Seven Steps to Effective Communication; Chapter 4: Researching Your Topic; Chapter 5: Supporting Your Ideas; Chapter 11: Effective Listening Strategies. Book chapters in United States Air Force Handbook AFH 33-337, The Tongue and Quill.
Torvik, P. and K. Demoret (1996). Complex Rayleigh’s Quotient: A Means of Estimating Loss Factors for Damped Systems. Paper for the 37th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Salt Lake City, Utah, 16 April 1996. (AIAA Paper No. 96-1438)
Siler, D. and K. Demoret (1996). Variable Stiffness Mechanisms with Shape Memory Alloy Actuators. Paper for 1996 SPIE Symposium on Smart Structures and Materials: Industrial and Commercial Applications Conference, San Diego, 24 February 1996.
Demoret, K. and P. Torvik (1995). Optimal Length of Constrained Layers on a Substrate with Linearly Varying Strain. Paper for the ASME 15th Biennial Conference on Vibration and Noise, Boston, MA.
Demoret, Kimberly Balkema (1995). The Barberpole: Constrained Layer Damping for Bending and Torsion. Paper for 1995 SPIE Symposium on Smart Structures and Materials; Passive Damping Conference, San Diego, CA.
Balkema, K. (1994). Analysis and Optimization of Constrained Layer Damping Treatments for Bending and Torsion. Ph.D. Dissertation, Air Force Institute of Technology, 1994.
Balkema, K. (1988). Introduction of Local Modes in Large Space Structures for Vibration Suppression. Master’s Thesis for Arizona State University.