Herschel Matheny andDr. Stephen Gilbert[5] founded Dynetics in 1974.[3] During the 1980s, Dynetics expanded to include electro-optic and infrared sensors, missile systems analysis and design, software development, modeling and simulation, and foreignmateriel exploitation of radars, missiles, and missile seekers.[3]
In the 1990s, Dynetics continued to grow its core business and expanded into the automotive supply industry as a provider of electrical test systems.[6] Since 2000, Dynetics has been selling information technology (IT) and cybersecurity services, including winning a contract to provide IT services to NASA'sMarshall Space Flight Center (MSFC).[7] The company entered the space business with the development of theFASTSAT (Fast Affordable Science and Technology Satellite)nanosatellite and the purchase of Orion Propulsion.[8][9] Its space business continued to grow with a 2013 selection to compete for theSpace Launch System Advanced Booster design contract with NASA.[10][11]
On December 27, 2019,Leidos announced the purchase of Dynetics for US$1.65 billion,[12] and acquisition was complete on 31 January 2020.[13]
Dynetics divides its services and products into the following categories: intelligence, missiles, aviation, cyber, automotive, and space.[14] The company opened a new building in 2012 called "The Solutions Complex" that is 226,500 ft2 (21,040 m2) of research and development facilities located inCummings Research Park inHuntsville, Alabama.[14] Dynetics operates remote operations additionally inMichigan,Florida,Virginia,Ohio, andTexas.[15]
In 2009, Dynetics teamed up with Freedom Information Systems, Inc. CIBER, MacAulay-Brown/Gray Research, and MEI Technologies and won theMarshall Space Flight Center (MSFC) contract.[16][17] This contract is valued at approximately US$335 million over five years and covers IT security services; IT planning; telecommunication services; applications and web services; computing and audio visual information services.[16]
In 2012, Dynetics submitted a proposal to NASA based on affordability, reliability, and performance for the F-1 engine, Main Propulsion System, and Structure risk reduction tasks for a possible SLS contract.[11] Dynetics, with partnerAerojet Rocketdyne, was chosen and charged with the task of testing and manufacturing innovative engine components such as an integrated power pack, the primary rotating machinery of the engine.[18][19]
Dynetics is to be a key partner toAerojet Rocketdyne in the development of the AR1 rocket engine. Under a joint venture agreement, Dynetics is to supply elements of the AR1 engine's main propulsion system, the ignition system, and ground support equipment, along with analysis support to critical engine designs.[20]
Dynetics served as systems integrator for the development of what was then the world's largest precision-guided air-dropped system, the 22,600 lb (10,300 kg)MOAB bomb.[21]
In May 2014, Dynetics announced that they will build up to 18 satellites to orbit Earth, in order to gather more data about the planet for the government and businesses. The company will be partnering with OmniEarth LLC, Harris Corp. and Draper Laboratories for the project.[22] Dynetics also partnered with rocket propulsion company Aerojet Rocketdyne to help design upgrades toNASA'sSpace Launch System.[23]
In 2016, Dynetics was one of four companies to be awarded a contract byDARPA for an air-recoverable experimentalunmanned aerial vehicle. Dynetics was chosen from the four companies to build the aircraft, which became theDynetics X-61 Gremlins. The first X-61A made its maiden flight in January 2020.[24]
Dynetics, working withSierra Nevada Corporation's Space Systems participated in some earlyhuman landing system (HLS) design studies under NASA's HLS Appendix E program. They submitted a proposal to NASA for HLS Appendix H for a concept called theDynetics Human Landing System (DHLS), which in April 2020 was one of three proposals funded for further design work in a US$253 million in NASA development funding contract during 2020/2021, along withBlue Origin'sIntegrated Lander Vehicle (US$579 million) andSpaceX'Starship HLS (US$135 million).[25][26][27] At the end of the ten-month program, NASA will evaluate which contractors will be offered contracts for initial demonstration missions and select firms for development and maturation of lunar lander systems.[27]
NASA'sStephen Jurczyk identified the fuel drop tanks and low crew module as innovative strengths, but the propulsion system was a low-maturity risk. They received a management rating of "very good" but a technical rating of "marginal", making the Dynetics proposal the worst-rated project.[28][29][30][31]
Robert Wright of Dynetics reported that the Dynetics team selected methane andLOX as the fuel/oxidizer system for their HLS lander because their studies indicated that this choice offered the best combination of performance and long-term sustainability.[32]
^"FASTSAT Launch". NASA. November 17, 2010. Archived fromthe original on May 17, 2017. RetrievedJuly 13, 2013. This article incorporates text from this source, which is in thepublic domain.
^Wright, Robert (June 11, 2020).Human Landing System: Putting Boots Back on the Moon. American Astronautical Society. Event occurs at 52:45–53:17. RetrievedJune 26, 2020 – via YouTube.we down-selected to a LOX–methane approach
This article incorporates text from this source, which is in thepublic domain.
