UAH Archives, Special Collections, and Digital Initiatives

Browse Items (156 total)

  • Lettmrgeorgemlow_120208120312.pdf

    Letter to George M. Lowe and Joseph F. Shea from H.A. Storms president continuing a conversation that was left unfinished.
  • Lettmremme_120208114631.pdf

    Letter to Mr. Eugene M. Emme from Donald F. Horneg regarding her request for her report to be read by Professor Logsdon.
  • Lettmrdavichris_081407121523.pdf

    Letter to Mr. David L. Christensen from Helmut J. Horn regarding the reports he requested.
  • Lettlieugenesamu_120208112528.pdf

    Letter to Lieutenant General Samuel C. Phillips from George M. Lowe regarding what happened on the Apollo 6 flight.
  • Lettfrmwmet_011508085357.pdf

    Letter stating that "A review of the research origins of the Lance weapon system - Project Hindsight -Task 1 supplement" is inside as requested.
  • launvehiengiprojdeveplanjanu1,1967.pdf

    This revised edition of the Launch Vehicle Engines Project Development Plan supersedes the issue dated July 1, 1965. Significant changes which have been made are:- Removal of classified data to permit publication as an unclassified document; - Removal of material applicable to the RL-10 Engine Project which was transferred to the Lewis Research Center effective May 1, 1966; - Elimination of detailed schedules which quickly become obsolete; - Punched for maintenance in loose-leaf 3-ring binders and for ease in updating material through issuance of replacement sheets. Binders are not furnished. The information in this document is current to January 1, 1967.; The Launch Vehicle Engines Project Development Plan is established in accordance with requirements of NASA General Management Instruction 4-1-1, Planning and Implementation of NASA Projects, and OMSF Instruction MP 9320.044, Preparation and Revision of Program/Project Development Plans (PDP's). The Plan, herein referred to as the PDP, has been developed within the scope of current Apollo Projects Approval Documents (PADS) and will be maintained by the Engine Program Manager to identify program requirements, responsibilities, tasks, and resources, and time phasing of major actions required to accomplish the Engine Program.
  • launcont_030209160221.pdf

    Description of an 8 x 10 inch black and white photograph.
  • kscaposatVmastespla_110207091724.pdf

    The John F. Kennedy Space Center (KSC) Apollo/Saturn V Development/Operations Plan, K-PM-0, establislies the requirement for an Apollo/Saturn V Master Test Plan (MBP). This document, prepared by the Saturn Systems Office.
  • Keyeveninthe_120408112540.pdf
  • Intewithdrwerh52564_121008163244.pdf

    Transcription of an interview with Wernher von Braun and Mr. Sohier.
  • Inteprobspaceexpe_092507162431.pdf

    Space experimentation is expanding rapidly. Unmanned satellites are being equipped with precision instruments of greater power, and manned space stations accommodating large crews are in the drawing-board stage. The interface problems between these sophisticated instruments and between man, the spacecraft, and the supporting groundstations are multidimensional. This paper analyzes the scientific/technical areas of space experimentation, and continues with a review of the subsystems and support systems required to supply and operate the large variety of instruments. Areas of major integration efforts are singled out and the requirements for further developments and improvements are listed. A bibliography of 95 references is enclosed to assist in the identification of more detailed reports on all vital aspects of space experimentation.; Archive copy is a photocopy.; Supplement to IEEE Transactions on Aerospace and Electronic Systems, Vol. AES-2, No. 4, July, 1966. Pages 237 to 255.
  • Inteoutldrwerh_121008162309.pdf

    An outline of an interview with Wernher von Braun.
  • Instunitprogrevi.pdf

    Handwritten names and phone numbers on the first page. Apollo / Saturn Team.
  • Instunitcructest_091307144134.pdf

    A three-foot high Instrument tional Business Machines Corporation will be launched into orbit with a huge Saturn second stage
    later this month in a crucial test for the Apollo lunar program.
  • ibmmobroolenfletoaposatunifab_031808115026.pdf

    This article was published in the April 1967 issue of Contamination Control, Volume VI, Number 4. States: "The extreme sensitivity of critical parts in the Apollo /Saturn Instrument Unit (IU) has demanded unique clean room techniques by International Business Machines Corporation."
  • IBMcleanroomcome_042209102226.pdf

    A history of the IBM's Space Systems Center clean room and a description of its uses.
  • ibmaposatpreinf_051608130354.pdf

    These are the facts about IBM's role as a NASA prime contractor in the Apollo/Saturn program. They are organized for quick reference. Computer terms are defined in a glossary. Glossy prints of photographs and illustrations are available from IBM information offices listed on the following page. Please order by photo number. Andrew J. Cella Manager of Information, IBM Federal Systems Division.
  • histsummvonbraumissteam_030607115637.pdf
  • Highenermissforsatur_091307144922.pdf

    Presented to Society of Automotive Engineers, Advanced Launch Vehicle & Propulsion Systems. When the Apollo lunar landing project is complete, the Saturn and Apollo hardware will only have begun to realize their ultimate potential for space exploration. The immense reserve of Apollo technology, facilities, and booster capability can then be directed to the achievement of national goals which lie far beyond the initial lunar landing. In achieving the Apollo lunar objectives, large investments will have been made in launch facilities, tracking systems, propulsion techniques, reentry systems, lunar landing systems and rendezvous technologies. Although developnent in these specialized areas has been tailored to the needs of Apollo, numerous studies by NASA and industry have demonstrated the feasibility of using the spacecraft, launch vehicles, and operating techniques for missions far more complex than lunar landings. Amortization of this hardware will prove cost-effective for missions of more sophisticated applications.
  • Heliutilapol_012609124942.pdf

    Helium is used extensively throughout the Apollo/Saturn V space vehicle for a number of applications. The welding use is not discussed since it is a special topic. In the first stage (S-IC), helium is used for liquid oxygen tank pressurization during vehicle checkout and launch.
  • genloconaddr_071807102649.pdf

    Address from General O'Conner to the Rotery Club bringing them up to date on organizational developments inside the George C. Marshall Center.
  • FlevalofthecomandcommusysabAS501_080408170122.pdf

    The first test of the command and communications system, a unified frequency S-band system, aboard AS-501 was successful. Compatibility of this system with the MSFN/USB sites was established. The onboard transponder and antenna system including antenna switching performed as predicted. The command performance was excellent with 5747 valid commands received onboard out of 5748 commands transmitted. Data reduction problems prevented a complete analysis of the tracking data. Telemetry system performance was satisfactory with a measured bit-error-rate of 4 x10-5 while over the Ascension Island station. This flight provided valuable data which can be used to define vehicle to-ground-station interfaces, to establish attitude constraints during translunar injection, and to improve operational procedures. One more test as successful as the AS-501 test would qualify the system as operational.; May 3,1968.
  • firannlogmansymsep13and141966.pdf

    The proceedings of the First Annual Logistics Management Symposium are forwarded with the hope that the information will be of assistance to attendees and their staffs in the planning and management of logistics support programs. I recognize that there is still much study required before all management techniques and procedures for support programs are known and understood, but I believe that support problems are made easier by exchange of knowledge. The Symposium was based on this belief and we plan to continue the search for ways to achieve better program support at a lower cost. Edmund F. O'Connor, Director, Industrial Operations.
  • f-1eng.jpg

    8 x 10 inch black and white photograph. Engine parts are labeled.
  • Extesatu_111307104548.pdf

    This paper discusses the possible applications of Saturn vehicles to future space exploration. Potential missions utilizing Apollo derived hardware are examined. Research, development, and operations in earth orbit as well as lunar exploration, unmanned and manned interplanetary exploration are reviewed. These hypothetical missions are discussed in the context of the present and potential capability of three configurations of the Saturn vehicle; an uprated Saturn I, a three-stage Saturn V and a four-stage Saturn V. NOTE: Work presented herein was conducted by the Douglas Missiles and Space Systems Division under company-sponsored research and development funds. Therefore, the concepts and objectives described within this paper reflect the opinions of the authors and do not necessarily constitute endorsement by NASA, the Air Force, or any other U.S. Government organization. The nominal performance numbers presented are typical of the current configurations and possible future vehicle configurations.
  • evoofthesatboo.jpg

    8 x 10 inch Black & White photograph. MS-G 103-63 Nov. 22, 63 is on the photograph. Displays the evolution of space-rocket designs side-by-side.
  • enggcappresentation.pdf.pdf

    This Engineering Capabilities Presentation lists the competence and capability that has been demonstrated by the Space Support Division of Sperry Rand Corporation while fulfilling contractual commitments in the aerospace industry. This is a preliminary presentation; the preparation of a complete capabilities history of the division is currently in the developmental stage. The Capabilities Experience Summary is comprised of ten categories. e.g. Category 1 - Aeronautics, etc. The capabilities reported herein were performed by the Space Support Division under Contract NAS8-20055 to the National Aeronautics and Space Administration, George C. Marshall Flight Center, Astrionics Laboratory, Huntsville, Alabama.
  • scan0010rev_080107115233.jpg

    8 x 10 inch black and white photograph.; Images included are: A-3 oxygen-hydrogen, H-1 oxygen-kerosene, J-2 oxygen-hydrogen, F-1 oxygen-Kerosene, M-1 oxygen-hydrogen. The thrust pounds is also listed.Shows them in reference to a human as a scale.
  • Dxprior_120108121209.pdf

    Memorandum discussing the priorization of various nlunar landing vehicle projects.
  • Drvonbraucale_121008161948.pdf

    The first page contains a typed routing slip. A list of Wernher von Braun's meetings with President Kennedy, the Vice President and members of their immediate staff.
  • DrGeorgeMueller_030408091433.pdf

    G. E. Challenge. Article written about George Mueller, NASA Associate Administrator for Manned Space Flight.
  • dousea.jpg

    8 x 10 inch black and white photograph.; Drawing contains information about the modified epoxy adhesive, aluminum film, mylar film, perforated phenolic honeycomb core, tank skin, mylar honeycomb core, polyurethane adhesive, weight and thermal conductivity.; Photo negative no. 651746 M-268.
  • Devsatsys.pdf.pdf

    This paper describes the major highlights or milestones passed in the development of a System Safety Program at MSFC since early 1967. it discusses accomplishments, problems resolved, and decisions made for Apollo Saturn vehicles AS-501 and AS-502, and projects that are to be accomplished on future Saturn vehicles.
  • devloxrp1engsatapollaunveh_041107135046.pdf

    The development of liquid rocket engines follow similar patterns regardless of engine size. During the development of the H-1 and F-1 engines, may problems were encountered. Mehtods of solving the combustion instability problem are discussed.; AIAA 4th Propulsion Joint Specialist Conference, Cleveland, Ohio, June 10-14, 1968.; Also available on NASA Technical Reports Server (NTRS) as unclassified. Can be ordered. Also on AIAA.
  • conditions.jpg.jpg

    8 x 10 inch black and white photograph. A photograph of a list of things contributing to stress corrosion. Referenced by "Materials in Space Exploration." Is part of envelope containing photos accompanying C. E. Cataldo paper "Materials in Space Exploration."
  • commbulkdraw.jpg.jpg

    8 x 10 inch black and white photograph; This is a cutaway drawing of the bulkhead with information about the LH2 tank skin, insulation, Aft LOX bulkhead, 2014-T6 alum skin and fiberglass core. Part of an envelope with photos accompanying C. E. Cataldo paper "Materials in Space Exploration."
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