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This is the very first ‘inside story’ of a key part of the Soviet manned space programme, detailing the development of Soviet/Russian spacesuits. The authors, as participants in the programme, provide details of events, previously unknown in the West, including their technical development. These space suits were an important part of the many Soviet firsts in the space race – Yuri Gagarin’s flight, Valentina Tereskova, the first woman in space, the first space walk by Alexei Leonov, and the first transfer on orbit from one spacecraft to another. All previous books on Soviet manned space flights focus on the spacecraft and cosmonaut teams. This book provides a total overview of the successful Soviet/Russian development of space suits and subsequent space walks from Vostok to MIR and ISS.
* the most accurate and comprehensive work on U.S. spacesuits ever published. *A unique insight into the development of US spacesuits through to the present day. * Presents in context the authors’ unique collection of 172 black and white photographs. * Explains why spacesuits are a last refuge for astronauts for survival. * Details many technically and historically interesting developments, but which never achieved fruition.
The goal of landing a man on the Moon and returning him safely to Earth required the development of three things: spacecraft, launch vehicles, and protective clothing. Spacesuits: Within the Collections of the Smithsonian National Air and Space Museum takes the reader through the development of the last category, the spacesuits used during this venture. Highlighting the pressure suits created during the years leading up to the lunar missions and beyond, this book features dramatic photographs of the Smithsonian's collection, as well as never-before-published historical images of spacesuit development and testing-range-of-motion studies, for example, in which researchers wore spacesuits while playing baseball and football. The book also includes a group of advanced spacesuits, which, though never used on a mission, are in many respects the most exciting suits ever created. One suit glove has steel fingernails and sharkskin pads, in an attempt to harness the abilities of the human hand. Spacesuits are surprisingly fragile; they are made for a short lifespan in the most extreme of conditions, and long-term survival is not part of their design process. The final chapter touches briefly on the current conditions of historic suits, how they have held up over time, the reasons for their deterioration, and the rewards and difficulties associated with caring for and preserving these very complex and iconic artifacts. From the first spacesuit designs of the 1930s through those worn on the landmark Apollo-Soyuz program of 1975, Spacesuits provides a behind-the-scenes look at the history of these remarkable creations, including some that have never before been publicly displayed.
How the twenty-one-layer Apollo spacesuit, made by Playtex, was a triumph of intimacy over engineering. When Neil Armstrong and Buzz Aldrin stepped onto the lunar surface in July of 1969, they wore spacesuits made by Playtex: twenty-one layers of fabric, each with a distinct yet interrelated function, custom-sewn for them by seamstresses whose usual work was fashioning bras and girdles. This book is the story of that spacesuit. It is a story of the triumph over the military-industrial complex by the International Latex Corporation, best known by its consumer brand of "Playtex"—a victory of elegant softness over engineered hardness, of adaptation over cybernetics. Playtex's spacesuit went up against hard armor-like spacesuits designed by military contractors and favored by NASA's engineers. It was only when those attempts failed—when traditional engineering firms could not integrate the body into mission requirements—that Playtex, with its intimate expertise, got the job. In Spacesuit, Nicholas de Monchaux tells the story of the twenty-one-layer spacesuit in twenty-one chapters addressing twenty-one topics relevant to the suit, the body, and the technology of the twentieth century. He touches, among other things, on eighteenth-century androids, Christian Dior's New Look, Atlas missiles, cybernetics and cyborgs, latex, JFK's carefully cultivated image, the CBS lunar broadcast soundstage, NASA's Mission Control, and the applications of Apollo-style engineering to city planning. The twenty-one-layer spacesuit, de Monchaux argues, offers an object lesson. It tells us about redundancy and interdependence and about the distinctions between natural and man-made complexity; it teaches us to know the virtues of adaptation and to see the future as a set of possibilities rather than a scripted scenario.
This book tells the story of the Soviet and Russian lunar programme, from its origins to the present-day federal Russian space programme. Brian Harvey describes the techniques devised by the USSR for lunar landing, from the LK lunar module to the LOK lunar orbiter and versions tested in Earth’s orbit. He asks whether these systems would have worked and examines how well they were tested. He concludes that political mismanagement rather than technology prevented the Soviet Union from landing cosmonauts on the moon. The book is well timed for the return to the moon by the United States and the first missions there by China and India.
On April 12, 1961, Yuri Gagarin became the first person in history to leave the Earth's atmosphere and venture into space. His flight aboard a Russian Vostok rocket lasted only 108 minutes, but at the end of it he had become the most famous man in the world. Back on the ground, his smiling face captured the hearts of millions around the globe. Film stars, politicians and pop stars from Europe to Japan, India to the United States vied with each other to shake his hand. Despite this immense fame, almost nothing is known about Gagarin or the exceptional people behind his dramatic space flight. Starman tells for the first time Gagarin's personal odyssey from peasant to international icon, his subsequent decline as his personal life began to disintegrate under the pressures of fame, and his final disillusionment with the Russian state. President Kennedy's quest to put an American on the Moon was a direct reaction to Gagarin's achievement--yet before that successful moonshot occurred, Gagarin himself was dead, aged just thirty-four, killed in a mysterious air crash. Publicly the Soviet hierarchy mourned; privately their sighs of relief were almost audible, and the KGB report into his death remains secret. Entwined with Gagarin's history is that of the breathtaking and highly secretive Russian space program - its technological daring, its triumphs and disasters. In a gripping account, Jamie Doran and Piers Bizony reveal the astonishing world behind the scenes of the first great space spectacular, and how Gagarin's flight came frighteningly close to destruction.
"There's something intriguing to be learned on practically every page... [How to Astronaut] captures the details of an extraordinary job and turns even the mundane aspects of space travel into something fascinating."––Publishers Weekly Ride shotgun on a trip to space with astronaut Terry Virts. A born storyteller with a gift for the surprising turn of phrase and eye for the perfect you-are-there details, he captures all the highs, lows, humor, and wonder of an experience few will ever know firsthand. Featuring stories covering survival training, space shuttle emergencies, bad bosses, the art of putting on a spacesuit, time travel, and much more!
This reference work gathers all of the latest technologies, information, definitions and explanations of spacecraft life support systems, while providing in-depth coverage of the current knowledge of the business of keeping astronauts alive during their missions. It is intended that this MRW be the go-to reference work not only for aerospace engineers, but also for graduate and undergraduate aerospace engineers and space scientists. The area of spacecraft life support is comprised of dozens of specialties and sub-specialties within the fields of engineering, biophysics, and medicine. As space agencies around the world pursue cutting-edge life support technologies, much more information and data is accumulated. When humans move out into the solar system to stay for long durations, the most immediate challenge will be the provision of reliable and robust life support systems in locations devoid of food, air, and water. These life support systems must provide these commodities in each phase of spaceflight, including intra-vehicular activity (IVA) and extra-vehicular activity (EVA). Systems supporting human life must also fulfill myriad requirements: exceptional reliability in the space environment, allowing maintenance and component replacement in space; reduced resupply mass of consumables and spares; the ability to utilize local planetary resources for self sufficiency; and minimized mass power and volume requirements. These requirements will assume ever greater importance as bolder missions are envisioned and more sophisticated life support systems are required. For example, the next decade could see human missions to Mars and a return to the Moon. In the not-so-distant future, there is the prospect of Mars One and the creation of a permanent extraterrestrial colony. It may appear that a suitable environment can be created simply by reproducing terrestrial environmental conditions within a vehicle. In reality, it is first necessary to define the environmental characteristics humans require and match these requirements with the myriad design constraints. This is no easy task, because implementing these environmental parameters within a spacecraft can be challenging, while balancing the various requirements and constraints can test the abilities of even the most gifted aerospace engineer. Yet it is a crucial field of study and the experts contributing to this volume are on the very front lines.
This, fifty years after Sputnik, is the definitive book on the Russian space program. The author covers all the key elements of the current Russian space program, including both manned and unmanned missions. He examines the various types of unmanned applications programs as well as the crucial military program, and even analyzes the infrastructure of production, launch centres and tracking. You’ll also find discussion of the commercialization of the program and its relationship with western companies. Russia’s current space experiment is also put in a comparative global context. Strong emphasis is placed on Russia’s future space intentions and on new programs and missions in prospect.