People Category: AIAA SciTech Forum 2022

Mark Maughmer

 

The results of Mark Maughmer’s high school aptitude test dictated he should be an artist, but his aspiration was to be a pilot like his Uncle Royal, who flew a Lockheed P-38 Lightning named “Stardust” in World War II and survived being shot down over Germany. You could argue that what Maughmer became is a cross between the two, a professor of aerospace engineering at Penn State and a member of the tiny international pantheon of glider designers. For Maughmer, the appeal of gliders is partly their elegance – which he contrasts with the indisputably useful but inelegant helicopter.

“If I design something, it has to be pretty,” Maughmer says. “I think I bring an artist’s perspective to engineering.”

Maughmer’s life history can be traced in terms of aeronautics generally and gliders specifically. When he was four years old, his father hoisted him into the pilot seat of a glider at a local airshow. The incident made such an impression that years later, when Maughmer had learned a thing or two about gliders, he remembered enough details to identify the aircraft as a Schweitzer 1-19. Later, his Uncle Royal, by then the curator of the U.S. Air Force Museum, introduced the grade-school-aged Maughmer to such aviation luminaries as World War I flying ace Eddie Rickenbacker, the famous Jimmy Doolittle, and former Air Force Chief of Staff, Carl “Tooey” Spaatz. From an early age, Maughmer built and flew model airplanes, but his intention to join the military and become a pilot was undone by less than 20-20 vision.

As an undergraduate at the University of Illinois, Maughmer arranged his schedule so that he could earn his final credits with a summer course on soaring after his senior year. The identification number of the glider in which he soloed for the first time that August hangs in his office in the Hammond Building on Penn State’s University Park campus, still attached to a piece of fuselage. The relic became available years later when the glider, in the hangar at the time, had what Maughmer calls an “unfortunate encounter with a tornado.”

After earning his bachelor’s degree, Maughmer earned a master’s degree at Princeton with a thesis about wind power “before it was fashionable.” From Princeton, he returned to the University of Illinois where he earned his doctorate in aeronautical and astronautical engineering in 1983.

Today Maughmer designs, analyzes and performs wind-tunnel measurements on airfoils with much of his effort directed toward the aerodynamics of helicopters. In addition, he is involved in the development of methods to minimize the drag of planar and nonplanar wing geometries, has researched natural laminar flow aerodynamics, the use of boundary-layer suction for extending laminar flow, low-Reynolds number aerodynamics, and the aerodynamics of flight controls for hypersonic vehicles.

Buttressed by his academic research, Maughmer’s design work with sailplane racing pilot Peter Masak in the late 1980s and early 1990s literally revolutionized the shape of gliders by making winglets standard equipment.

A winglet is a canted extension to the wingtip that diffuses the swirl of air around it with the goal of reducing overall drag. Winglets had been tried before on gliders but without success, and the common wisdom was that they helped the climb but hurt the cruise. In other words, they reduced drag induced as a consequence of producing lift, but increased profile drag, the inevitable result of adding surface area to the wing. Maughmer was skeptical that a sweet spot – more helpful to climb than hurtful to cruise – could be found, but Masak was insistent, and eventually Maughmer agreed to research winglets’ potential to improve the performance of 15-meter racing sailplanes.

At first, Maughmer and his graduate students tried to use computational tools to predict what the winglets would do, but they found the tools inadequate to the task. “This was frustrating,” he recalls. “It didn’t seem like the problems associated with a low-speed glider should be that hard.” In the end, it was several years of flight testing in collaboration with M&H Soaring in Elmira, N.Y., that enabled the design of winglets whose behavior was predictable enough and helpful enough that they could be incorporated into production-model gliders. Data collected in all that testing also enabled development of more accurate computational models.

Meanwhile, a winglet-equipped glider flown by Masak earned the trophy for highest speed at the 1991 World Gliding Championships in Texas – a speed actually faster than the top speed in the unlimited-span Open Class. That got winglets some respect, and they earned still more two years later when Masak won the U.S. 15-Meter Nationals in a prototype Scimitar sailplane also equipped with winglets.

Maughmer’s most recent glider design contributions were directed toward a flapped, 20-meter span two-seater that is currently in development by the German manufacturer, Schempp-Hirth Flugzeugbau. Plans are for the first ones to leave the factory in the fall of 2009. While some academics prefer pure research, Maughmer says he feels an imperative to “produce more than a ream of computer printouts,” and he believes his students benefit from seeing a tangible result to his research as well.

Maughmer joined the Penn State aerospace faculty in 1984, lured to State College not only by the job but by the proximity of the Allegheny Bald Eagle Ridge, one of the world’s premiere places for soaring. He owns a winglet-equipped glider himself and goes soaring a dozen or more times a year. In Maughmer’s years at Penn State he has earned multiple awards for teaching, which he loves. He is also the co-founder and “sheep herder”of Penn State’s four-year, hands-on Aircraft Design and Fabrication course, which includes the AIAA Design-Build-Fly team.

According to Peter Selinger’s 2002 history of the sailplane manufacturer, Schleicher, Rhön-Alder, 75 Jahre Alexander Schleicher Segelflugzeugbau, all the significant figures in the history of glider design for that company have been German except for two – one of them Dutch and the other an American, Mark Maughmer. The Penn State professor is only half kidding when he pulls the book from a pile on his desk, displays his photograph in its pages, and declares his inclusion as the lone American among all those Germans to be “the crowning career achievement of my life.”

Official Bio

Marlon Sorge

Marlon Sorge is a Technical Fellow for the Space Innovation Directorate of The Aerospace Corporation. Working out of the corporation’s Albuquerque, NM–based office, he supports a wide variety of space debris and space situational awareness–related projects as well as strategic planning, conceptual design, technology development programs and astrodynamics analysis.

For more than 30 years, Mr. Sorge has conducted space debris research and analysis in a broad range of fields including debris risk assessment, fragmentation analysis, operations support, debris mitigation technique implementation, debris event reconstruction, satellite design for debris survivability, orbital and suborbital range and space safety, ballistic debris management, debris environment projection, collision avoidance, orbital reentry prediction, and national and international mitigation guideline and standards development. He developed the Aerospace fragmentation model and conducted some of the first work in realtime fragmentation event risk assessment. He is Executive Director of Aerospace’s Center for Orbital and Reentry Debris Studies (CORDS), is a DOD representative on the NASA delegation to the IADC, and developed the Aerospace fragmentation model. Mr Sorge joined The Aerospace Corporation in 1989.

Holger Krag

 

Holger Krag acquired his master in Aerospace Engineering at the University of Braunschweig. In 2002, he became a system engineer at Thales ATM at Langen (Germany) and was part of the development team of the Galileo ground mission segment (GMS), for which he worked in collocation with the customer in Toulouse, France. In 2006, he joined ESA as an Analysist in the Space Debris Office at ESOC.  In 2014, he took the position of the Head of the Space Debris Office, which, among others, provides fundamental support to ESA’s Space Situational Awareness Programme. In 2019, he took over the position as the head of the programme, and prepared the evolution into the new Space Safety Programme which was established at the Space19+ Ministerial in Sevilla. The new programme addresses an enlarged scope within the areas of Space Weather, Planetary Defence and Space Debris including early warning systems and mitigation measures.

Access a new video: Dealing with debris, via http://www.esa.int/dealingwithdebris

Craig Gravelle

 

Mr. Craig Gravelle is Senior Director, Space Systems Strategic Development at General Atomics Electromagnetic Systems (GA-EMS). Mr. Gravelle is responsible for the growth of GA-EMS’s space systems business for United States Department of Defense (DoD) and civil government programs. During Mr. Gravelle’s more than 40 years of experience in the aerospace industry, he has led pursuits of new business opportunities with the intelligence community, United States Air Force/Space Force, international clients and commercial space systems customers. With GA-EMS, Mr Gravelle has provided strategic leadership for pursuit of small spacecraft for both customized and constellation applications for US government and commercial customers. He also has been active in formulating GA-EMS’ strategy for implementation of nuclear power and propulsion for space missions.

Mr. Gravelle’s broad range of industry experience includes space systems development for Sierra Nevada Corporation, where he was responsible for leading a team to define the new capabilities of the Dream Chaser reusable space vehicle for their Space Exploration Systems business area. He has held senior management and executive positions with start-ups to large aerospace companies including General Dynamics, Comtech and Lockheed Martin.

Prior to joining GA-EMS, Mr. Gravelle was President of Gambit Space & Defense, a subsidiary of Strategic Capture Resources, Inc., where he focused on concepts for disruptive space platforms. In under a year, he grew the company to ten full- and part-time consultants with revenues of $1 million. In 2002, Mr. Gravelle founded Signal Research Corporation (SRC), a small business devoted to providing unique and innovative intelligence solutions for the DoD and aerospace customers. During his time with SRC, he led efforts that instituted core technical competencies in radiofrequency measurement and signature intelligence (MASINT), high frequency (HF) communications, advanced signals intelligence (SIGINT), and space systems engineering. Mr. Gravelle sold SRC to Comtech AeroAstro, Inc. in 2006 and assumed the role of Executive Vice President of Business Development and Advanced Programs.

Mr. Gravelle holds a Bachelor of Science in Aerospace Engineering from the University of Michigan and completed graduate studies in Aerospace Engineering and Physics from the University of Michigan and University of Colorado. He also completed the University of Michigan’s Executive Management Program

Moriba Jah

Moriba Jah is an Associate Professor of Aerospace Engineering and Engineering Mechanics at The University of Texas at Austin, where is the holder of the Mrs. Pearlie Dashiell Henderson Centennial Fellowship in Engineering. Prior to this, Moriba worked for the Air Force Research Laboratory and NASA’s Jet Propulsion Laboratory, where he was a Spacecraft Navigator on a handful of Mars missions. Moriba is a Fellow of multiple organizations: TED, American Institute of Aeronautics and Astronautics (AIAA), American Astronautical Society (AAS), International Association for the Advancement of Space Safety (IAASS), Royal Astronomical Society (RAS), and the Air Force Research Laboratory (AFRL). He has served on the US delegation to the United Nations Committee On Peaceful Uses of Outer Space (UN-COPUOS), is an elected Academician of the International Academy of Astronautics (IAA), and has testified to congress on his work as related to Space Situational Awareness and Space Traffic Management. He’s an Associate Editor of the Elsevier Advances in Space Research journal, and serves on multiple committees: IAA Space Debris, AIAA Astrodynamics, IAF Astrodynamics, and IAF Space Security. Moriba has his own monthly op-ed column, “Jahniverse,” in AIAA’s Aerospace America and webcast series, “Space Café: Moriba’s Vox Populi” with SpaceWatch.Global.

Bree Fram

Bree Fram is the President of SPARTA and an active duty lieutenant colonel in the US Space Force. SPARTA advocates and educates about transgender military service and is dedicated to the support and professional development of over 1300 transgender service members. A member of SPARTA since 2014, she focuses on policy and advocacy work to develop a more inclusive military.

Lt Col Fram came out as transgender on the day the transgender ban in the military was dropped in 2016. She is currently the highest ranking out transgender officer in the Department of Defense. Bree is assigned to the Pentagon to lead space acquisition policy development for the Department of the Air Force

Bree previously served in a wide variety of Air Force positions including a Research and Development command position and an oversight role for all Air Force security cooperation activity with Iraq. In earlier assignments, Lt Col Fram served in the Air Force Directorate of Strategic Plans, as a Legislative Fellow at the US Capitol on the staff of Congresswoman Madeleine Bordallo, several tours as a program manager for satellite and technology programs, and deployed to Qatar and Iraq as part of Operation Iraqi Freedom.

Bree has appeared on ABC and NBC Nightly news, PBS News Hour, and NPR’s All Things Considered and Morning Edition. Her writing has been featured in the Washington Post, Military Times, Inkstick, and LGBTQ Nation. She is the co-editor of the book With Honor and Integrity: Transgender Troops in Their Own Words from NYU press which released in November 2021.