Your search keyword '"ROCKETRY"' showing total 773 results

1. Considerations for a Spaceport in Venezuela: A Developing Country

Author

Prialé Cappa, André

Published

2024

2. Experimental and Numerical Modal Analysis of a Composite Rocket Structure.

Author

Qaumi, Taruansh and Hashemi, Seyed M.

Subjects

MODAL analysis, NUMERICAL analysis, FINITE element method, COMPOSITE structures, LASER Doppler vibrometer

Abstract

Finite Element Analysis (FEA) is a powerful tool that can aid in the engineering design process to reduce cost and time. However, it is best used in conjunction with experimental data, through which its numerical results can be verified. This paper presents the experimental and numerical modal analyses of an experimental rocket aerostructure to verify the accuracy of the numerical models. This aerostructure has been through flight loads and a recovery. The first numerical results for the rocket showed a 96% difference with the experimental ones. Subsequently, three mass refinements were made to create calibrated FEM models whose results differed from the experimental ones by 19% to 8%. Additionally, as expected, the FEM results tended to overestimate the stiffness of structures. The numerical simulations for all components were performed through ANSYS software, and the experiments were conducted using the hammer tap test with laser vibrometers as sensors. [ABSTRACT FROM AUTHOR]

Published

2023

3. CanSat UCI: Winter Design Review 2019

Author

Soroka, Emiko, Huynh, Amy, Hylak, Joseph, Browne, Owen, Madrigal, Edwin, Cheng, Jonathan, Shah, Partha, Parel, Ryan, Movsesyan, Alex, and Zhao, Andrew

Subjects

Aerospace Engineering, Auto-Gyro, CanSat Competition, CanSat, Mechanical Engineering, Senior Design, Computer Science, Propeller, Model Rocket, Rocketry, Mission Operations, Payload, Engineering Design, Ground Station, Descent Control, Telemetry, Data Transmission, Launch, Sensors, Communications, PDR, CDR, Design Cycle, Texas, Autonomous Operations, UCI Dean's Choice Award 2019

Abstract

The CanSat Competition is an international design/build/fly engineering competition held yearly in Stephenville, Texas and provides students with an opportunity to design an aerospace system. It is designed to reflect a small-scale aerospace program and includes the project design life cycle from preliminary design review to post mission review. Teams of up to 10 undergraduate students build CanSats, which must complete a mission that changes every year. In this year’s mission, the CanSat will be launched to 700 meters using a high-powered model rocket, and must perform a controlled descent while transmitting data from its onboard sensors to a ground station computer. The CanSat consists of a container that must protect the science payload from damage during the launch and deployment. Initially, both descend under a parachute. At 400 meters, the payload is released and continues its descent using an autogyro propeller. The CanSat must be equipped with sensors for environmental conditions (temperature, pressure, GPS position, altitude) and system performance (orientation, battery voltage, auto-gyro spin rate). It must be capable of transmitting this data in real-time to a ground station computer. The scope of our project is designing and building the CanSat and ground station. The launch system (a high-power model rocket) is provided by the competition organizers to standardize launches. Our team represents UC Irvine in this international competition. Members of CanSat UCI will follow the engineering design process from concept generation through integration and test, actual operation of the system, and the concluding post-mission summary and debrief. This year’s objective is to build a probe (the CanSat) that transmits environmental data to a ground station and performs a controlled descent using a parachute and auto-gyro propeller. The mission and its requirements reflect aspects of real world missions, including telemetry requirements, communications, and autonomous operations. Our project deliverables are the Preliminary Design Review and Critical Design Review presentations, the CanSat and ground station hardware, and the post-mission review. We follow a yearly design cycle, adhering to deadlines and requirements imposed by the competition. This ensures all teammates gain experience with the full engineering design process.Faculty Advisor:  Professor RangelEmail:  cansatuci@gmail.comWebsite:  https://sites.google.com/a/uci.edu/cansat/

Published

2019

4. Hybrid Rocket Propulsion Design Handbook

Author

Ashley Chandler Karp, Elizabeth Therese Jens, Ashley Chandler Karp, and Elizabeth Therese Jens

Subjects

Propellants, Rocketry, Hybrid propellant rockets--Design and construction

Abstract

Hybrid Rocket Propulsion Design Handbook provides system scaling laws, design methodologies, and a summary of available test data, giving engineers all the tools they need to develop realistic hybrid system designs.Important supporting theory from chemistry, thermodynamics, and rocket propulsion is addressed, helping readers from a variety of backgrounds to understand this interdisciplinary subject. This book also suggests guidelines for standardized reporting of test data, in response to difficulties researchers have in working with results from different research institutes. - Covers general theory, recent advances and current fragmented experimental results of hybrid rocket engines - Outlines testing standards for hybrid researchers - Provides guidance on how to use a freely available online code from NASA

Published

2024

5. Experimental and Numerical Modal Analysis of a Composite Rocket Structure

Author

Taruansh Qaumi and Seyed M. Hashemi

Subjects

modal analysis, composite, finite element analysis, rocketry, laser vibrometry, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Finite Element Analysis (FEA) is a powerful tool that can aid in the engineering design process to reduce cost and time. However, it is best used in conjunction with experimental data, through which its numerical results can be verified. This paper presents the experimental and numerical modal analyses of an experimental rocket aerostructure to verify the accuracy of the numerical models. This aerostructure has been through flight loads and a recovery. The first numerical results for the rocket showed a 96% difference with the experimental ones. Subsequently, three mass refinements were made to create calibrated FEM models whose results differed from the experimental ones by 19% to 8%. Additionally, as expected, the FEM results tended to overestimate the stiffness of structures. The numerical simulations for all components were performed through ANSYS software, and the experiments were conducted using the hammer tap test with laser vibrometers as sensors.

Published

2023

6. Rocket Theory

Author

Raley, Rita and Samolsky, Russell

Subjects

accelerationism, accelerationist, cryptocurrency, memeification, memetics, Mars, rocketry, space colonization, extraterrestrial capitalism

Abstract

What this chapter offers is not another history of accelerationism as philosophy or coterie, but rather a tracing out of accelerationism as it has become co-opted and memetically entered into popular discourse as political affect and cultural condition. What is the significance of this memeification, and why, beyond the obvious literalization, does this take the form of the rocket? We take account of the way in which a political philosophy committed to pushing capitalism to its breaking point and beyond ironically finds itself deployed for capitalistic, even hyper-capitalistic, ends. What we are calling “rocket theory” is not simply a play on an idiom but also proposes a theoretically informed way of thinking through the convergence of oppositional forces as manifest in accelerationist politics, or anti-politics, in our moment.

Published

2023

7. Preliminary design of a high power rocket: a systems engineering approach

Author

Universitat Politècnica de Catalunya. Departament de Física, Casamor Martinell, Oriol, Solé Bosquet, Jaume, Soler Rodríguez, Albert, Universitat Politècnica de Catalunya. Departament de Física, Casamor Martinell, Oriol, Solé Bosquet, Jaume, and Soler Rodríguez, Albert

Abstract

The purpose of this thesis is to provide a new working and management methodology to be used in the projects done in the UPC Space Program association. This methodology has been based on the systems engineering methodology and the ECSS management standards, and it aims to apply the lessons learned from past experiences in previous projects that did not obtain the results that could have been expected. This methodology is based on the systems engineering product life cycle and provides a list of all the deliverables and reviews that shall be conducted during the design, fabrication, qualification and operation of any system. To provide an example of the application of this methodology and the templates of these documents, a practical example of implementation has been developed through the design of a high-power rocket compliant with the European Rocketry Challenge regulations.

Published

2024

8. Data Acquisition for Collegiate Hybrid and Solid Rocketry - An Undergraduate Research Experience.

Author

Jayaram, Sanjay, Pritzlaff, Hunter Michael, and Stack, Andrew

Subjects

*ENGINEERING education, *UNDERGRADUATES, *LEARNING, *MENTORING, *ACQUISITION of data

Abstract

Involving undergraduate students in engineering research provides an opportunity and an avenue to gain in-depth and hands-on experiential learning with topics related to their major. Students involved learn about contributions to the field they study through research and understand the value of meaningful contributions, specifically experimentation and hardware development. Working with a research advisor provides students with mentoring, teamwork, and interaction with peers and graduate students. Research experience for undergraduate students provides a unique opportunity for faculty members and research advisors to guide them and help them explore career opportunities. This paper describes the design and development of a Data Acquisition System for a Hybrid and Liquid Rocket Test Stand. Data Acquisition is an important part to the development and design of an effective and functional rocket engine. Parameters such as thrust, pressure, temperature, and mass flow rate are important to see how the engine performs during rocket engine combustion. Along with the piping and containment systems designed to keep that combustion within reasonable boundaries. Some of the factors that increase the difficulty of data acquisition include high temperatures, high pressures, number of sensors, complex machinery, and the need for high sampling rates due to the rate at which the stability of combustion phenomena changes. Implementing a robust data acquisition system would greatly increase the ability to perform rigorous ground tests of hybrid and liquid motors. It would help to obtain real time analysis and feedback on the performance of the engine tested and would additionally help to identify and mitigate potential problems and risks that may occur. To this end, a High-Speed Data Acquisition system is being developed to serve the demands of such a system for the Rocket Propulsion Lab (RPL) at the university. [ABSTRACT FROM AUTHOR]

Published

2022

9. Engineering of the Highest Caliber: Kazimierz Siemienowicz and the Culmination of the Military Revolution

Author

Paul Wlodkowski

Subjects

Siemienowicz, rocketry, artillery, Polish-Lithuanian Commonwealth, caliber, Tipu Sultan, History of scholarship and learning. The humanities, AZ20-999, Science (General), Q1-390

Abstract

The interregnum between the death of Galileo and the publication of Newton’s Principia produced great advances in military science and technology. Particularly noteworthy are Kazimierz Siemienowicz’s contributions to artillery and to the field of rocketry. The dominating nature of these weapon systems remain as relevant today as it did in 1650 with the publication of his opus, The Great Art of Artillery. Rocket technology defines power relations, whether fired indiscriminately across a national border or positioned menacingly in a silo as an intercontinental ballistic missile. Siemienowicz’s designs, namely his multi-stage rockets with delta-wing stabilizers and ejection nozzles, became instruments of state power. The standardization of the caliber scale, the writing of the science of artillery, the optimization of gunpowder quality, and the pioneering work in rocketry, which became his legacy, qualify him as principal in the culmination of the military revolution.

Published

2022

10. THE OUTSIDE CHANCE.

Author

Vercelletto, Christina

Subjects

*LIBRARIES, *COVID-19, *ZUMBA exercise program, *ART exhibitions, *ROCKETRY

Abstract

The article offers information on various outdoor programs in the U.S. wherein libraries offer in-person connection in line with COVID safety protocols. These include the zumba classes at Catawba County Library in Newton, North Carolina; BIPOC artists exhibition series at Richland Library in Columbia, South Carolina; and Rocketry program at Tom Green County Library in San Angelo, Texas.

Published

2021

11. Engineering of the Highest Caliber: Kazimierz Siemienowicz and the Culmination of the Military Revolution.

Author

Wlodkowski, Paul

Subjects

INTERCONTINENTAL ballistic missiles, REVOLUTIONS, MILITARY science, STATE power, MILITARY technology

Abstract

Copyright of Studia Historiae Scientiarum is the property of Jagiellonian University Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

12. Rocket Science : From Fireworks to the Photon Drive

Author

Mark Denny, Alan McFadzean, Mark Denny, and Alan McFadzean

Subjects

Rocketry

Abstract

This is a book about rocket science: what it is and what it does. From the earliest fireworks to nuclear-powered spacecraft, all you would ever want or need to know about the subject is here, along with a straightforward explanation of how, why and when things work—or sometimes don't. We begin with the history and workings of early terrestrial rocketry before moving onto the main subject of the book: how we get things into space and, on occasion, back again. Entirely math-free, the chapters weave together innumerable anecdotes, real-world examples, and easy walk-throughs to help readers break down the complex physics behind some of humankind's most amazing feats. Neither a pure textbook nor a populist space travel tome, the book will educate, inform and above all entertain anyone intrigued by rocket science.

Published

2019

13. Wernher Von Braun: Revolutionary Rocket Engineer : Revolutionary Rocket Engineer

Author

Rachael L. Thomas and Rachael L. Thomas

Subjects

Biographies, Biography, Juvenile works, Rocketry--United States--Biography--Juvenile, Rocketry--Germany--Biography--Juvenile liter, Aerospace engineers--Biography--Juvenile liter, Aerospace engineers, Rocketry

Abstract

Meet Wernher von Braun, who developed the booster rocket that won the Space Race for the United States! Follow von Braun's story from his early work developing the V-2 ballistic missile to his development of the Saturn V booster rocket that took Apollo 11 to the moon. Infographics, historic photos, and a glossary enhance readers'understanding of this topic. Additional features include a table of contents, an index, a timeline and fun facts. Aligned to Common Core Standards and correlated to state standards. Checkerboard Library is an imprint of Abdo Publishing, a division of ABDO.

Published

2019

14. UCI CANSAT

Author

Ngo, Dustin, Castro, Oscar, Fernandez, Camila, Cumming, Ian, Desta, Tsion, Jin, Shixi, Ives, Matthew, Rojas, Andy, and Shum, Ryan

Subjects

satellite deployment, package delivery, camera, parachute, rocketry, poster, UCI Dean's Choice Award 2022

Abstract

Mission Summary: Launch & Ascent Phase: The CanSat is mission ready inside the rocket. It is launched to an altitude of 670-725 meters for the Deployment Phase to proceed. Deployment Phase: The rocket separates via ejection charges causing the CanSat and nose cone to fall out. Here, telemetry begins and the CanSat descends at 15 m/s. Descent Phases: 1. An altitude of 400 meters, a larger parachute is deployed to reduce the CanSat’s descent to 5 m/2/. 2. At 300 meters, the Cansat releases a tethered payload to a distance of 10 meters for 20 secs. Said payload will record via a camera oriented in the South direction at 45° downwards. Landing Phase: CanSat and all internal components must land safely intact for recovery.

Published

2022

15. Make: High-Power Rockets : Construction and Certification for Thousands of Feet and Beyond

Author

Mike Westerfield and Mike Westerfield

Subjects

Rocketry, Rockets (Aeronautics)--Models--Design and construction

Abstract

Make: High-Power Rockets is for all the science geeks who look at the moon and try to figure out where Neil Armstrong walked, watch in awe as rockets lift off, and want to fly their own model rockets. Starting with an overview of mid- and high-power rocketry, readers will start out making rockets with F and G engines, and move on up to H engines.

Published

2018

16. Introduction to Rocket Science and Engineering

Author

Travis S. Taylor and Travis S. Taylor

Subjects

Rocketry

Abstract

Introduction to Rocket Science and Engineering, Second Edition, presents the history and basics of rocket science, and examines design, experimentation, testing, and applications. Exploring how rockets work, the book covers the concepts of thrust, momentum, impulse, and the rocket equation, along with the rocket engine, its components, and the physics involved in the generation of the propulsive force. The text also presents several different types of rocket engines and discusses the testing of rocket components, subsystems, systems, and complete products. The final chapter stresses the importance for rocket scientists and engineers to creatively deal with the complexities of rocketry.

Published

2017

17. Can the Defense Industry Unkink Supply Chains to Meet War Demands?

Author

Wolff, Ilene

Subjects

ROCKETRY, AEROSPACE industries, EMPLOYMENT, MILITARY budgets

Abstract

The article offers information about the United States has sent 16 HIMARS rocket and missile launchers to Ukraine, and there are foreign military sale, creating a demand signal for domestic manufacturers. United States defense producers are facing supply chain disruptions, inflation, labor shortages, and ecosystem shrinkage. Before Russia's recent incursion into Ukraine, global security was in a relatively peaceful state, and defense budgets were expected to remain flat.

Published

2022

18. Diseño, construcción y prueba estática experimental de un motor-cohete de combustible solido.

Author

Robayo-Salazar, Rafael, Portocarrero-Hermann, Julián, Meneses-Suta, Juan, Salgado-Díaz, Jonathan, Martínez-Riaño, Sergio, Delgado, Fernando, and Gómez-Ruge, Andrea

Subjects

*ROCKET engines, *SOLID propellants, *COMBUSTION chambers, *PROPELLANTS, *POTASSIUM nitrate, *INTERNAL combustion engines

Abstract

This paper introduces the design, construction, and static testing of a solid rocket motor. The design was based on the solid rocket motor design methodology (SRM). The rocket motor included the igniter system, the combustion chamber, the solid propellant, and the nozzle. The internal diameter of the combustion chamber and the total length of the rocket motor were 27,67 mm and 230 mm, respectively. The rocket motor nozzle was of the convergent-divergent Laval type. The propellant was based on the mixture of potassium nitrate (KNO3) (oxidant) and high purity sugar (or sucrose: C12H22O11) (fuel), whose synthesis was achieved through a thermal fusion process (150-170 °C for 20-25 min). The performance of the rocket motor was evaluated using a static combustion test; resulting in a maximum thrust force (load) of 227 N, a total impulse of 98,69 Ns and a specific impulse of 65,8 s, thus allowing its classification as a class G rocket motor. The results obtained are considered of great importance in the development and characterization of solid rocket motors, necessary to promote the experimental rocketry in Colombia. [ABSTRACT FROM AUTHOR]

Published

2021

19. Connection stiffness and dynamical docking process of flux pinned spacecraft modules.

Author

Yong Lu, Mingliang Zhang, and Dong Gao

Subjects

*SPACE vehicle docking, *AEROSPACE engineering, *ROCKETRY, *AERONAUTICAL navigation, *ASTRONAUTICS

Abstract

This paper describes a novel kind of potential flux pinned docking system that consists of guidance navigation and control system, the traditional extrusion type propulsion system, and a flux pinned docking interface. Because of characteristics of passive stability of flux pinning, the docking control strategy of flux pinned docking system only needs a series of sequential control rather than necessary active feedback control, as well as avoidance of hazardous collision accident. The flux pinned force between YBaCuO (YBCO) high temperature superconductor bulk and permanent magnet is able to be given vent based on the identical current loop model and improved image dipole model, which can be validated experimentally. Thus, the connection stiffness between two flux pinned spacecraft modules can be calculated based on Hooke's law. This connection stiffness matrix at the equilibrium position has the positive definite performance, which can validate the passively stable connection of two flux pinned spacecraft modules theoretically. Furthermore, the relative orbital dynamical equation of two flux pinned spacecraft modules can be established based on Clohessy-Wiltshire's equations and improved image dipole model. The dynamical docking process between two flux pinned spacecraft modules can be obtained by way of numerical simulation, which suggests the feasibility of flux pinned docking system. [ABSTRACT FROM AUTHOR]

Published

2014

20. UCI Rocket Project

Author

Karam Padilla, Jorge, Polcyn, Matthew, Anderson-Hickey, Christopher, Holm, Austin, Sahebzada, Zackey, Palafoutas, Jonathan, Hargrove, Sky, Drabeck, Anthony, Paredes, Joshua, McCloskey, Mariam, Hellwig, Wes, Patel, Shray, Fakhry, Joy, Silva, Pedro, Liu, Dijia, Alavarez, Christian, Hussain, Anika, Rigoberto, Collazo-Rocha, Weng, Arthur, Yu, Ching-Hao Cliff, Lee, Edward, Yoon, Dongwoo, La, Kenneth, Doan, Khan, Atkins, Simon, De San Jose, Jan Michael, Bombino, Janay, Hein, Alexander, Riffenburgh, Emit, Eung, Saingyou, Montanto, Eduardo, Hague, Cory, Martuscelli, Mason, Lupercio, Parker, Sakuma, Ryan, Cook, Tyler, Kao, Dylan, and Cheng, Randall

Subjects

Rocketry, Rocket Engine, liquid bipropellant, UCI Rocket Project, static fire, Poster, UCI Dean's Choice Award 2021

Abstract

Abstract: The UCI Rocket Project is an undergraduate student team pushing the boundaries of collegiate rocketry through the design and fabrication of liquid-fueled rockets. Our project provides engineering students with the opportunity to work on complex systems within a multidisciplinary team. The systems are designed using professional modeling and simulation software, innovative manufacturing and fabrication solutions, and strict validation procedures.Project Advisor: Professor Mark Walter

Published

2021

21. Experiencias del Grupo de Ingeniería Aeroespacial para la formación de estudiantes de la UCR.

Author

de Lemos Medina, Leonora

Subjects

*AEROSPACE engineers, *AEROSPACE engineering, *COLLABORATIVE learning, *SOFT skills, *INTERNATIONAL competition, *TRAINING of engineers

Abstract

The article titled "Experiences of the Aerospace Engineering Group for the training of UCR students" presents the experiences of the Aerospace Engineering Group (GIAUCR) in the training of students at the University of Costa Rica (UCR). The GIAUCR was created in 2014 as a meeting space for teachers and students interested in Aerospace Engineering. The group has focused on high-power rocketry and has managed to develop academic and professional projects, such as participation in international competitions and presentation of papers at international conferences. The project has been carried out collaboratively and openly, allowing students to learn and reinforce different topics related to rocketry. In addition, aerospace camps have been held to put the acquired knowledge into practice. The project has generated technical and soft skills in the participants, as well as an area of research and development that has yielded results in different fields. The leadership of the GIAUCR has contributed to the growth and positioning of the UCR in the field of aerospace engineering. [Extracted from the article]

Published

2022

22. Wernher von Braun's ultimate weapon.

Author

Neufeld, Michael J.

Subjects

*ROCKETRY, *SPACE flight, *SPACE station design & construction, *BALLISTIC missiles, *SOCIALISTS, UNITED States armed forces

Abstract

The article talks about Wernher von Braun, a German-American rocket engineer and space visionary. In his early career, von Braun was a designer of missiles, in fact, he was the leader of the team who designed V-2 ballistic missile for the Nazi Germany. However, when the United States Army made his rocket-engineer organization transfer to National Aeronautics and Space Administration in 1960, his career focus dramatically shifted from making weapons to peaceful space exploration. He had dreamt of space travel and planned of constructing a manned space station to function as a base for further space exploration and as a battle station and orbiting reconnaissance platform to achieve "space superiority" over the Soviet Union.

Published

2007

23. Make: Rockets : Down-to-Earth Rocket Science

Author

Mike Westerfield and Mike Westerfield

Subjects

Rocketry, Rockets (Aeronautics)--Models, Rockets (Aeronautics)

Abstract

This book teaches the reader to build rockets--powered by compressed air, water, and solid propellant--with the maximum possible fun, safety, and educational experience.Make: Rockets is for all the science geeks who look at the moon and try to figure out where Neil Armstrong walked, watch in awe as rockets lift off, and want to fly their own model rockets. Starting with the basics of rocket propulsion, readers will start out making rockets made from stuff lying around the house, and then move on up to air-, water-, and solid propellant-powered rockets. Most of the rockets in the book can be built from parts in the Estes Designer Special kit.

Published

2014

24. Aerospace Propulsion

Author

T. W. Lee and T. W. Lee

Subjects

Rocketry, Airplanes--Jet propulsion

Abstract

Aerospace propulsion devices embody some of the most advanced technologies, ranging from materials, fluid control, and heat transfer and combustion. In order to maximize the performance, sophisticated testing and computer simulation tools are developed and used. Aerospace Propulsion comprehensively covers the mechanics and thermal-fluid aspects of aerospace propulsion, starting from the fundamental principles, and covering applications to gas-turbine and space propulsion (rocket) systems. It presents modern analytical methods using MATLAB and other advanced software and includes essential elements of both gas-turbine and rocket propulsion systems. Gas turbine coverage includes thermodynamic analysis, turbine components, diffusers, compressors, turbines, nozzles, compressor-turbine matching, combustors and afterburners. Rocket coverage includes chemical rockets, electrical rockets, nuclear and solar sail. Key features: Both gas-turbine and rocket propulsion covered in a single volume Presents modern analytical methods and examples Combines fundamentals and applications, including space applications Accompanied by a website containing MATLAB examples, problem sets and solutions Aerospace Propulsion is a comprehensive textbook for senior undergraduate graduate and aerospace propulsion courses, and is also an excellent reference for researchers and practicing engineers working in this area.

Published

2013

25. Thermo-elastic-plastic Model for Numerical Simulation of Fasteners Destruction Under Gasodynamic Impulsive Pressure.

Author

Chernobryvko, Marina, Avramov, Konstantin, Uspensky, Boris, Tonkonogenko, Anatoly, and Kruszka, Leopold

Subjects

*ROCKETRY, *METAL bonding, *FASTENERS, *STRESS-strain curves, *MATERIAL plasticity, *FINITE element method

Abstract

Modern rocketry widely employs a method of gasodynamic impulse destruction of bondings which may occur at high variety of temperatures. To design fasteners correctly it is necessary to have the ability to calculate fastener's destruction time at a given pressure. Numerical research is an expedient approach to this problem. A mathematical model of a high-speed deformation and failure in fastening elements of special rocket structures due to gasodynamic wave-impact impulse loading is developed. A technique for numerical analysis of the deformation of fasteners and failure duration is proposed. To perform such analysis a set of factors such as: static stress-strain state due to assembling; thermo-elastic deformation of fasteners due to environment temperature; high-speed dynamical elastic-plastic failure of fastening elements are taken into consideration. The failure model due to the plastic flow considers dynamical material properties. As a criterion of failure maximum plastic deformation is chosen. The technique is implemented for several types of fasteners. Numerical simulation using finite elements method is conducted. The results of the numerical research are well-correlated with experimental data. [ABSTRACT FROM AUTHOR]

Published

2018

26. The solar sail: Current state of the problem.

Author

Polyakhova, Elena, Korolev, Vladimir, Kustova, Elena, Leonov, Gennady, Morosov, Nikita, Yushkov, Mikhail, and Mekhonoshina, Mariia

Subjects

*SOLAR sails, *SPACE flight propulsion systems, *AEROSPACE propulsion systems, *ROCKETRY, *SPACE vehicles

Abstract

Mathematical models of dynamics of the spacecraft with a solar sail to control orbital motion and rotation of the entire structureare considered. The movement of a spacecraftby a solar sail is based on the effect of light pressure. The magnitude and direction of the light pressure force vector is determined by the size and properties of the sail surface and the orientation angle relative to the sunlight flux. It is possible to vary the properties, sizes or locations of the sails to control the motion. Turning the elements of the sail, we get the opportunity to control the direction of the vector of the acting force and the moment with respect to the center of mass. Specificity of solar sail control is the interaction of orbital motion and rotational movements of the entire structure, which could provide the desired orientation and stability at small perturbations. The solar sail can be used for flights to the major planets, to meet with asteroids and comet, to realize a special desired motion in the neighborhood of the Sun or near the Earth. [ABSTRACT FROM AUTHOR]

Published

2018

27. Handbook of Rocketry Science

Author

Shuler, Mignon, Willey, Deshaun, Shuler, Mignon, and Willey, Deshaun

Subjects

Rocketry

Abstract

Chapter 1 - Oberth Effect Chapter 2 - Rocket Artillery Chapter 3 - Gravity Turn Chapter 4 - Hybrid Rocket Chapter 5 - Expansion Deflection Nozzle Chapter 6 - Nose Cone Design Chapter 7 - Rocket Propellant Chapter 8 - Solid-Fuel Rocket Chapter 9 - Shavit Chapter 10 - Scout (Rocket Family) Chapter 11 - Graphite-Epoxy Motor & M-V Chapter 12 - Castor (Rocket Stage) & Crow (Missile) Chapter 13 - Rocket Engine Chapter 14 - Aerospike Engine Chapter 15 - Liquid-Propellant Rocket

Published

2012

28. Rocketry Science

Author

Shuler, Mignon and Shuler, Mignon

Subjects

Rockets (Aeronautics), Rocketry

Abstract

Chapter 1 - Oberth Effect Chapter 2 - Rocket Artillery Chapter 3 - Gravity Turn Chapter 4 - Hybrid Rocket Chapter 5 - Expansion Deflection Nozzle Chapter 6 - Nose Cone Design Chapter 7 - Rocket Propellant Chapter 8 - Rocket Engine Chapter 9 - Model Rocket

Published

2012

29. Rockets : Two Classic Papers

Author

Robert Goddard and Robert Goddard

Subjects

Rocketry, Rockets (Aeronautics), Upper atmosphere--Rocket observations, Liquid propellant rockets

Abstract

Rockets, in the primitive form of fireworks, have existed since the Chinese invented them around the thirteenth century. But it was the work of American Robert Hutchings Goddard (1882-1945) and his development of liquid-fueled rockets that first produced a controlled rocket flight. Fascinated by rocketry since boyhood, Goddard designed, built, and launched the world's first liquid-fueled rocket in 1926. Ridiculed by the press for suggesting that rockets could be flown to the moon, he continued his experiments, supported partly by the Smithsonian Institution and defended by Charles Lindbergh. This book is comprised of two papers he wrote for the Smithsonian. Among the most significant publications in the history of rockets and jet propulsion, these Smithsonian articles ― the first published in 1919 and the second in 1936 ― were issued at a time when little was known about these subjects. Goddard's first paper,'A Method of Reaching Extreme Altitudes,'addressed the theoretical possibility of achieving great ranges by means of well-designed rockets. It also demonstrated that fairly high jet velocities were attainable and described advances in the construction of a solid cartridge magazine-type rocket. The second paper served as a progress report and indicated what had been accomplished through experimentation.Goddard went to to lay the foundations for the development of long-range rockets, missiles, satellites, and spaceflight. In fact, a liquid-fueled rocket constructed on principles he developed landed humans on the moon in 1969. Today, Goddard is widely recognized as the'Father of American Rocketry.'According to The New York Times,'This... is certainly a book that the historian of rockets cannot ignore.'

Published

2012

30. Automatic Checkout Equipment -- The Apollo Hippocrates.

Author

Sternberg, Sidney

Subjects

INDUSTRIAL engineering, DIAGNOSTIC equipment industry, AUTOMATION, SPACE vehicle design & construction, NAVIGATION (Astronautics), INTELLIGENT agents, ROCKETRY

Abstract

The article discusses the significance of the computerized checkout equipment, which is beneficial to the development of Saturn 5-class rockets and the Apollo-class spacecraft in the U.S. According to the author, this equipment represents a significant advance in automation, and its impact on ordinary production and the reliability of consumer products appears to be incalculable. Moreover, the Saturn/Apollo program of the National Aeronautics and Space Administration is the developmental work in the 1940s and 1950s that culminated in a marriage of operational and diagnostic checkout systems. Meanwhile, one of the inside stories of Apollo are presented further.

Published

1969

31. Rocket Propulsion.

Author

Cooper, Ralph S.

Subjects

SPACE flight propulsion systems, SPACE exploration, ROCKETRY, LIQUID propellants, SOLID propellants, FORCE & energy, NUCLEAR energy, CHEMICAL systems, POWER resources

Abstract

The article provides information on the propulsion systems of space vehicles which are used in space exploration. According to the author, the extent of space exploration in the future will depend upon the sizes and efficiencies of the propulsion systems which will be developed. Most types of rockets are based on the principles of action and reaction, where the motion depends upon expelling some material from the vehicle. There are several types of propulsion which include solid propellants, liquid propellant rockets, and other chemical systems. The author adds that nuclear energy can also be a very compact type of almost limitless energy and it is natural to seek some way of utilizing it for space exploration.

Published

1962

32. The Chemical Analysis of the Lunar Surface on Surveyor.

Author

Turkevich, Anthony L.

Subjects

LUNAR surface, ANALYTICAL chemistry, LUNAR exploration, SPACE vehicles, NAVIGATION (Astronautics), ROCKETRY, ASTRONAUTICS, GEOCHEMISTRY

Abstract

The article discusses the chemical analysis of the lunar surface carried out by U.S. Surveyor spacecrafts. These Surveyor missions accomplished the engineering objectives of establishing the suitability of the lunar surface for landing. Pictures obtained on the Surveyor missions offered the most detailed information available at that time of the physical nature of the lunar surface. The most essential scientific contribution of these missions was the determination, at three locations on the Moon, of the chemical composition of this lunar regolith. The Surveyor chemical analyses were obtained by an analytical technique based on the interaction of alpha particles with matter.

Published

1973

33. "Let's Punch A Hole In the Sky"

Author

Fisher, Daniel

Subjects

ROCKETS (Aeronautics), ROCKETRY, HIGH-speed aeronautics

Abstract

Reports on the annual meeting of the Tripoli Rocketry Association at Black Rock Desert in Nevada. Purpose of the gathering to shoot of rockets built by the members; Red tape involved in getting permission to launch their rockets; Experimental design of many of the rockets. INSET: Serious Toys.

Published

2000

34. The Development of Rocketry Capability in New Zealand—World Record Rocket and First of Its Kind Rocketry Course

Author

George Buchanan, David Wright, Christopher Hann, Hoani Bryson, Malcolm Snowdon, Avinash Rao, Adam Slee, Hans Philipp Sültrop, Bastian Jochle-Rings, Zane Barker, Abigail McKinstry, Claude Meffan, George Xian, Ryan Mitchell, and XiaoQi Chen

Subjects

rocketry, solid propellant rocket, canard actuation, wind tunnel, PD control, machining, avionics, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The University of Canterbury has developed a rocket research group, UC Rocketry, which recently broke the world altitude record for an I-class motor (impulse of 320–640 Ns) and has run a rocketry course for the first time in New Zealand. This paper discusses the development and results of the world record rocket “Milly” and details all the fundamental elements of the rocketry final year engineering course, including the manufacturing processes, wind tunnel testing, avionics, control and the final rocket launch of “Smokey”. The rockets Milly and Smokey are an example of the design, implementation and testing methodologies that have significantly contributed to research and graduates for New Zealand’s space program.

Published

2015

35. Convective heat transfer analysis of refined kerosene with alumina particles for rocketry application.

Author

Sundararaj, Aldin Justin, Pillai, B. C., and Asirvatham, Lazarus Godson

Subjects

*TRANSPORT equation, *KEROSENE heaters, *THERMAL properties of nanoparticles, *REYNOLDS number, *ROCKETRY

Abstract

A detailed experimental study of the fuel flow characteristic and the convective heat transfer of a nano fluid consisting of refined kerosene have been studied in the present work. Low volume fraction of 0.01 and 0.05 of Al2O3-refined kerosene has been studied. A horizontal tube of 4 mm in diameter was used for the fluid flow and the heat flow under various Reynolds number ranging from 500 to 5500 were investigated. SEM analysis showed particle size of alumina nanoparticle ranged from 32 nm-50 nm. It was found that, higher the volume fraction of the refined kerosene- Al2O3 nano fluid, larger is the heat transfer coefficient. Moreover it was found that with increase in volume fraction of nano particles in the fluid, the nano fluid’s viscosity also increased which results in an increase in friction factor. The friction factor and pumping power were also investigated under various Reynolds number and volume fraction. An increase of 16.33 % in convective heat transfer was observed at Reynolds number of 5500 for a volume fraction of 0.05 %. All results provide strong proof that the addition of nanoparticles intensified the above properties to a considerable rate. [ABSTRACT FROM AUTHOR]

Published

2018

36. Let's do launch.

Author

Kluger, Jeffrey

Subjects

*AMATEUR rocketry, *ROCKETRY

Abstract

Reports on the model missile launching at Argonia, Kansas organized by the Tripoli Rocketry Association. Development of rocketry; Model rocketry in childhood; Terrain of Rick Nafziger farm; Solid fuel used by rocketeers; Description of rockets and launch.

Published

1993

37. Big dumb rockets.

Author

Easterbrook, G.

Subjects

*ROCKETRY

Abstract

In 1968, Arthur Schnitt, an Aerospace Corp. engineer, concluded the US approach to rocketry was too complex and too costly. Humble rockets might do just as well, and drive costs down. The project was known to insiders as Big Dumb Booster, but was canceled soon after the 1986 meeting. Instead, the space shuttle program was initiated, with billions in funding. Now, Big Dumb Booster may be just what we need to revive our space presence.

Published

1987

38. A Detailed Study of Space X Vs. Blue Origin Vs. Virgin Galactic and the Future of Space Travel

Author

Pallathadka, Harikumar, Pallathadka, Laxmi Kirana, Pallathadka, Harikumar, and Pallathadka, Laxmi Kirana

Abstract

Space travel has had a generally short history. Regardless of its recency, the field has seen quick improvement in recent years. When the area of legislatures, space travel is currently likewise confidential. Starting from the primary business of human space flight occurred in 2001; a few other well-off space vacationers bought their rides into space. Over 150 individuals have pursued sub-orbital space trips with Virgin Galactic. Be that as it may, there are critical hindrances in making space travel a reality for the overall population. The enormous three Space X, Blue Origin, and Virgin Galactic are as yet developing confidential space industry was established entirely by super business visionaries who rose to acclaim (and significant riches) through non-space undertakings. Each has entered the ring with the usual point of reforming space travel, yet in light of one-of-a-kind goals and various dreams regarding how to accomplish their missions. Assuming that one property is shared by the administrations of SpaceX, Blue Origin, and Virgin Galactic, it is the definition of aggressive objectives. Here is a gander at the expressed missions of these three spearheading organizations: 1. SpaceX's central goal to make "humankind multi-planetary" is well in progress and has the red planet Mars soundly in its sights with the reusable Starship rocket program as the essential stage 2. Blue Origin additionally embraces rocket reusability as vital to its primary goal to save the planet by taking advantage of the room's "limitless assets and energy," comparing the new time of room travel and investigation to the Industrial Revolution of the cutting-edge period. 3. Virgin Galactic's main goal to "democratize space" will rely to a great extent upon the outcome of its space travel industry model by which the world's most memorable space line (rather than a carrier) will offer standard "flights" to space from its Spaceport America in New Mexico.

Published

2022

39. Asociación Aeroespacial Cosmos: educational impact and returns of a three-year-old student aerospace association

Author

Solá Molina, Alondra, Solano López, Pablo, Cuevas del Valle, Sergio, Velázquez Navarro, Ester, Townsend, Patrick, Alberca Díez, Paula, Urrutxua Cereijo, Hodei, Solá Molina, Alondra, Solano López, Pablo, Cuevas del Valle, Sergio, Velázquez Navarro, Ester, Townsend, Patrick, Alberca Díez, Paula, and Urrutxua Cereijo, Hodei

Abstract

Cosmos Aerospace Association is a leading engineering students’ group, located in the Universidad Rey Juan Carlos (URJC) in Madrid, Spain. Providing a one-of-a-kind opportunity to all varieties of students for both personal and engineering growth, it is one of the few active aerospace student associations in Spain. Within this work, we introduce the achievements, influence and lessons learned from our association in these years. We focus on its educational impact in the environment of the university: not only from the perspective of aerospace-related degrees but also in the promotion of STEM careers on students of all ages. Conceived by undergraduate aerospace students and supported by professors and university staff, Cosmos was born to provide a creative and learning environment in the promotion of our passion for space and science in general. Bringing together students with similar mindsets, it has become a symbiotic platform in which all university actors share their efforts and join forces to enhance the university experience both from a curricular and extracurricular perspective. The association is divided into three main areas: Administration and Legal, Construction, and Education. Each of these areas branch with Projects and smaller teams both transversal and vertically. Under the Construction branch, both aeromodelling, satellite and rocketry projects are found and developed. An autonomous VTOL vehicle and a solid combustion rocket are being designed with internal and external funding. Special mention goes to the design and construction of CosmoSat-1, our very first CubeSat mission, which is now starting to take off. The Education area involves the organization of cultural and educational activities, from coding seminars, hackathons to film forums or Women in STEM days, all of them transversal to the aerospace industry. In this regard, our most ambitious project to date has been SpaceCon URJC: a space-themed conference by and for university students, bringin

Published

2022

40. Design and optimization of a rocket structure following the requirements for the European Rocketry Challenge (EUROC) to be fabricated using additive manufacturing

Author

Grau Rifà, Jordi and Grau Rifà, Jordi

Abstract

Amateur rocket structures are usually made of composite materials, wood or aluminium, their internal geometries and interfaces are usually restricted by the available manufacturing techniques. However, with the appearance of the additive manufacturing sector new possibilities arise for the design of the structures and its complexity. In this paper a PA-12 and glass fibre composite structure for the Phobos rocket is designed which the UPC Space Program aims to use to participate in the European Rocketry challenge. The Phobos rocket structure is designed and optimized to be fabricated using additive manufacturing by Hewlett-Packard. The structure is designed using a lattice approach to obtain a PA-12 skeleton which is then reinforced with a skin of glass fibre composite. Moreover, to obtain the desired structure an optimization methodology is set using a design loop in which the critical section of the rocket is parametrically optimized to reach the equivalent traditional structure performance. The structure is optimized in the size of the lattice geometry and in the thickness of the skin as parameters. To do so, the critical load during the flight of the rocket is identified and translated to the Nastran environment to run a parametric optimization of the structural model. The optimized geometry is then extended to the rest of the rocket to obtain the overall optimized structure. In addition, several analyses are conducted to validate the structure behaviour for the different load cases. Finally, both the optimized critical case and the overall optimized structure are compared to traditional design structures to obtain conclusive results about the use and limitations of the available additive technology and its materials

Published

2022

41. A multi-project student space association

Author

Leon Delgado, Alexis, Carmona Peña, Alex, Zhang, Yi Qiang Ji, Torrent Duch, Arnau, Grau Rifà, Jordi, Barja Peláez, Adrià, Leon Delgado, Alexis, Carmona Peña, Alex, Zhang, Yi Qiang Ji, Torrent Duch, Arnau, Grau Rifà, Jordi, and Barja Peláez, Adrià

Abstract

The aerospace sector has always been a challenge. The complex nature of the field requires for talented, skilful engineers. And while the university does great on the development of the theoretical background, it barely gets into the practical application. This is why embracing educational activities is critical to help students develop their technical and teamwork skills in the professional sector. UPC Space Program is an engineering student association based in the Terrassa campus of the Polytechnical University of Catalonia (Spain), and formed by 5 missions and 80 members. Each mission targets a field of interest in the space sector: rocketry, UAVs for space exploration, High Altitude Balloons, rovers and CubeSats. The sharing of the common spaces by such a number of people who are working on so many and diverse projects creates a vibrant and creative environment that incites learning. Our work is aligned with the current activities in the space sector. As the exploration of the terrestrial bodies of the Solar System highly benefits from the use of rovers, our Grass mission is focused on the development of planetary exploration rovers. After achieving 10th place in the European Rover Challenge 2021, the objective is to further upgrade the vehicle for the next edition. But currently, a new exploration focus is appearing as flying vehicles are entering the stage. In this context, our Aldora mission is based around a concept mission to Titan via an autonomous plane capable of deploying scientific probes. Obviously, space exploration is not possible without the presence of space transport vehicles. In this matter, Ares mission is focused on the development of High Power amateur rockets. Currently, Ares is developing a supersonic rocket set to participate in EUROC 2022 competition. But most of the payloads carried by rockets are satellites. In this field, the Horus mission aims to investigate and optimize the manufacture of a CubeSat, along with mission performance, t

Published

2022

42. THE AMATEUR SCIENTIST.

Subjects

ROCKETRY, ROCKETS (Aeronautics), SCIENTIFIC community, SCIENTISTS

Abstract

The article presents information about amateur rocketry and various groups of amateur rocket experimenter in the U. S. including the Reaction Missile Research Society Inc., the American Interplanetary Society, British Interplanetary Society, Southern California Rocket Society and the Pacific Rocket Society.

Published

1957

43. L3Harris points to suppliers for slowdown in rocket-motor production.

Author

Decker, Audrey

Subjects

AIR forces, ROCKETS (Weapons), ROCKETRY

Abstract

L3Harris Technologies, a defense industry company, is working to increase solid rocket motor production after acquiring Aerojet Rocketdyne. The main challenge they face is obtaining sub-components from smaller companies on time. The Pentagon supports L3Harris as a solution to rocket motor production issues. L3Harris plans to make noticeable improvements in rocket motor output by the end of 2024. They have already deployed their own leadership team to run Aerojet and are investing in the company to improve its performance. The main problem hampering production is the lack of certified suppliers for critical components. L3Harris aims to address this issue and increase resilience in the supply chain. The U.S. needs to prioritize sub-tier companies that supply the primes in order to ramp up production of rocket motors. The integration of Aerojet and L3Harris is still in the early stages, but L3Harris is supportive of accelerating the fielding of hypersonic weapons. [Extracted from the article]

Published

2023

44. Astro Turf : The Private Life of Rocket Science

Author

M. G. Lord and M. G. Lord

Subjects

Rocketry

Abstract

A daughter's journey to rediscover her father and understand the culture of space engineersDuring the late 1960s, while M. G. Lord was becoming a teenager in Southern California and her mother was dying of cancer, Lord's father-an archetypal, remote, rocket engineer- disappeared into his work at the Jet Propulsion Laboratory in Pasadena, building the space probes of the Mariner Mars 69 mission. Thirty years later, Lord found herself reporting on the JPL, triggering childhood memories and a desire to revisit her past as a way of understanding the ethos of rocket science. Astro Turf is the brilliant result of her journey of discovery.Remembering her pain at her father's absence, yet intrigued by what he did, Lord captures him on the page as she recalls her own youthful, eccentric fascination with science and space exploration. Into her family's saga she weaves the story of the legendary JPL- examining the complexities of its cultural history, from its start in 1936 to the triumphant Mars landings in 2004. She illuminates its founder, Frank Malina, whose brilliance in rocketry was shadowed by a flirtation with communism, driving him from the country even as we welcomed Wernher von Braun and his Nazi colleagues. Lord's own love of science fiction becomes a lens through which she views a profound cultural shift in the male-dominated world of space. And in pursuing the cause of her father's absence she stumbles on a hidden guilt, understanding'the anguish his proud silence caused both him and me, and how rooted that silence was in the culture of engineering.'

Published

2009

45. Rocket and Spacecraft Propulsion : Principles, Practice and New Developments

Author

Martin J. L. Turner and Martin J. L. Turner

Subjects

Propulsion systems, Rocketry

Abstract

The revised edition of this practical, hands-on book discusses the range of launch vehicles in use today throughout the world, and includes the very latest details of some of the advanced propulsion systems currently being developed. The author covers the fundamentals of the subject, from the basic principles of rocket propulsion and vehicle dynamics through the theory and practice of liquid and solid propellant motors, to new and future developments. The revised edition will stick to the same principle of providing a serious exposition of the principles and practice of rocket propulsion, but from the point of view of the user and enquirer who is not an engineering specialist. Most chapters will remain substantially the same as the first edition; they will be updated where necessary and errata corrected. The main revisions will be to the chapter on electric propulsion where there have been significant new developments both in engine types and in practical applications. This is now seen as the key to planetary exploration by robotic probes and should therefore be reflected. Nuclear propulsion has emerged from the doldrums and is now seen as a definite possibility for outer solar system robotic exploration; and as enabling technology for a human mars expedition. A new chapter on nuclear thermal propulsion has been added to reflect this revival of interest.

Published

2009

46. Introduction to Rocket Science and Engineering

Author

Travis S. Taylor and Travis S. Taylor

Subjects

Rocketry

Abstract

An overall view of the vast spectrum of knowledge needed by practicing rocket scientists and engineers, Introduction to Rocket Science and Engineering presents the history and basics of rocket theory, design, experimentation, testing, and applications. It covers an array of fields, from advanced mathematics, chemistry, and physics to logistics, systems engineering, and politics. The text begins with a discussion on the discovery and development of rockets as well as the basic principles governing rockets and rocket science. It explains why rockets are needed from economic, philosophical, and strategic standpoints and looks at why the physics of the universe forces us to use rockets to complete certain activities. Exploring how rockets work, the author covers the concepts of thrust, momentum, impulse, and the rocket equation, along with the rocket engine, its components, and the physics involved in the generation of the propulsive force. He also presents several different types of rocket engines and discusses the testing of rocket components, subsystems, systems, and complete products. The final chapter stresses the importance of rocket scientists and engineers to think of the unusual, unlikely, and unthinkable when dealing with the complexities of rocketry. Taking students through the process of becoming a rocket scientist or engineer, this text supplies a hands-on understanding of the many facets of rocketry. It provides the ideal foundation for students to continue on their journey in rocket science and engineering.

Published

2009

47. Asociación Aeroespacial Cosmos: educational impact and returns of a three-year-old student aerospace association

Author

Alondra Solá Molina, Pablo Solano López, Sergio Cuevas del Valle, Ester Velázquez Navarro, Patrick Townsend, Paula Alberca Díez, and Hodei Urrutxua Cereijo

Subjects

Spacecraft-ing, SpaceCon, Aeronàutica, Students - Societies, etc, Aeronautics, Aeronàutica i espai [Àrees temàtiques de la UPC], Sci-Comm, Associacions d'estudiants, Rocketry, Student association, Aeromodelling

Abstract

Cosmos Aerospace Association is a leading engineering students’ group, located in the Universidad Rey Juan Carlos (URJC) in Madrid, Spain. Providing a one-of-a-kind opportunity to all varieties of students for both personal and engineering growth, it is one of the few active aerospace student associations in Spain. Within this work, we introduce the achievements, influence and lessons learned from our association in these years. We focus on its educational impact in the environment of the university: not only from the perspective of aerospace-related degrees but also in the promotion of STEM careers on students of all ages. Conceived by undergraduate aerospace students and supported by professors and university staff, Cosmos was born to provide a creative and learning environment in the promotion of our passion for space and science in general. Bringing together students with similar mindsets, it has become a symbiotic platform in which all university actors share their efforts and join forces to enhance the university experience both from a curricular and extracurricular perspective. The association is divided into three main areas: Administration and Legal, Construction, and Education. Each of these areas branch with Projects and smaller teams both transversal and vertically. Under the Construction branch, both aeromodelling, satellite and rocketry projects are found and developed. An autonomous VTOL vehicle and a solid combustion rocket are being designed with internal and external funding. Special mention goes to the design and construction of CosmoSat-1, our very first CubeSat mission, which is now starting to take off. The Education area involves the organization of cultural and educational activities, from coding seminars, hackathons to film forums or Women in STEM days, all of them transversal to the aerospace industry. In this regard, our most ambitious project to date has been SpaceCon URJC: a space-themed conference by and for university students, bringing together professionals from aerospace companies, space agencies, and research groups in a month-long virtual conference. Over a series of presentations and interviews, students can get a glimpse of a variety of possible careers in everything from satellite manufacturing, orbital mechanics, space debris, and everything in between. With an initial run in 2020, SpaceCon has been repeated in 2021 with great success. In short, COSMOS, while promoting a passionate interest for Space, has become a common meeting point for students and professors outside the fixed and fitted courses, where creativity can boom and grow.

Published

2022

48. Zinc, steel and rocketry: Western mainstreaming of empirical Indian technologies.

Author

Kochhar, Rajesh

Subjects

*ZINC, *STEEL, *ROCKETRY, *CORPORATE profits, *DISTILLATION

Abstract

During the 18th century, the British, in their capacity as traders and colonialists, came across three technologies empirically developed in India over the years: zinc distillation, steel-making and rocketry. They were tested in Europe and incorporated into the industrial and scientific mainstreams without acknowledgement. [ABSTRACT FROM AUTHOR]

Published

2017

49. Solar sail trajectory analysis with asymptotic expansion method.

Author

Niccolai, Lorenzo, Quarta, Alessandro A., and Mengali, Giovanni

Subjects

*SOLAR sails, *SPACE flight propulsion systems, *SPACE vehicles, *AEROSPACE propulsion systems, *ROCKETRY

Abstract

An analytical expression for the trajectory equation of a solar sail spacecraft is available in special cases only, including the well known logarithmic spiral. The latter, however, cannot be used when the parking orbit is circular. This paper presents an approximate solution to this problem, obtained by considering the propulsive acceleration as a perturbation effect acting on a Keplerian trajectory in a heliocentric (two-dimensional) mission scenario. In this context, the spacecraft dynamics are approximated by an asymptotic series expansion in terms of non-singular generalized orbital elements. Under the assumption that the propulsive acceleration is small compared to the local Sun's gravitational attraction, a first order approximation is shown to be very accurate in predicting the trajectory of the spacecraft and the evolution of the non-singular orbital parameters of the osculating orbit. A periodic rectification procedure improves the method accuracy without significantly affecting the computational time, as is confirmed by numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2017

50. Fifty years of IAA History Symposia (1967–2016).

Author

Skoog, A. Ingemar and Hall, R. Cargill

Subjects

*ROCKETRY, *SPACE flight propulsion systems, *ASTRONAUTICS, *SPACE flight, *SPACE tourism

Abstract

The International Academy of Astronautics (IAA) Symposia on the History of Rocketry and Astronautics have been held annually at the International Astronautical Congresses since 1967. During these past 50 years nearly 800 papers have been presented and subsequently published in the proceedings. With a 20-year rule imposed for historical presentations, the first 10 symposia concentrated on pre-World War II and early 1950s activities. A surprisingly large number of papers on early, less well-known Soviet-Russian contributions to rocketry and astronautics were presented in the first symposia, despite the ongoing Space Race between the U.S and USSR. Another important element in these symposia involved memoir papers offered by pre- and post-war rocket and astronautics pioneers from many countries, and the participation of many of these pioneers in person. In sum, the history of national space and rocket projects from some 40 countries were presented over the years in IAA History Symposia. These 50 symposia have provided a platform for scholars and professional and non-professional historians to meet and discuss the history of rocketry and astronautics, and to personally interview many space pioneers, most of whom today are deceased. Their personal recollections have since been shared with a large audience. Over time, IAA history papers divided into recognizable periods: ancient times through the 19th century, and the 20th and 21st centuries, which separate among actions and events that took place before 1945, in 1945 to 1957, and after 1957 (which marked the beginning of the space age). Proceedings of the IAA History Symposia have been published in English, ultimately in the History Series of the American Astronautical Society (AAS) and its publishing arm, Univelt Inc., under an agreement secured with the IAA. This paper presents an overview of the IAA History Symposia. It examines the early years of the history committee and its first symposium, the evolution of subsequent symposia, and it recognizes those individuals who shaped these symposia and the publication of its proceedings. [ABSTRACT FROM AUTHOR]

Published

2017