Ivan Townsend III displays the four U.S. Patent plaques he received during a ceremony at the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Mark Lewis displays the two U.S. Patent plaques he received during a ceremony at the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. To his right is Kelly Jones-McDowall, event co-chairperson. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

NASA Kennedy Space Center workers display their U.S. Patent plaques during a ceremony at the 2017 Innovation Expo at the center. From left, are Luke Robertson, Trent Smith, Kelly Jones-McDowall, event co-chairperson, Martha Williams and Dr. James Fesmire. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Trent Smith, project manager in the ISS Exploration Research and Technology Program, displays the U.S. Patent plaque he received during a ceremony at the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Jeffrey Carlson displays the three U.S. Patent plaques he received during a ceremony at the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Robert Mueller displays the three U.S. Patent plaques he received during a ceremony at the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Robert Youngquist, center, Applied Physics Laboratory lead, received a U.S. Patent plaque for his invention, Surface Acoustic Wave Tag-Based Coherence Multiplexing, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. From left, are Kelvin Manning, Kennedy's associate director; Youngquist; and Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. Patent plaques were awarded to, second from left, Luke Roberson, Trent Smith, Martha Williams and James Fesmire, for their invention, Aerogel/Polymer Composite Materials, known as Aeroplastic, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. At left is Kelvin Manning, Kennedy's associate director; and at far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. Patent plaques were awarded to, second from left, Jeffrey Carlson, Robert Mueller and Ivan Townsend III, for their invention, Dust and Debris Tolerant Dual Poppet Valve Connector, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. Not pictured: Gary Basin and Kevin Murtland. At left is Kelvin Manning, Kennedy's associate director. At far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. Patent plaques were awarded to, second from left, Mark Lewis, Adam Dokos, Robert Mueller, Jeffrey Carlson and Ivan Townsend III, for their invention, Dust Tolerant Connectors, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. Not pictured: Gary Basin, Matthew Branch, Kevin Murtland, Matthew Nugent and Gabor Tamasy. At left is Kelvin Manning, Kennedy's associate director. At far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. Patent plaques were awarded to, second from left, Adam Dokos, Mark Lewis, Jeffrey Carlson and Ivan Townsend III, for their invention, Dust and Debris Tolerant Retractable Cover, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. Not pictured: Gary Basin and Kevin Murtland. At left is Kelvin Manning, Kennedy's associate director. At far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. Patent plaques were awarded to, second from left, Robert Mueller, Adam Dokos and Ivan Townsend III, for their invention, Self-Cleaning Filament Connector, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. At left is Kelvin Manning, Kennedy's associate director. At far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

U.S. and Canadian Patent plaques were awarded to, second from left, Phillip Maloney, Robert Devor and Jacqueline Quinn, for their invention, Removing Halogenated Compounds from Contaminated Systems, during the 2017 Innovation Expo at NASA's Kennedy Space Center in Florida. Not pictured: James Captain. At left is Kelvin Manning, Kennedy's associate director. At far right is Dave Makufka, Kennedy's Technology Transfer Program manager. The purpose of the annual two-day expo is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Kennedy Space Center’s Luke Roberson, a principal investigator with the flight technology branch, has received several patents from the United States Patent and Trademark Office. Certificates recognizing those patents are on display in his office at the Florida spaceport’s Space Station Processing Facility.

Luke Roberson, a principal investigator with the flight technology branch at NASA’s Kennedy Space Center in Florida, discusses patents and new technology reports for a video that targets internal audiences at NASA. Roberson’s contributions are reflected in multiple U.S. patents.

Dr Hans Mark presents Patent award to John Dimeff

Dr Hans Mark presents Patent award to Harvard 'Harv' Lomax

Neill Myers, Marshall’s most patented inventor, demonstrates the Variable-Aperture Reciprocating Reed Valve, an invention that won him his fourth Marshall Invention of the Year award.

CURTIS O. TAYLOR, PRESIDENT OF LINC RESEARCH CORP, (L), AND JEFF LINDNER, CHIEF ENGINEER, POSE WITH HARDWARE FOR THEIR PATENTED TECHNOLOGY, FLUID STRUCTURE COUPLING, WHICH USES SIMPLE PHYSICS TO DAMPEN POTENTIALLY HARMFUL SHAKING IN STRUCTURES. INSTALLATION OF THE FLUID STRUCTURE COUPLING TECHNOLOGY IN A BUILDING WILL TAKE PLACE IN SUMMER OF 2016.

2009 Awards Ceremony; 2008 Government Invention of the Year Award, 2009 Software of the Year Award sponsored by Ames Innovative Partnerships Program Office. Patent Awards, Steve Zornetzer, Associate Director Ames Research Center presenting: Anthony Strawa for Photometer for Tracking a Moving Light Source.

The latest technologies invented at NASA’s Kennedy Space Center in Florida were recognized during the 2023 Innovator Recognition event on March 9, 2023. The patent recipients gathered for a group photo after the event held in the Space Station Processing Facility conference center. At far left is Kathy Loftin, chief technologist with the Exploration Research & Technology Directorate. At far right is Jennifer Kunz, Kennedy Space Center associate director, technical.

Engineers from NASA Marshall Space Flight Center's Propulsion Department examine nozzles fabricated using a freeform-directed energy wire deposition process. From left are Paul Gradl, Will Brandsmeier, Ian Johnston and Sandy Greene, with the nozzles, which were built using a NASA-patented technology that has the potential to reduce build time from several months to several weeks.

NASA structural materials engineer, Jonathan Lee, displays blocks and pistons as examples of some of the uses for NASA’s patented high-strength aluminum alloy originally developed at Marshall Space Flight Center in Huntsville, Alabama. NASA desired an alloy for aerospace applications with higher strength and wear-resistance at elevated temperatures. The alloy is a solution to reduce costs of aluminum engine pistons and lower engine emissions for the automobile industry. The Boats and Outboard Engines Division at Bombardier Recreational Products of Sturtevant, Wisconsin is using the alloy for pistons in its Evinrude E-Tec outboard engine line.

KENNEDY SPACE CENTER, FLA. - James E. Fesmire (right), NASA lead engineer for the KSC Cryogenics Testbed, works on Cryostat-1, the Methods of Testing Thermal Insulation and Association Test Apparatus, which he developed. At left is co-inventor Dr. Stan Augustynowicz, chief scientist with Sierra Lobo Inc. in Milan, Ohio. Cryostat-1 provides absolute thermal performance values of cryogenic insulation systems under real-world conditions. Cryogenic liquid is supplied to a test chamber and two guard chambers, and temperatures are sensed within the vacuum chamber to test aerogels, foams or other materials. The Cryostat-1 machine can detect the absolute heat leakage rates through materials under the full range of vacuum conditions. Fesmire recently acquired three patents for testing thermal insulation materials for cryogenic systems. The research team of the Cryogenics Testbed offers testing and support for a number of programs and initiatives for NASA and commercial customers.

KENNEDY SPACE CENTER, FLA. - James E. Fesmire (right), NASA lead engineer for the KSC Cryogenics Testbed, works on Cryostat-1, the Methods of Testing Thermal Insulation and Association Test Apparatus, which he developed. At left is co-inventor Dr. Stan Augustynowicz, chief scientist with Sierra Lobo Inc. in Milan, Ohio. Cryostat-1 provides absolute thermal performance values of cryogenic insulation systems under real-world conditions. Cryogenic liquid is supplied to a test chamber and two guard chambers, and temperatures are sensed within the vacuum chamber to test aerogels, foams or other materials. The Cryostat-1 machine can detect the absolute heat leakage rates through materials under the full range of vacuum conditions. Fesmire recently acquired three patents for testing thermal insulation materials for cryogenic systems. The research team of the Cryogenics Testbed offers testing and support for a number of programs and initiatives for NASA and commercial customers.

CAPE CANAVERAL, Fla. - In the Debus Conference Center of the Kennedy Space Center Visitor Complex, winners of the NASA OPTIMUS PRIME Spinoff Video Contest receive awards from Joyce Ward, the United States Patent and Trademark Office's education coordinator/administrator, left Ansel Brown, country music singer and song writer of "When You Fly" Sarah Carroll, brand manager of TRANSFORMERS for Hasbro Inc. Peter Cullen, the voice of OPTIMUS PRIME from the "Transformers" franchise Matt Schatzle, executive director of the American Society of Mechanical Engineers Foundation Nona Cheeks, chief of the Technology Commercialization Office at NASA's Goddard Space Flight Center in Greenbelt, Md. and Darryl Mitchell, NASA's project manager for the video contest. The contest challenged students in grades three through 12 to study NASA spinoff technologies and produce short, creative videos promoting their favorites. Goddard's Innovative Partnerships Office designed the contest to help students see the benefits of NASA technology here on Earth. NASA collaborated with Hasbro in using the OPTIMUS PRIME character. Photo credit: NASA/Jim Grossmann

A nickel alloy developed at the National Aeronautics and Space Administration (NASA) Lewis Research Center being poured in a shop inside the Technical Services Building. Materials technology is an important element in the successful development of both advanced airbreathing and rocket propulsion systems. An array of dependable materials is needed to build different types of engines for operation in diverse environments. NASA Lewis began investigating the characteristics of different materials shortly after World War II. In 1949 the materials research group was expanded into its own division. The Lewis researchers studied and tested materials in environments that simulated the environment in which they would operate. Lewis created two programs in the early 1960s to create materials for new airbreathing engines. One concentrated on high-temperature alloys and the other on cooling turbine blades. William Klopp, Peter Raffo, Lester Rubenstein, and Walter Witzke developed Tungsten RHC, the highest strength metal at temperatures over 3500⁰ F. The men received an IR-100 Award for their efforts. Similarly a cobalt-tungsten alloy was developed by the Fatigue and Alloys Research Branch. The result was a combination of high temperature strength and magnetic properties that were applicable for generator rotor application. John Freche invented and patented a nickel alloy while searching for high temperature metals for aerospace use. NASA agreed to a three-year deal which granted Union Carbide exclusive use of the new alloy before it became public property.

Dr. Robert Hutchings Goddard (1882-1945). Dr. Goddard has been recognized as the father of American rocketry and as one of the pioneers in the theoretical exploration of space. Robert Hutchings Goddard, born in Worcester, Massachusetts, on October 5, 1882, was theoretical scientist as well as a practical engineer. His dream was the conquest of the upper atmosphere and ultimately space through the use of rocket propulsion. Dr. Goddard, died in 1945, but was probably as responsible for the dawning of the Space Age as the Wrights were for the beginning of the Air Age. Yet his work attracted little serious attention during his lifetime. However, when the United States began to prepare for the conquest of space in the 1950's, American rocket scientists began to recognize the debt owed to the New England professor. They discovered that it was virtually impossible to construct a rocket or launch a satellite without acknowledging the work of Dr. Goddard. More than 200 patents, many of which were issued after his death, covered this great legacy. <b><a href="http://www.nasa.gov/centers/goddard/home/index.html" rel="nofollow">NASA Goddard Space Flight Center</a></b> enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission. <b>Follow us on <a href="http://twitter.com/NASA_GoddardPix" rel="nofollow">Twitter</a></b> <b>Join us on <a href="http://www.facebook.com/pages/Greenbelt-MD/NASA-Goddard/395013845897?ref=tsd" rel="nofollow">Facebook</a></b>

The Goddard Space Flight Center was named in honor of Dr. Robert Goddard, a pioneer in rocket development. Dr. Goddard received patents for a multi-stage rocket and liquid propellants in 1914 and published a paper describing how to reach extreme altitudes six years later. That paper, &quot;A Method of Reaching Extreme Altitudes,&quot; detailed methods for raising weather-recording instruments higher than what could be achieved by balloons and explained the mathematical theories of rocket propulsion. The paper, which was published by the Smithsonian Institution, also discussed the possibility of a rocket reaching the moon-a position for which the press ridiculed Goddard. Yet several copies of the report found their way to Europe, and by1927, the German Rocket Society was established, and the German Army began its rocket program in 1931. Goddard, meanwhile, continued his work. By 1926, he had constructed and tested the first rocket using liquid fuel. Goddard's work largely anticipated in technical detail the later German V-2 missiles, including gyroscopic control, steering by means of vanes in the jet stream of the rocket motor, gimbal-steering, power-driven fuel pumps and other devices. <b><a href="http://www.nasa.gov/centers/goddard/home/index.html" rel="nofollow">NASA Goddard Space Flight Center</a></b> enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission. <b>Follow us on <a href="http://twitter.com/NASA_GoddardPix" rel="nofollow">Twitter</a></b> <b>Join us on <a href="http://www.facebook.com/pages/Greenbelt-MD/NASA-Goddard/395013845897?ref=tsd" rel="nofollow">Facebook</a></b>

Dr. Robert Hutchings Goddard (1882-1945). Dr. Goddard has been recognized as the father of American rocketry and as one of the pioneers in the theoretical exploration of space. Robert Hutchings Goddard, born in Worcester, Massachusetts, on October 5, 1882, was theoretical scientist as well as a practical engineer. His dream was the conquest of the upper atmosphere and ultimately space through the use of rocket propulsion. Dr. Goddard, died in 1945, but was probably as responsible for the dawning of the Space Age as the Wrights were for the beginning of the Air Age. Yet his work attracted little serious attention during his lifetime. However, when the United States began to prepare for the conquest of space in the 1950's, American rocket scientists began to recognize the debt owed to the New England professor. They discovered that it was virtually impossible to construct a rocket or launch a satellite without acknowledging the work of Dr. Goddard. More than 200 patents, many of which were issued after his death, covered this great legacy. <b><a href="http://www.nasa.gov/centers/goddard/home/index.html" rel="nofollow">NASA Goddard Space Flight Center</a></b> enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission. <b>Follow us on <a href="http://twitter.com/NASA_GoddardPix" rel="nofollow">Twitter</a></b> <b>Join us on <a href="http://www.facebook.com/pages/Greenbelt-MD/NASA-Goddard/395013845897?ref=tsd" rel="nofollow">Facebook</a></b>

Dr. Robert Hutchings Goddard (1882-1945). Dr. Goddard has been recognized as the father of American rocketry and as one of the pioneers in the theoretical exploration of space. Robert Hutchings Goddard, born in Worcester, Massachusetts, on October 5, 1882, was theoretical scientist as well as a practical engineer. His dream was the conquest of the upper atmosphere and ultimately space through the use of rocket propulsion. Dr. Goddard, died in 1945, but was probably as responsible for the dawning of the Space Age as the Wrights were for the beginning of the Air Age. Yet his work attracted little serious attention during his lifetime. However, when the United States began to prepare for the conquest of space in the 1950's, American rocket scientists began to recognize the debt owed to the New England professor. They discovered that it was virtually impossible to construct a rocket or launch a satellite without acknowledging the work of Dr. Goddard. More than 200 patents, many of which were issued after his death, covered this great legacy. <b><a href="http://www.nasa.gov/centers/goddard/home/index.html" rel="nofollow">NASA Goddard Space Flight Center</a></b> enables NASA’s mission through four scientific endeavors: Earth Science, Heliophysics, Solar System Exploration, and Astrophysics. Goddard plays a leading role in NASA’s accomplishments by contributing compelling scientific knowledge to advance the Agency’s mission. <b>Follow us on <a href="http://twitter.com/NASA_GoddardPix" rel="nofollow">Twitter</a></b> <b>Join us on <a href="http://www.facebook.com/pages/Greenbelt-MD/NASA-Goddard/395013845897?ref=tsd" rel="nofollow">Facebook</a></b>

George Edward Alcorn, a pioneering African American physicist and engineer, is credited with dozens of inventions over the course of a distinguished career in private industry and at NASA, for which he earned eight patents. Alcorn joined Goddard Space Flight Center in 1978 and held numerous leadership roles in both research and administration until his retirement in 2012. One of Alcorn’s signature accomplishments at NASA was developing a smaller, more sensitive X-ray spectrometer, changing the way scientists were able to use the powerful tool in deep space exploration missions. His tool, which uses thermomigration of aluminum, can gather information about remote solar systems; for the invention, Alcorn was honored as the NASA Goddard Inventor of the Year in 1984. In addition to his groundbreaking contributions as an inventor and innovator, Alcorn also championed efforts to hire more women and minorities at Goddard, for which he was honored with the NASA Equal Opportunity Medal, and taught students at Howard University and the University of the District of Columbia. He also founded the Saturday Academy, an honors program in math and science for underserved middle school students. He earned many accolades over the years from NASA and beyond. These include, in 2010, the Robert H. Goddard Award for Merit, for his outstanding innovation and significant contributions to space science, technology, and NASA programs, as well as recognition in 1994 at Howard University’s Heritage of Greatness awards ceremony. He was also inducted into the National Inventor’s Hall of Fame in 2015. Alcorn passed away in 2024 at the age of 84.