Society of Automotive Engineers, 2002. — 57 p. SAE JA1012 (“A Guide to the Reliability-Centered Maintenance (RCM) Standard”) amplifies and clarifies each of the key criteria listed in SAE JA1011 (“Evaluation Criteria for RCM Processes”), and summarizes additional issues that must be addressed in order to apply RCM successfully.
SAE International, 2009. — 18 p. The Physics-of-Failure (PoF) is a science-based approach to reliability that uses modeling and simulation to design-in reliability. This approach models the root causes of failures such as fatigue, fracture, wear, and corrosion. Computer-Aided Design (CAD) tools have been developed to address various loads, stresses, failure mechanisms and...
Society of Automotive Engineers, 1976. — 4 p. Historically SAE has been concerned with nomenclature as an integral part of the standards development process. Guidelines for automotive nomenclature were written in 1916, were last revised in 1941, and were included in the SAE Handbook until 1962. The present diversity of groups working on nomenclature in the various ground...
AISC, 2017. — 110 p. Design Guide 31 provides a brief history of castellated and cellular beams and highlights recent innovative applications and potential economic benefits of their use. The current state of practice of the design of castellated and cellular beams is presented, including differences in failure modes with traditional beams. Detailed design examples are included...
AISC, 2013. — 176 p. With the release of the 2005 AISC Specification for Structural Steel Buildings, the state of the art in structural steel design was advanced to include three methods for stability design, including the introduction of the powerful new approach - the direct analysis method. The primary purpose of this guide is to discuss the application of each of the three...
AISC, 2014. — 400 p. Design Guide 29, Vertical Bracing Connections--Analysis and Design, provides guidance for the design of vertical brace connections. The guide includes an overview of the design philosophy of common bracing systems based on structural principles. Using the lower bound theorem of limit analysis and the uniform force method, the guide addresses:...
SAE International, 2009. — 10 p. This document is intended to prescribe consistent requirements for CSI management for organizations and suppliers who perform work for prime contractors receiving direct contracts from U.S. government agencies (i.e., first-tier or prime suppliers). The contractor, which receives the initial government contract, will receive their CSI...
SAE International, 2009. — 27 p. The aviation, space, and defense industries rely on the development and manufacture of complex products comprised of multiple systems, subsystems, and components each designed by individual designers (design activities) at various levels within the supply chain. Each design activity controls various aspects of the configuration and...
Society of Automotive Engineers, 1986. — 42 p. AIR 1939 provides guidelines in lieu of directives to achieve consistent Life Cycle Cost analysis for military aircraft engines.
SAE International, 2010. – 75 p. This standard has been completely rewritten to incorporate the 2009 changes to IAQG 9100-series standard quality management system requirements, the requirements for accredited Certification Bodies (CBs) introduced by International Organization for Standardization (ISO) / International Electrotechnical Commission (IEC) 17021, and inputs received...
SAE International, 2003. – 85 p. The purpose of this document is to define the content and the presentation of the Assessment Report of the section 1 of AS9100.
Society of Automotive Engineers, 2009. – 33 p. This standard has been revised to incorporate the requirements of ISO 9001:2008. In addition, industry requirements, definitions and notes have been revised and additional requirements have been included in response to stakeholder needs.
Society of Automotive Engineers, 2001. – 8 p. This document contains the minimum requirements for supplier Inspection and Test Quality System. It is emphasized that the quality system requirements specified in this standard are complementary (not alternative) to the contractual and applicable law and regulatory requirements.
Automotive Industry Action Group (AIAG), 2010. — 240 p. This Reference Manual was developed by a Measurement Systems Analysis (MSA) Work Group, sanctioned by the Chrysler Group LLC, Ford Motor Company, and General Motors Corporation Supplier Quality Requirements Task Force, and under the auspices of the Automotive Industry Action Group (AIAG). The Work Group responsible for...
Automotive Industry Action Group (AIAG), 2002. — 240 p. The manual is an introduction to measurement system analysis. It is not intended to limit evolution of analysis methods suited to particular processes or commodities.
American Institute of Steel Construction, 2013. — 159 p. Stainless steel is the name given to a family of corrosion and heat resistant steels containing a minimum of 10.5% chromium. Just as there are various structural and engineering carbon steels meeting different strength, weldability and toughness requirements, there is also a wide range of stainless steels with varying...
Houston, Texas, USA : SPC Engineering and Manufacturing. 47 p. Дата вступления в силу: 5 апреля 2005 г. Английский язык. Документ Schlumberger содержит рекомендуемые моменты свинчивания замковых резьб бурового инструмента, используемого для бурения нефтегазовых скважин. Момент свинчивания определяется по: — типу резьбы — наружный диаметр (O.D.) соединения с внутренней резьбой...
Выходные данные не указаны. This Standard establishes processes for documenting the mitigating steps taken to reduce the harmful effects of Pb-free tin in electronic systems. This Standard is applicable to Aerospace and High Performance (AHP) electronic applications that procure equipment that may contain Pb-free tin finishes.
Выходные данные не указаны. The Scope of this standards publication includes information concerning the manufacture, testing, and performance of laminated thermosetting products in the form of sheets, rods, and tubes. A new format for the Industrial Laminate (Unclad) Standard has been established in which the requirements for the physical and electrical properties of the...
Standart by UOP LLC, A Honeywell Company, 01/01/1977. — 16 p. This method is for determining hydrogen sulfide, mercaptan sulfur and carbonyl sulfide in gaseous hydrocarbons and in liquefied petroleum gas (LPG) of ordinary properties. Also covered is the determination of mercaptan in non-ordinary LPG which may contain a wide range of hydrocarbon types from ethane to such...
UOP, A Honeywell Company, 2009. — 13 p. This method is for determining bromine number and bromine index, by potentiometric titration, in hydrocarbons that are stable at room temperature and have endpoints below 550ºC (1022ºF) as determined by ASTM Method D 1160, “Distillation of Petroleum Products at Reduced Pressure,” or D 2887, “Boiling Range Distribution of Petroleum...
NY, USA, US Department of Defense, 2019. — 1089 p. This Standard contains materiel acquisition program planning and engineering direction for considering the influences that environmental stresses have on materiel throughout all phases of its service life. It is important to note that this document does not impose design or test specifications. Rather, it describes the...
The National Board of Boiler and Pressure Vessel Inspectors. — Date of Issue July 1, 2021. — 142 p. This Part provides guidelines and requirements for the installation, in-service inspection and testing, and repairs of pressure relief devices.
The National Board of Boiler and Pressure Vessel Inspectors. — Date of Issue July 1, 2021. — 322 p. This part provides requirements and guidelines that apply when performing repairs and alterations to pressure-retaining items. The National Board administers four specific accreditation programs: “R” — Repairs and Alterations to Pressure-Retaining Items “NR” — Repair and...
The National Board of Boiler and Pressure Vessel Inspectors. — Date of Issue July 1, 2021. — 402 p. The NBIC recognizes three important areas of post-construction activities where information, understanding, and following specific requirements will promote public and personal safety. These areas include: Installation Inspection Repairs and Alterations The NBIC provides rules,...
The National Board of Boiler and Pressure Vessel Inspectors. — Date of Issue July 1, 2021. — 174 p. This part provides requirements and guidelines for the installation of power boilers, steam heating boilers, hot-water heating boilers, hot-water supply boilers, potable water heaters, pressure vessels and piping. The proper installation of boilers, pressure vessels, piping, and...
International Code Council, Inc. and New York State Department of State. — 2019. — 736 p. The Building Code of New York State establishes minimum requirements for building systems using prescriptive and performance-related provisions. It is founded on broad-based principles that make possible the use of new materials and new building designs. This 2020 edition was developed as a...
VMEbus International Trade Association, 1995. — 305 p. The VME64 specification establishes a framework for 8-, 16-, 32, and 64-bit parallel-bus computer architectures that can implement single and multiprocessor systems. It is based on the VMEbus specification released by the VMEbus Manufacturers Group (now VITA) in August of 1982. This bus includes the initial four basic...
Washington, Bureau of Standards, 1932. — 394 p. Standardized communication promotes human progress. Everyone has unique needs to add to the catalogue of human desires. Everyone has also unique means to meet such desires. Communication links the needs and the means. At the ends of every line of communication are the sender and receiver—a general to his army, a newspaper to its...
Surface Vehicle Recommended Practice. SAE International, 2016, 30 p. В стандарте приведена классификация систем управления автомобилей по степени автоматизации, ставшая достаточно распространенной в последнее время. Приводятся определения терминов, связанных с системами автономного движения: Dynamic Driving Task (DDT) - динамическая задача вождения Object and Event Detection...
Surface Vehicle Recommended Practice. SAE International, 1996, 29 p. J1939 - это набор стандартов коммуникационной и диагностической сети для различных машин. Сеть, созданная на основе J1939, в качестве канального уровня использует коммуникационную шину CAN стандарта CAN 2.0b. Используются только расширенные идентификаторы (29 бит). В настоящее время стандарт находит широкое...
Office of Law Enforcement Standards, National Institute of Standards and Technology, 2008. В этом техническом документе представлен стандарт NIJ-0101.06, устанавливающий требования к индивидуальной бронезащите, а также представляющий точные и подробные методы испытаний средств индивидуальной бронезащиты.
National Institute of Justice, 2000. Этот стандарт устанавливает минимальные требования и методы испытаний для средств индивидуальной защиты, предназначенных для защиты туловища от колющих и режущих ударов.
SAE International, 1992, p. 11 В стандарте SAE содержатся основные размеры и допуски для картеров маховика двигателя и фланцев картеров коробок передач. В нем также содержатся нормируемые размеры отверстий на фланце коленчатого вала для подшипника первичного вала коробки передач. This SAE Standard specifies the major dimensions and tolerances for Engine Flywheel Housings and the...
The North American Specification for the Design of Cold-Formed Steel Structural Members, as its name implies, is intended for use throughout Canada, Mexico, and the United States.This Specification supersedes the 2001 edition of the North American Cold-Formed Steel Specification, the previous editions of the Specification for the Design of Cold-Formed Steel Structural Members...
Military standard. — Department of Defence (DoD). — 20 August 1999. — 253 p. This standard establishes interface and associated verification requirements for the control of the electromagnetic interference (emission and susceptibility) characteristics of electronic, electrical, and electromechanical equipment and subsystems designed or procured for use by activities and agencies...
Report/Survey, Washington, American Gas Association, Year 2007, 110 Pages This report is published in the form of a performance-based specification for multipath ultrasonic meters for gas flow measurement. It is the result of a collaborative effort of users, meter manufacturers, flow measurement research organizations and independent consultants forming Task Group R-9 of AGA’s...
Manufacturers Standardization Society (MSS). 2003. 12 p. This Standard Practice establishes requirements for connections to valves and fittings to accommo- date drains and bypasses in all pressure classes. Specific requirements are: a) Standard symbols and locations of openings for drains and bypasses. b) Standard size of drains and bypass openings. c) Minimum thread lengths in...
July 2001 with addenda February 2005 This report was written under contract to the American Lifelines Alliance, a public-private partnership between the Federal Emergency Management Agency (FEMA) and the American Society of CiVil Engineers (ASCE). This report was reviewed by a team representing practicing engineers and academics. The American Lifelines Alliance (ALA) was formed...
Manufacturers Standardization Society (MSS). 2012. 21 p. This Standard Practice covers essential dimensions, finish, tolerances, testing, marking, material, and minimum strength requirements for 90 degree integrally reinforced forged branch outlet fittings of buttwelding, socket welding, and threaded types. Fittings manufactured to this Standard Practice are designed to make a...
These requirements cover steel primary, secondary and diked type atmospheric storage tanks intended for noncorrosive, stable flammable and combustible liquids that have a specific gravity not exceeding 1.0 in aboveground applications.
Стандарт США ASCE/SEI 7-10 “Минимальные расчетные нагрузки для зданий и других сооружений” 658 стр., 2010. Minimum Design Loads for Buildings and Other Structures provides minimum load requirements for the design of buildings and other structures that are subject to building code requirements. Loads and appropriate load combinations, which have been developed to be used...
Surface Vehicle Recommended Practice. SAE International, 2011, 1201 p.
J1939 - это набор стандартов коммуникационной и диагностической сети для различных машин. Сеть, созданная на основе J1939, в качестве канального уровня использует коммуникационную шину CAN стандарта CAN 2.0b. Используются только расширенные идентификаторы (29 бит). В настоящее время стандарт находит широкое...
This stendard establishes the minimum requirements for the qualification and certification of personnel performing nondestructive testing(NDT) ,or nondestructive evaluation (NDE) in the aerospace manufacturing,service,maintenance and overhaul industries
American Association of State Highway and Transportation Officials (AASHTO). Washington, D.C, USA. 2003. 11p. This test method covers the determination of the California Bearing Ratio (CBR) of pavement subgrade, subbase, and base/course materials from laboratory compacted specimens. The test method is primarily intended for but not limited to, evaluating the strength of cohesive...
American Association of State Highway and Transportation Officials (AASHTO). Washington, D.C, USA. 2005. 5p. This method is intended for the determination of moisture content of hot mix asphalt (HMA) by drying in an oven. This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety concerns associated with...
American Association of State Highway and Transportation Officials (AASHTO). Washington, D.C, USA. 2014. 8 This test method covers how to determine asphalt binders’ resistance to damage by means of cyclic loading employing linearly increasing load amplitudes. The amplitude sweep is conducted using the Dynamic Shear Rheometer at the intermediate pavement temperature determined...
Американские нормы на проектирование подъемных устройств и оборудования (engl). 113 стр. This Standard establishes National Aeronautics and Space Administration minimum requirements for, but not all details of, the design, construction, testing, inspection, maintenance, operation, and personnel licensing of lifting devices and equipment in order to enhance safety and...
American Water Works Association - 2002 - Ed.2 - p.181 This is the second edition of AWWA M23, PVC Pipe—Design and Installation. This manual provides the user with both general and technical information to aid in design, procurement, installation, and maintenance of PVC pipe and fittings. 1-1 Class 12454 requirements 1-2 Approximate relationship for PVC for PVC pipe strength...
Publisher: ASNT. Publish Date: 2015 . Pages: 47. Language: English. Format: PDF. Сборник брошюр по методам NDT Американского общества. Краткое описание содержания и назначение каждой книги. Адреса и стоимость. Collection of publications on the American Society of NDT methods. A brief description of the content and purpose of each book. Addresses and cost.
Военный стандарт армии США MIL-STD-461F появился после внесения изменений в предыдущий стандарт MIL-STD 461E в начале 2008 года. В него также вошли нормы более раннего стандарта MIL-STD-462. В 2012 году он был подтвержден еще раз без изменений. Стандарт предусматривает тестирование оборудования на электромагнитную совместимость.
Подготовлено Техническим комитетом Института производства труб (PFI). Редакция 1992 г. Повторно утвержден 1998 г. В данном стандарте представлены методы, технологические требования, критерии допусков и приемки отводов трубопроводов заводского изготовления.
American Iron and Steel Institute (AISI). 2007 Edition with Supplement
2. Revision of :AISI/COFS/PM-2006. 107 p. This standard consists of prescriptive requirements for cold-formed steel floor, wall, and roof framing to be used in the construction of one- and two-family dwellings, townhouses, and other attached and detached single-family dwellings not more than three stories in...
DesignAmerican Iron and Steel Institute (AISI). 2007 Edition. With the Supplement 2. 2008. 20 p. The design of cold-formed steel trusses for load carrying purposes in buildings shall be in accordance with AISI S100 [CSA S136] and AISI S200, except as modified by the provisions of this standard. This standard shall also apply to manufacturing, quality criteria, installation and...
Рекомендации по нагрузкам в строительстве для Америки. Reston, Virginia. Published by American Society of Civil Engineers. 388 стр. Minimum Design Loads for Buildings and Other Structures provides requirements for general structural design and the means for determining dead, live, soil, flood, wind, snow, rain, atmospheric ice, and earthquake loads, as well as their...
American Iron and Steel Institute (AISI). 1st Printing – November 2011. 36 p. The practices in this Code of Standard Practice are a model to address the design, fabrication and installation of cold-formed steel (CFS) structural framing. When adopted wholly or in part by a contract or construction documents, the trade practices that are defined in this Code of Standard Practice...
American Iron and Steel Institute (AISI). 1st Printing – June 2007. 30 p. This standard provides criteria, including material and product requirements for structural members and non-structural members utilized in cold-formed steel framing applications where the specified minimum base steel thickness is between 18 mils (0.0179 inches) (0.455mm) and 118 mils (0.1180 inches)...
American Association of State Highway and Transportation Officials (AASHTO). Washington, D.C, USA. 12 p. This standard practice covers the requirements and testing criteria for the National Transportation Product Evaluation Program (NTPEP) evaluation of erosion control products (ECP) and sediment retention devices (SRD). Common references in this document are, rolled erosion...
5 December 1986
Superseding MIL-G-174A 5 November 1963
This specification is approved for use by all Departments and Agencies of the Department of Defense.
This specification establishes the requirements for optical glass to be used in the fabrication of optical elements
Published: January 1, 2008.
Number of Pages: 27.
This marking system applies to valves, fittings, flanges, and unions used in piping connections which include (but are not limited to) flanged, soldered, brazed, threaded, or welded joints.
The markings specified within this Standard Practice serve to identify the manufacturer, the rating designation, materials of construction,...
Department of Defence (DoD), USA, 2012. – 1007 p. Version F (3 Jan. 2012), superseeding previous version E of 20 November 2006. This standard establishes uniform methods for testing semiconductor devices, including basic environmental tests to determine resistance to deleterious effects of natural elements and conditions surrounding military operations, and physical and...
Feb. 3, 1995 - 11 p. Военный стандарт MIL-STD-1913 разработан и опубликован американским государственным арсеналом «Пикатинни Арсенал». Распространен и употребляется в странах НАТО в соответствии с соглашением по стандартизации STANAG 2324. С недавнего времени применяется в российском стрелковом оружии (AK-12). Описывает систему рельсового интерфейса (так называемая "планка...
NASA, George C. Marshall Space Flight Center, 2012. — 102 p.
Язык: английский
This process specification establishes uniform requirements for the design, fabrication, and inspection of welds in flight and ground support hardware. This process specification combines the lessons learned from extensive Agency-wide welding engineering experiences and combines the requirements of...
Department of Defense USA, 11.01.2012 г., 381 страница. (Эргономика)
This standard establishes general human engineering design criteria for military systems, subsystems, equipment, and facilities
This NPD applies to NASA Headquarters, NASA Centers, including Component Facilities, NASA Technical and Support Service Centers, and to JPL to the extent specified in its contract.
This handbook provides guidance Information pertaining to the implementation of Department of Defense acquisition streamlining policies as directed by DODD 5000.43.
Документ отменён без замены 31.07.2003 г.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA September 10, 2008. 18 p. This standard includes selected environmental exposure tests for hardware operating in earth orbit. The tests included are generally regarded as the most critical and the ones having the highest cost and schedule impact. This standard also includes functional...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 06.20, 2008 . Expiration Date: 06-19-2013. Superseding NASA-STD-6002С. 74 p. This standard and its related handbook, NASA-HDBK-6003, Application of Data Matrix Identification Symbols to Aerospace Parts Using Direct Part Marking Methods/Techniques (DPM), were developed to provide NASA and...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). October 2011. 277 p. This document provides design and procedural requirements appropriate for inclusion in specifications for any human spaceflight program, project, spacecraft, system, or end item. The term spacecraft as used in the standards includes launch vehicles, orbital vehicles,...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). Effective Date: March 22. 2012. Expiration Date: March 22, 2017. 27 p. The purpose of this document is to provide an overview of the VDBP method and to provide test procedure guidelines to the user who chooses to implement this method over traditional heavy ion methods.
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). Effective Date: May 01. 2013. Expiration Date: May 01, 2018. 49 p. This document defines the process, roles, responsibilities, and technical requirements for ESD control. Based on the requirements and guidelines found in this document, the responsible party for each facility or laboratory...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). July 2013. 19 p. This document prescribes requirements for the control and mitigation of performance and reliability risks associated with the use of Lead-free Tin (Sn) and Lead-free Tin (Sn) technology in flight hardware, mission essential support equipment, and elements thereof.
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). October 21, 2011. 52 p. This document establishes the structural requirements for human-rated spaceflight hardware including launch vehicles, spacecraft and payloads. These requirements are applicable to Government Furnished Equipment activities as well as all related contractor,...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). November 2003. 45 p. This document is intended to provide electronic component selection and design insight that is generally not found in other program materials. Reference materials listed in this text are among those considered as required reading for the hardware developer. The...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). April 2009. 60 p. The purpose of this document is to provide a general FCP for implementation of Fracture Control programs on NASA/JSC controlled space-flight hardware to meet the requirements specified in NASA-STD-
5019. This plan will also meets the intent of NASA-STD-5007,...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2013-06-
17. Superseding NASA-STD-2202-93. 53 p. The purpose of this Standard is to define the requirements for a software inspection process aimed at detecting and eliminating defects as early as possible in the software life cycle. This process can be used for any documented product,...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2012-09-05. 37 p. This publication sets forth quality requirements for the manufacture of electronic assemblies and for electrostatic discharge (ESD) control which augment requirements found in one or more of the documents listed in Table 1.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 1998-02- 09. Revalidation Date: 2008-07- 25. Change 2 approved: 2011-03-29. 55 p. This Standard sets forth fiber optic termination and cabling requirements for reliable fiber optic installations, both single- and multi-mode fiber. Special requirements may exist which are not covered...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2008-03-
04. Change 2 Approved: 2011-03-29. 73 р. This standard prescribes NASA’s technical requirements, procedures, and documentation requirements for polymeric applications for electrical and electronic assemblies. This publication sets forth requirements for staking, conformal...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2011-08- 26. Change 1 Approved: 2011-10-28. 15 р. This standard establishes the safety requirements for NASA payloads launched on unmanned Expendable Launch Vehicles (ELVs). This document is applicable to unmanned orbital and unmanned deep space payloads that fly onboard ELVs...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2009-11-06. 55 p. The purpose of this document is to ensure the structural integrity of PVS through implementation of a minimum set of requirements for ground-based PVS in accordance with this document, NASA Policy Directive (NPD) 8710.5, NASA Safety Policy for Pressure Vessels and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2011-12-
08. Change 1 Approved: 2012-05-25. 74 р. This document serves as a companion to NASA Procedural Requirements (NPR) 8715.6 and provides specific requirements and methods to comply with the NASA requirements for limiting orbital debris generation. NASA-Standard (NASA-STD) 8719.14...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2010-01-
29. Change 2 Approved: 2011-12-12. 201 р. This document prescribes the National Aeronautics and Space Administration (NASA) safety standards/procedures for operations involving explosives handling and processing. These operations are an integral part of explosives-related...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2010-08-06. 58 p. This NASA-Standard (NASA-STD) defines the process requirements for managing the application of NASA’s SMA requirements, under the SMA TA. This document is applicable to NASA Headquarters and NASA Centers including Component Facilities, programs, projects, and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2008-11-
19. Superseding NASA-STD-8719.11. 82 p. This standard establishes requirements and responsibilities related to NASA's Fire Protection Program. It contains requirements for fire prevention, detection, control, and suppression through engineering, inspection, training, and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA May 9, 2002. 129 p. This standard applies to overhead and gantry cranes (including top running monorail, underhung, and jib cranes) mobile cranes, derricks, hoists, winches, special hoist supported personnel lifting devices, hydra-sets, load measuring devices, hooks, slings and rigging,...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA January 1998. 50 p. This document is a guideline for implementing a Facility System Safety Program to meet the requirements of NASA Safety Policy and Requirements Document, NHB 1700.1 (V1B). The facility acquisition process information was taken from the NASA Facility Project...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 12.20, 2011. Superseding NASA-STD-7003. 41 p. The purpose of this Standard is to provide a consistent methodology for developing pyroshock test criteria for NASA spacecraft, payload, and launch vehicle hardware during the development, qualification (Qual), flight acceptance (FA), and/or...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 01.20, 2011. Superseding NASA-STD-7001. 39 p. The term vibroacoustics is defined as an environment induced by high-intensity acoustic noise associated with various segments of the flight profile. Vibroacoustics manifests itself throughout the payload in the form of transmitted acoustic...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 03.08, 2012. 29 p. The purpose of this Standard is to describe the general corrosion protection requirements applicable to the surface treatment and finishing of space flight hardware. This Standard contains the minimum requirements necessary to qualify materials and processes for...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 08.26, 2011. Superseding: NASA-STD-6001 and NASA-STD-(I)-6001B. 108 p. The purpose of this Standard is to establish National Aeronautics and Space Administration (NASA) program requirements for evaluation, testing, and selection of materials to preclude unsafe conditions related to...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 03.12, 2012. 88 p. The purpose of this Standard is to specify requirements for design and analysis of threaded fastening systems in NASA spaceflight hardware. This Standard is applicable to all NASA programs and projects. This Standard may not be applicable to ground support...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 08.12, 2011. 47 p. The purpose of this Standard is to specify the minimum structural design requirements for the design, development, and verification of windows, glass, and ceramic structure included in National Aeronautics and Space Administration (NASA) vehicles/elements, habitats,...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 06.12, 2006. 23 p. This standard provides strength and life assessment requirements for National Aeronautics and Space Administration (NASA) liquid fueled space propulsion system engines. "Life," as used in this standard, refers to fatigue and creep. The requirements address analyses and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 03.18, 2011. Superseding NASA-STD-5008A. 72 p. The purpose of this Standard is to establish requirements for the application of protective coatings to mitigate corrosion of exposed carbon steel, stainless steel, and aluminum. This Standard provides a design standard for experienced...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 06.14, 2013. Superseding NASA-STD-5005C. 76 p. The purpose of this Standard is to establish requirements and guidance for design and fabrication of ground support equipment (GSE) to assist National Aeronautics and Space Administration (NASA) space flight programs/projects in providing...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 08.05, 2008. Expiration Date: 08-04-2013. Superseding NASA-STD-5001 and NASA-STD-(I)-5001A. 20 p. The purpose of this standard is to establish NASA structural strength design and test factors, as well as service life factors to be used for spaceflight hardware development and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 06.03, 2007. Superseding NASA-STD-(I)-4005. 16 p. This standard provides requirements relative to various plasma interactions that can result when a high-voltage system is operated in the Earth’s ionosphere and standard practices to eliminate or mitigate such reactions.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 02.05, 2013. Superseding NASA-STD-4003. 35 p. The purpose of this Standard is to define the basic electrical bonding requirements for NASA launch vehicles, spacecraft, payloads, and equipment. Its intent is to provide fundamental aerospace electrical bonding requirements, as well as to...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 01.10, 2011. Superseding NASA-STD-3000 (Together, Vol 1, Vol 2, and the Human Integration Design Handbook (HIDH) supersede NASA-STD- 3000.). 194 p. The scope of this Standard is restricted to human space flight missions and includes all crew activities in all phases of the life cycle...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 03.05, 2007 . Expiration Date: 03-05-2012. Superseding NASA-STD-3000, Vol.1, Chapter 7 and JSC 26882, Space Flight Health Requirements Document. 68 p. NASA policy for establishing standards to protect the health and safety of crew, and for providing health and medical programs for...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA August 1994. 310 p. This Volume 3 of the Man-Systems Integration Standards (MSIS) prepared for the NASA. This volume is a condensed flied guide of pertinent quantitative data extracted from volume 1
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA July 1995. 503 p. This Volume 2 of the Man-Systems Integration Standards (MSIS) prepared for the NASA. This volume contains the appendices which pertain to the MSIS
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA July 1995. 801 p. This Volume 1 of the Man-Systems Integration Standards (MSIS) prepared for the NASA. This documents contains MSIS design considerations, design requirements, and example design solutions for development of manned systems. This is a NASA-level standards document...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 09.03.2013. 25 p. This Standard establishes requirements and responsibilities for the NASA still and motion image records. It contains the required core metadata set and a recommended extended metadata set, along with guidelines to assist NASA organizations in complying with Standard.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 02.08.2012. 17 p. This standard establishes requirements and responsibilities related to NASA audio and video resources for Internet Protocol delivery. It contains requirements for audio and video codecs, bitrates and accessibility.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA April 01, 2011. 34 p. The DTV system standards described in this document are associated with those industrial or professional systems used to produce full motion and full resolution digital video imagery that is suitable for critical closed circuit or broadcast use and which is normally...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center (JSC). August 2009. 107 p. This plan documents the methods by which the NASA Johnson Space Center (JSC) will implement materials and processes control for flight hardware developed by JSC, including International Space Station GFE, Space Shuttle GFE, Constellation Program GFE (including GFE for...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA March 21, 2004. 389 p. This document has been issued to make available to software safety practitioners a guidebook for assessing software systems for software’s contribution to safety and techniques for analyzing and applying appropriate safety techniques and methods to software....
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 06-18-2010. 60 p. The Agency-level quality requirements for ESD safety and control are defined by NPD 8730.5, NASA Quality Assurance Policy Requirements, and are wholly contained in ANSI/ESD S20.20, ESD Association Standard for the Development of an Electrostatic Discharge Control...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 07-13-2010. 227 p. This document provides guidelines for computing metrics by which conformance testing for test and calibration processes can be evaluated. Chief among these metrics are measurement decision risks. These include the risk of incorrectly accepting a nonconforming equipment...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 07-13-2010. 275 p. The analysis methods outlined in this document provide a comprehensive approach to estimating measurement uncertainty. Basic guidelines are presented for estimating the uncertainty in the value of a quantity for the following measurement alternatives: - - Direct...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 07-13-2010. 180 p. This document is intended to provide recommended practices for developing, reporting, obtaining, interpreting, validating and applying measuring and test equipment (MTE) specifications. Detailed examples are included to educate, demonstrate, promote and reinforce...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 04-29-2008. Expiration Date: 04-29-2013. 86 p. This handbook is primarily designed to provide a description of technical data management and support processes. The document also provides an overview of the problem management process and a means to track problems within a program or...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 10.18, 2013. 134 p. The purpose of this Handbook is to provide technical information, clarification, examples, processes, and techniques to help institute good modeling and simulation practices in the National Aeronautics and Space Administration (NASA). As a companion guide to...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 12-03-2013. Superseding NASA-NDBK-6007. 22 p. The purpose of this Handbook is to cover recommended material removal processes (i.e., machining or grinding) for advanced ceramics. It is applicable to both test specimens and components, hereafter referred to as specimens. This Handbook is...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 06-20-2008. Expiration Date: 06-19-2013. Superseding NASA-NDBK-6003B. 61 p. This handbook provides detailed guidance for using permanent direct part marking (DPM) methods and techniques to apply Data Matrix identification symbols safely to products. This handbook addresses symbol...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 12-02-2013. 121 p. This Handbook outlines a life cycle as a guideline for planning, designing, verifying and maintaining programmable logic devices (PLDs). Additionally, best practices are recommended for different PLD development phases. This Handbook provides guidance to perform...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 06-03-2007. Superseding NASA-STD-(I)-4005. 63 p. The information in this handbook presents an overview of the current understanding of the various plasma interactions that can result when a high-voltage system is operated in the Earth’s ionosphere, references common design practices that...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA March 03, 2011. Superseding NASA-HDBK-4002. — 181 p. This Handbook is intended to describe conditions under which spacecraft charging might be an issue, generally explain why the problem exists, list typical design solutions, and provide an introduction to the process by which design...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA December 1997. 34 p. This publication sets forth ESD control requirements for items that are ESD Sensitive (ESDS) (excluding electrically initiated explosive devices). Special requirements may exist that will not be covered by or will not be in conformance with requirements of this...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA February 1998. 55 p. This Standard sets forth fiber optic termination and cabling requirements for reliable fiber optic installations, both single- and multi-mode fiber. Special requirements may exist which are not covered by or are not in conformance with the requirements of this...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA August 31.1999. 84 p. This Standard prescribes NASA’s requirements, procedures, and documenting requirements for hand and machine soldering of surface mount electrical connections. The requirements established in this publication shall be utilized for the development of project-related...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA August 6.1999. 60 p. This Standard prescribes NASA’s requirements, procedures, and documenting requirements for staking and conformal coating of printed wiring boards (PWBs) and electronic assemblies. These requirements may be tailored to the program applications to obtain the most...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA April 7, 2008. Superseding NASA-STD-(I)-5009 and MSFC-STD-1249. 28 p. The purpose of this standard is to establish the nondestructive evaluation (NDE) requirements for any NASA system or component, flight or ground, where fracture control is a requirement. This standard defines the...
National Aeronautics and Space Administration (NASA). Lyndon B. Johnson Space Center. National Space Transportation System (NSTS). September 1997. 97 p. In implementing the payload safety review process, the Payload Safety Review Panel (PSRP) has been required to make interpretations of particular safety requirements.
NSTS 18798 was issued to compile these letters into one...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA February 17, 1999. 53 p. This document establishes guidelines and design practices to be used by NASA and other spacecraft designers to minimize the detrimental effects of spacecraft internal charging. These effects are due to interactions between the in-flight plasma environment and...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 12-17-2012. 75 p. The purpose of this Handbook is to provide information on product data and life-cycle management (PDLM) and general guidance to adapt the methods needed to implement the requirements in NPR 7120.9, NASA Product Data and Life-Cycle Management (PDLM) for Flight Programs...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 2010-12-08. Baseline w/ Change 1 of 2011-01-07. 138 p. This standard defines uniform safety, reliability, maintainability, and quality assurance (SRM&QA) and risk management terms to support effective communication within NASA and with its contractors. The definitions in this standard...
National Aeronautics and Space Administration (NASA). National Space Transportation System (NSTS). Date: July 13, 1998. Change 6, January 14. 2004. 68 р. This requirements document assists organizations that are developing payloads intended for flight on the International Space Station (ISS) and/or Space Shuttle to comply with system safety requirements established by the National...
National Aeronautics and Space Administration (NASA). National Space Transportation System (NSTS). Date: May 22, 1996. Change 16, December 9. 2003. 68 р. This document establishes the safety policy and requirements applicable to Space Transportation System (STS) payloads and their ground support equipment (GSE). These requirements are intended to protect the general public,...
National Aeronautics and Space Administration (NASA). Goddard Space Flight Center (GSFC). Approved: 02-19-2005 - With Administrative Changes. 52 p. This document provides standard criteria for the flight project critical milestone reviews that comprise the Integrated Independent Reviews prescribed by GPR
8700.4. For each mission system review during the project lifecycle (Figure...
National Aeronautics and Space Administration (NASA). Goddard Space Flight Center (GSFC). Approved: 08-03-2009 - With Administrative Changes. Expiration Date: 08-03-2014. Superseding GSFC-STD-1000D. 104 p. The GOLD Rules focus on fundamental principles and requirements, and therefore are intended to apply to all space flight products, regardless of implementation approach or...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: May 06, 2008. Expiration Date: May 06, 2016. 49 p. NASA's policy is to protect the health and safety of humans involved in or exposed to space activities, specifically the public, crew, passengers, and ground personnel. This policy is implemented through the application of...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date September 1, 1998. Expiration Date: September 1, 2008. 132 p. This NPR provides a ready reference to policy and requirements for the management and utilization of NASA Real Property assets. The document is designed to provide uniform and orderly processes for meeting NASA`s...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: May 14, 2009. Expiration Date: May 14, 2014. 24 p. The purpose of this NASA Procedural Requirements (NPR) is to provide requirements to implement NASA’s policy for limiting orbital debris generation per the U.S. National Space Policy of 2006, Section 11, the U.S. Government...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: July 17, 2004. Expiration Date: July 17, 2009. 18 p. This NPR provides basic requirements for performing a probabilistic risk assessment (PRA) for a NASA program or project. It addresses technical and safety risk and does not address programmatic risk involving consideration of...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: April 25 2002. Expiration Date: April 25, 2008. Revalidated: Janyary 2, 2007. 15 p. Risk Management (RM) (see Appendix A, Glossary) is an organized, systematic decisionmaking process that efficiently identifies, analyzes, plans (for the handling of risks), tracks, controls,...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: November 9, 2010. Expiration Date: November 9, 2015. 19 p. This NASA Procedural Requirements (NPR) establishes the responsibilities and procedures for various employee benefits and work/life programs for which the Agency has been delegated discretionary authority by Federal...
National Aeronautics and Space Administration (NASA). This NASA Marshal Work Instruction. Effective Date: August 4, 2005. Expiration Date: August 4, 2010. 18 p. This Marshall Work Instruction (MWI) establishes the processes and responsibilities for the implementation of an effective Continuous Risk Management (CRM) process at Marshall Space Flight Center (MSFC). Continuous Risk...
National Aeronautics and Space Administration (NASA). This NASA Goddard Procedures and Guidelines. Effective Date: December 7, 2001. Expiration Date: December 27, 2006. 10 p. Risk management is an organized, systematic decision-making process that efficiently identifies, analyzes, plans (for the handling of risks), tracks, controls, communicates, and documents risks to increase...
National Aeronautics and Space Administration (NASA). This NASA Goddard Procedures and Guidelines. Effective Date: October 26, 2001. Expiration Date: October 26, 2006. 7 p. This document, Goddard Management of Principal Investigator (PI) Mode Missions, describes the roles and responsibilities of the PI, Goddard as the Lead Center for Earth and Space Science Programs, the Program...
National Aeronautics and Space Administration (NASA). This NASA Goddard Procedures and Guidelines. Effective Date: April 21, 1999. Expiration Date: April 21, 2004. 10 p. This procedure establishes the process for management of GSFC Provide Aerospace Products and Capabilities (PAPAC) projects. This procedure applies to all GSFC PAPAC Projects
National Aeronautics and Space Administration (NASA). This NASA Goddard Procedures and Guidelines. Effective Date: August 9, 1999. Expiration Date: August 9, 2004. 21 p. This procedure establishes the process for management of GSFC Provide Aerospace Products and Capabilities (PAPAC) Programs. This procedure applies to all GSFC PAPAC Programs.
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 1998-02- 09. Revalidation Date: 2008-07- 25. Change 6 approved: 2011-03-29 114 p. This publication sets forth requirements for interconnecting cable and harness assemblies that connect electrical/electronic and electromechanical components. Special requirements may exist that are not...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 1997-12- 15. Revalidation Date: 2008-06- 06. Change 5 approved: 2011-09- 23. Cancelled Date: 2011-12-08. 86 p. This publication sets forth requirements for hand and wave soldering to obtain reliable electrical connections. The prime consideration is the physical integrity of solder...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA December 1998. 77 p. This technical standard for reliability and maintainability (R&M) provides guidance to customers (or purchasers) and suppliers (or contractors) on R&M requirements development, design implementation, and evaluation. It has been developed to provide a centralized...
National Aeronautics and Space Administration (NASA). April 2010. Version 1.0. 128 p. The purpose of this handbook is to provide guidance for implementing the risk-informed decision making (RIDM) requirements of NASA Procedural Requirements (NPR) document NPR 8000.4A, Agency Risk Management Procedural Requirements, with a specific focus on programs and projects in the Formulation...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA May 24, 2005. 233 p. This handbook provides methodology and approaches for implementation of fracture control for payloads and experiments flown on the Space Shuttle and International Space Station. Following the guidelines of this handbook will satisfy the intent of the applicable NASA...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 07.08, 2008 . Expiration Date: 28-08-2012. 82 p. This document serves as a companion to NASA Procedural Requirements (NPR) 8715.6 and provides specific requirements and methods to comply with the NASA requirements for limiting orbital debris generation. NASA-Standard (NASA-STD) 8719.14...
National Aeronautics and Space Administration (NASA). This Standard approved by NASA February 22, 1974. 12 p. The purpose of this safety standard is to provide criteria for utilizing fracture control techniques to design, fabricate, test, and operate aerospace pressure vessels so that associated personnel will be safe.
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: August 17, 2007. Expiration Date: August 17, 2012. 27 p. The purpose of this NASA Procedural Requirements (NPR) is to provide requirements to implement NASA’s policy for limiting orbital debris generation per the U.S. National Space Policy of 2006, Section 11, the U.S....
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: March 12, 2008. Expiration Date: March 12, 2013. 175 p. This NASA Procedural Requirements (NPR) provides the basis for the NASA Safety Program and serves as a general framework to structure more specific and detailed requirements for NASA Headquarters, Programs, and Centers....
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: April 20, 2011. Expiration Date: April 20, 2016. 60 p. This document sets forth NASA requirements applicable to robotic planetary flight programs. These requirements are necessary to enable the Associate Administrator for the Science Mission Directorate (SMD AA) to fulfill...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: September 27, 2004. Expiration Date: September 27, 2009. 53 p. This NASA Procedural Requirements (NPR) supports the implementation of the NASA Policy Directive (NPD) 2820.1, NASA Software Policies. This NPR provides the minimal set of requirements established by the Agency for...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: April 18, 2013. Expiration Date: April 18, 2018. 177 p. The purpose of this document is to clearly articulate and establish the requirements on the implementing organization for performing systems engineering. Systems Engineering (SE) is a logical systems approach performed by...
National Aeronautics and Space Administration (NASA). This NASA Procedural Requirements. Effective Date: November 21, 2002. Expiration Date: November 21, 2007. 119 p. This document establishes the management system for processes, requirements, and responsibilities for implementing NASA Policy Directive (NPD) 7120.4, Program/Project Management. This management system governs the...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 16.02, 2011. Change 1 approved: 29.03.2011. 143 p. This Handbook will provide an overview of complex electronics, the design process, and assurance activities. It discusses: - Which devices are complex electronics, and which are not. - What each device is and examples of use on NASA...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA March 13, 2001. 249 p. The purpose of this handbook is to summarize and assess the following: The dynamic environments that a spacecraft might be exposed to during its service life from the completion of its manufacture to the completion of its mission. The state-of-the-art procedures...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 07.30, 2011 . Superseding NASA-HDBK-7004B. 63 p. The purpose of this Handbook is to provide an approach that may be consistently followed by those desiring to use force limiting, without having to conduct an extensive literature search or research and development effort before conducting...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA September 23, 2002. 52 p. This handbook provides requirements for applying Data Matrix identification symbols to parts used on NASA programs/projects using direct part marking (DPM) methods and techniques. While it is anticipated that this handbook will be used on new programs as well as...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA July 28, 2004. 67 p. This standard specifies the software assurance requirements for software developed or acquired1 and maintained by the National Aeronautics and Space Administration (NASA) and for open source software, Government off-the-shelf (GOTS) software, modified off-the-shelf...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 05.07, 2013 . Superseding NASA-STD-8719.13B. 57 p. The purpose of this Standard is to define the requirements to implement a systematic approach to software safety as an integral part of system safety and the overall safety program of a program, project, or facility. This Standard...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA July 8, 2004. 77 p. This Standard specifies the software safety activities, data, and documentation necessary for the acquisition or development of software in a safety-critical system. Safety-critical systems that include software must be evaluated for software’s contribution to the...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA February 17, 1998. 28 p. The purpose of this handbook is to provide a ready reference for spacecraft systems designers and others who need information about system grounding architecture design and rationale. The primary goal of this handbook is to show design choices that apply to a...
National Aeronautics and Space Administration (NASA). This Draft 2 NASA Technical Handbook. April 2, 2012. 203 p. This Handbook provides guidance and recommendations for defining, developing, analyzing, evaluating, testing, and operating the FM element of flight systems. This Handbook provides a process for developing FM throughout the lifecycle of a mission. It also provides the...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 07.11, 2008 . Expiration Date: 07-10-2013. Superseding NASA-STD-(I)-7096. 58 p. The scope of this standard covers the development and maintenance of models, the operation of simulations, the analysis of the results, training, recommended practices, the assessment of the M&S credibility,...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA December 4, 2000. 249 p. The purpose of this handbook is to summarize and assess the following: a. The dynamic environments that a spacecraft might be exposed to during its service life from the completion of its manufacture to the completion of its mission. b. The state-of-the-art...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA May 18, 1999. 31 p. The objective of this NASA Technical Standard is to provide a consistent methodology for developing pyroshock test criteria for NASA spacecraft, payload, and launch vehicle hardware during the development, qualification, flight acceptance, and/or protoflight test...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA July 10, 1996. 14 p. This standard includes selected environmental exposure tests. Those tests included are generally regarded as the most critical and the ones having the highest cost and schedule impact. This standard also includes functional demonstration tests necessary to verify the...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA June 21, 1996. 24 p. The term vibroacoustics is defined as an environment induced by highintensity acoustic noise associated with various segments of the flight profile. It manifests itself throughout the payload in the form of transmitted acoustic excitation and as structureborne random...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 07.11, 2008 . Expiration Date: 07-10-2013. Superseding NASA-STD-(I)-6016. 67 p. This document is directed toward materials and processes (M&P) used in the design, fabrication, and testing of flight components for all NASA manned, unmanned, robotic, launch vehicle, lander, in-space and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 07.11, 2008 . Expiration Date: 07-10-2013. Superseding NASA-STD-(I)-6008. 20 p. This standard establishes fastener procurement, receiving inspection, and storage practices for all fasteners used for spaceflight hardware that are procured, received, tested, inventoried, or installed for...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA September 23, 2002. 40 p. This standard establishes uniform requirements for applying Data Matrix identification symbols to parts used on NASA programs/projects using direct part marking (DPM) methods and techniques. Overall program/project requirements related to the use of the Data...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA 01.07, 2008 . Expiration Date: 01-06-2013. Superseding NASA-STD-(I)-5019 and NASA-STD-5007. 44 p. Fracture control is implemented to reduce the risk of a catastrophic failure from a defect or damage. The intent of this standard is to provide fracture control requirements for spaceflight...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA June 13, 2006. 30 p. The purpose of this standard is to establish common design and development requirements across National Aeronautics and Space Administration (NASA) Centers for the design of aerospace mechanisms whose correct operation is required for safety or program success....
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA 30.07, 2008 . Expiration Date: 30-07-2013. 174 p. This NASA-HDBK serves as a companion to NASA Procedural Requirements (NPR) 8715.6, NASA Procedural Requirements for Limiting Orbital Debris and NASA-STD 8719.14, Process for Limiting Orbital Debris and contains the background and...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA January 31, 2003. 37 p. This handbook establishes a methodology for conducting force limited vibration tests for all NASA flight projects. The purpose is to provide an approach which may be consistently followed by those desiring to use force limiting, without having to conduct an...
National Aeronautics and Space Administration (NASA). This Technical Handbook approved by NASA July 2, 2001. 50 p. This handbook provides requirements for applying Data Matrix identification symbols to parts used on NASA programs/projects using direct part marking (DPM) methods and techniques. While it is anticipated that this handbook will be used on new programs as well as those...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA March 13, 2001. 10 p. This document establishes the fracture control requirements for all manned spaceflight systems and all payloads on manned spaceflight systems. NASA-STD-5003, Fracture Control Requirements for Payloads Using the Space Shuttle, provides supplementary implementation...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA May 10, 1996. 39 p. This standard establishes the general characteristics, performance, design, test, safety, reliability, maintainability, supportability, and quality requirements for ground support systems and equipment intended for use at NASA launch, landing, or retrieval locations....
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA October 7, 1996. 32 p. The purpose of this document is to establish the fracture control requirements for all payload hardware to be launched or retrieved using the Space Shuttle. Meeting these requirements implements the minimum fracture control requirements of National Space...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA June 21, 1996. 20 p. This standard defines the methodologies, practices, and requirements for the conduct of load analyses for payloads and spacecraft. This standard establishes general NASA policies for the definition of loads to be used in the design and development of payloads and...
National Aeronautics and Space Administration (NASA). This Technical Standard approved by NASA June 21, 1996. 14 p. This standard establishes structural strength design and test factors, as well as service life factors to be used for spaceflight hardware development and verification. It is intended to reduce space project costs and schedules by enhancing the commonalty of use of...
American Society of Civil Engineers, 2012. XVI, 86 p. — ISBN: 978-0-7844-1181-0. This Standard provides a uniform basis for the design, detailing, fabrication, testing, assembly, and erection of steel tubular structures for electrical transmission poles. These guidelines apply to cold-formed single- and multipole tubular steel structures that support overhead transmission...
This Standard Practice applies to valves for general liquid and gas service that effect valve closure by means of a resilient diaphragm sealing against a weir or a diaphragm acting in conjunction with a separate or integral disk-member sealing against a seat, having equal sealing capability in either flow direction, and having diaphragms being essentially made of elastomeric or...
This Standard Practice outlines the general requirements for cleaning, inspection, testing, and packaging of valves and fittings intended to be used for Oxygen service.
Proper design and material compatibility for Oxygen systems is outside the scope of this Standard Practice.
This Standard Practice covers in-line, center guided, internally spring-assisted type check valves made of steel, or other alloys listed in Table 1 of ASME B
16.34. These valves, having the feature of limiting fluid flow to one direction only, are intended for use with clean fluids (i.e. fluids that contain no solids).
This Standard Practice provides procedures and guidelines for testing and evaluation of valve stem packing materials and material combinations. This testing provides qualification by verifying the adequacy of specific packing material combinations for service within defined limits of size, pressure, temperature, and cyclic duty. Such specific combinations generally represent...
1.1.1 This Standard Practice covers round opening, full, regular and reduced port metal ball valves.
1.1.2 End connections covered herein are threaded, socket-welding, solder joint, grooved and flared end in nominal pipe sizes ¼ through 4 inch.
1.1.3 These valves are intended for on-off operation and should be used for modulating or throttling service only when recommended by...
Американский стандарт по надежности . Содержит данные по интенсивности отказов электронных компонентов и формулы для расчета интенсивности отказа в зависимости от условий окружающей среды.Часть 2.
Американский стандарт по надежности . Содержит данные по интенсивности отказов электронных компонентов и формулы для расчета интенсивности отказов в зависимости от условий окружающей среды.
Manufacturers Standardization Society (MSS). 2006. 16 p. This Standard Practice covers dimensions, finish, tolerances, marking and material for carbon steel and alloy steel Swaged Nipples (male end reducing fittings), NPS 1/4 through NPS 12 and Bull Plugs (hollow or solid male closures) NPS 1/8 through NPS
12. These fittings are made with ends that are threaded, beveled, square...
Manufacturers Standardization Society (MSS). 2008. 34 p. This MSS Standard Practice establishes for bronze gate, .globe. angle and check valves in Classes 125 (PN 20). 150, 200, 300 (PN 50) and 350 for threaded and solder ends and Classes 150 (PN 20) and 300 (PN 50) for flanged ends.
Manufacturers Standardization Society (MSS). 2002. 19 p. This Standard Practice covers dimensions, design, testing, and marking requirements for butterfiy valves. Further reference should be made to the MSS SP-68.
Manufacturers Standardization Society (MSS). 2004. 31 p. This specification covers factory-made, seamless and electric fusion-welded carbon and low-alloy steel, butt-welding fittings for use in high pressure gas and oil transmission and distribution systems, including pipelines, compressor statjons~ metering and regulating stations, and mains
Manufacturers Standardization Society (MSS). 2001. 21 p. This standard is intended to supplement the requirements of ASTM Specifications A 2 16/A 2 16M, A 217/A 217M, A 351/A 351M, A352/A 352M, A 389/A 389M, A487/A487MYa nd A744/A 744M and to provide a series of refere.nce photographs typical of the various surface irregularities common to steel pressure castings and illustrations...
The National Board of Boiler and Pressure Vessel Inspectors (NBBI). Date of Issue — December 31, 2007. 266 р. This code was developed under procedures accredited as meeting the criteria for American National Standards. The Consensus Committee that approved the code was balanced to assure that individuals from competent and concerned interests had an opportunity to participate....
The National Board of Boiler and Pressure Vessel Inspectors (NBBI). Date of Issue — December 31, 2007. 316 р. This code was developed under procedures accredited as meeting the criteria for American National Standards. The Consensus Committee that approved the code was balanced to assure that individuals from competent and concerned interests had an opportunity to participate....
The National Board of Boiler and Pressure Vessel Inspectors (NBBI). Date of Issue — December 31, 2007. 142 р. This code was developed under procedures accredited as meeting the criteria for American National Standards. The Consensus Committee that approved the code was balanced to assure that individuals from competent and concerned interests had an opportunity to participate....
Manufacturers Standardization Society (MSS). 1997. 20 p. This Standard Practice provides procedures and guidelines for testing and evaluation of valve stem packing materials and material combinations. This testing provides qualification by verifying the adequacy of specific packing material combinations for service within defined limits of size, pressure, temperature, and cyclic...
Manufacturers Standardization Society (MSS). 2006. 15 p. This Standard Practice covers essential dimensions, finish, tolerances, testing, marking, material, and minimum strength requirements for 90 degree integrally reinforced forged branch outlet fittings of buttwelding, socket welding, and threaded types. . Fittings manufactured to this Standard Practice are designed to make...
Manufacturers Standardization Society (MSS). 2009. 14 p. This Standard Practice covers ratings, dimensions, tolerances, finish, marking and material requirements for socket welding reducer inserts for use with ASME B16.11, Class 3000 and 6000 socket welding fittings. Dimensions for these reducer inserts are shown in Table 3.
Manufacturers Standardization Society (MSS). 2010. 13 p. This Standard Practice covers flanged orm butt-weld end ball valves having in general, but not restricted to, round openings which may be full port, regular port, or reduced port types. The following characteristics shall be considered standard practice unless otherwise specified by agreement between manufacturer and...
Manufacturers Standardization Society (MSS). 2009. 9 p. This Standard Practice establishes requirements and acceptance criteria for shell and seat closure pressure testing of valves
Manufacturers Standardization Society (MSS). 2007. 6 p. This Standard Practice pertains to the finish of gasket contact faces of pipe flanges and end flanges of valves and fittings. This Standard Practice is intended for applications to products for which ASME B16 Standards do not contain complete facing finish requirements or for which there are no such Standards
American Institute of Steel Construction (AISC), Chicago, Illinois, US. 2010. Supersedes AISC 303-05. 84 p. This Code sets forth criteria for the trade practices involved in steel buildings, bridges, and other structures, where other structures are defined as those structures designed, fabricated, and erected in a manner similar to buildings, with building-like vertical and...
This Standard addresses the natural unperturbed space environment. It is a compilation of the space environment data obtained from the most authoritative contemporary sources available at the time of compilation. This standard establishes the time-sensitive and orbit-sensitive parameters for the naturally occuring environments. The standard is intended to: a) Ensure that space...
This Standard Practice was developed by a cooperative effort of representatives of the pipe hanger manufacturers. It is based on the best practice current at this time and on the collective experience of the industry. There is a companion Standard Practice, MSS SP-127, which relates to the design, selection, and application of bracing for piping systems subject to seismic – wind –...
This standard practice provides methods and acceptance standards for the film method of radiographic examination of steel castings for valves, flanges, and fittings and other piping components. It is applicable to examination of repairs as well as to the initial examination of castings.
This standard practice covers pressure-temperature rating, materials, dimensions, tolerances, marking and testing. The welding neck type flanges shall be forged steel, and blind flanges may be made either forged steel orfrom steel plates
This marking system applies to valves, fittings, flanges and unions used in piping connections which include (but not limited to) flanged, soldered, brazed, threaded or welded joints
An American National Standard. The Steel Joist Institute (SJI). Adopted November 4, 1985. Revised to November 10, 2003, Effective March 01, 2005. 50 p. This specification covers the design, manufacture and use of Joist Girders. Load and Resistance Factor Design (LRFD) and Allowable Strength Design (ASD) are included in this specification.
An American National Standard. The Steel Joist Institute (SJI). Adopted May 10, 2006. Revised to May 18, 2010, Effective December 31, 2010. 30 p. This Standard covers the design, manufacture, application, and erection stability and handling of Composite Steel Joists CJ-Series in buildings or other structures, where other structures are defined as those structures designed,...
American Institute of Steel Construction (AISC). Approved by December 4, 2006. 20p. This Certification Standard for Steel Building Structures is intended to offer assistance to building professionals and owners in assessing Fabricators’ capability to satisfy project quality needs. Users of this Standard must evaluate Fabricator capacity independently. The Standard describes...
This test method standard is approved for use by all Departments and Agencies of the Department of Defense (DoD).
Although prepared specifically for DoD applications, this standard may be tailored for commercial applications as
well. MIL-STD-810F is a significant revision of MIL-STD-810E.
This standard contains materiel acquisition program planning and engineering direction for...
Department of Defense USA. 19 April 2011. 37p. This standard provides or references tests and test procedures for the assessment of safety and Insensitive Munitions (IM) characteristics for all non-nuclear munitions, munition subsystems, and explosive devices
Department of Defense USA. 1 June 2004. 175p. This standard establishes and maintains a compilation of electronic component case outlines and should be useful to all levels of manufacturing that culminate in the production of reliable and logistically supportable electronic equipment.
Department of Defense USA. This standard is approved for use by all Departments and Agencies of the Department of Defense 18 July 2005. Supersedes MIL Std-2219-1988. 43p. The scope of this document is to provide minimum requirements for weld filler materials, workmanship, inspection and record requirements for fusion welding of alloys applicable to aircraft, missiles, other...
AIAA G-065-1999, American Institute of Aeronautics and Astronautics, 1999, 73 pp. This Guide defines a set of existing reference global aerosol models. It includes tables, plots, and other information describing the optical and mechanical properties of atmospheric aerosols, both natural and man-made. Intended for use by the aerospace and meteorological communities, the emphasis...
MIL–STD–410E MILITARY STANDARD NONDESTRUCTIVE TESTING PERSONNEL QUALIFICATION AND CERTIFICATION 25 January 1991 (15p) Стандарт министерства обороны США, аналогичный европейскому стандарту EN 473 This standard establishes the minimum requirements for the qualification and certification for personnel involved in the application of nondestructive inspection (NDI) or nondestructive...
National Aeronautics and Space Administration (NASA). . June 1995. 164p. This handbook is intended to provide information on systems engineering that will be useful to NASA system engineers, especially new ones. Its primary objective is to provide a generic description of systems engineering as it should be applied throughout NASA. Field centers' handbooks are encouraged to...
Department of Defense US. w/CHANGE 4, 19 September 2007. 163p. This standard provides the minimum requirements for uniform military markingbfor shipment and storage. Additional markings may be required by the contract or the cognizant activity. The marking of shipments of supplies, equipment, and ammunition will be as specified in this standard. Marking is "the application of...
American Association of State Highway and Transportation Officials (AASHTO) Document No: SBB-1 2004. 50p. This document is a standard developed by the AASHTO/ NSBA Steel Bridge Collaboration. The primary goal of the Collaboration is to achieve steel bridges of the highest quality and value through standardization of the design, fabrication, and erection processes. Each standard...
34 pages and Changes
The American Society for Nondestructive Testing
ISBN-13: 978-1-57117-217-4
It is recognized that the effectiveness of nondestructive testing (NDT) applications depends upon the capabilities of the personnel who are responsible for, and perform, NDT. This Recommended Practice has been pre-pared to establish guidelines for the qualification and certification...
American Institute of Steel Construction (AISC). Chicago, Illinois. 2005. 80p. In the absence of specific instructions to the contrary in the Contract Documents, the trade practices that are defined in this Code shall govern the fabrication and erection of Structural Steel.
Standart MIL-HDBK-217F was released in 2 DECEMBER 1991 and supersede MIL-HDBK-217E, Notice 1 on 2 January 1990.
This standardization handbook was developed by the Department of Defense with the assistance of the military departments, federal agencies, and industry.
The purpose of this handbook is to establish and maintain consistent and uniform methods for estimating the...
Страниц: 13
Год издания: 2004
Настоящий стандарт распространяется на амортизаторы гидроударов (в дальнейшем именуемым "устройство") системы трубопроводов для предотвращения опасных скачков давления в системах распределения воды, повышая таким образом удобство эксплуатации и срок службы устройств, трубопроводов, фитингов, оборудования, и других устройств, которые являются частью...
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