Page 1 of 3659
AIA/NAS NASM3498 – SCREW ASSEMBLY, PANEL
ATTACHING AS7788 INFORMATION PANELS TO MOUNTING PLATES. THE CAPTIVE SCREW, WHEN DISENGAGED FROM THE CAPTIVE NUT, CAN BE USED FOR LIFTING THE INFORMATION PANEL AND DISENGAGING THE ELECTRICAL CONNECTOR.
2022年11月10日
AIA/NAS NAS1744 – SPLICE, CONDUCTOR, SOLDER STYLE, HOT AIR OR INFRARED, SHRINKABLE, INSULATED, IMMERSION RESISTANT
THIS STANDARD DEFINES THE REQUIREMENTS FOR IMMERSION RESISTANT SPLICES WHICH REDUCE TO A PREDETERMINED DIAMETER UPON THE CONTROLLED APPLICATION OF HEAT. THESE SPLICES ARE INTENDED TO BE USED FOR THE LAP SPLICING OF ELECTRICAL CONDUCTORS, WHERE MOISTURE RESISTANCE IS ESSENTIAL. MOISTURE RESISTANCE SEALING CANNOT BE ASSURED IF MORE THAN TWO WIRES ARE INSTALLED IN EITHER END OF THE SPLICE.
AIA/NAS NAS814 – CAP, PROTECTIVE, FLARED FITTING
CAP FOR FLARED TUBE FITTINGS OR EQUIPMENT WITH PORTS IN ACCORDANCE WITH MS33656, AS4395, MS33657 OR AS4396.
AIA/NAS NAS1071 – Switch – Toggle Double Pole, Three Position
INTENDED FOR USE IN APPLICATIONS WHERE IT IS NECESSARY TO SWITCH ONE POLE WITHOUT DISTURBING THE SECOND POLE.
AIA/NAS NAS1179 – OXYGEN MASK ASSEMBLY, PASSENGER
PURPOSE – This specification defines the minimum requirements for the design, construction, and performance of continuous flow oxygen masks for passengers in civil aircraft.
AIA/NAS NAS9400-1 – TRADE COMPLIANCE STANDARD PART 1: DOCUMENT MARKING, STORAGE, AND ELECTRONIC TRANSMISSION OF TECHNICAL DATA
Purpose: The standard practices established in this document provide guidance on the processes and practices necessary or recommended for a company to control technology, including technical data, subject to the Export Administration Regulations (EAR).
AIA/NAS NAS9400-3 – TRADE COMPLIANCE STANDARD PART 3: FACILITY VISITS BY FOREIGN NATIONALS
Purpose: The standard practices established in this document provide guidance on the processes and practices necessary or recommended for an organization to facilitate visits by foreign nationals (including short and long-term visits). This standard is not intended to outline requirements, practices, policies or procedures to assure a cleared or secure facility.
Application: This voluntary standard does not provide legal advice, nor is it intended to address specific export transactions. Users should consult their qualified resource(s) for questions about this standard and related export control compliance issues as appropriate.
These standard practices are applicable to organizations that manufacture defense articles, other export controlled items (commodities, software, and technologies) or perform defense services, or other export controlled items (commodities, software, and technologies) and activities in which providing access to foreign nationals without U.S. government authorization would be prohibited by United States export regulations.
AIA/NAS NAS9400-2 – TRADE COMPLIANCE STANDARD PART 2: JURISDICTIONAL ANALYSIS AND CLASSIFICATION
Purpose: The standard practices established in this document provide guidance on the processes necessary or recommended for an organization to determine the applicable jurisdiction under which its product, technology or service exports are governed and the applicable classification given that jurisdiction.
Application: This voluntary standard does not provide legal advice, nor is it intended to address specific export transactions. Users should consult their qualified resource(s) for questions about this standard and related export control compliance issues as appropriate.
These standard practices are applicable to organizations that design, develop, manufacture or overhaul or repair defense articles, dual use and commercial items (commodities, software, and technologies) and/or provide defense services and activities for which providing access to foreign nationals without U.S. government authorization would be prohibited.
The requirements outlined in this standard are generic and are intended to be applicable to all organizations, regardless of type, size and aerospace product provided. Further, this standard simply identifies the recommended processes to fulfill compliance obligations under this topic. Application of these elements should be customized to align with your organization’s current business processes and priorities.
Throughout this standard any reference to an “item” or “product” is applicable to commodities, technology, or software. If the type of article is mentioned specifically then the standard only applies to that type of article.
AIA/NAS NASM1312-7 – FASTENER TEST METHODS METHOD 7 VIBRATION
This method establishes a standard procedure for conducting accelerated vibration tests on any fastener system capable of providing a clamp-up load. This method is intended to define the test required to determine the life and compare fasteners under vibratory conditions.
AIA/NAS NASM1312-5 – FASTENER TEST METHODS METHOD 5 STRESS DURABILITY
This method outlines a standard procedure for testing the stress durability of externally threaded fasteners. This procedure applies to all types of externally threaded fasteners which may be subject to any type of embrittlement and is not limited by configuration or size.
AIA/NAS NAS703 – WIRE, ELECTRICAL, INSULATED, COPPER, HIGH TEMPERATURE, HOOK-UP AND GENERAL PURPOSE, FOR 200 °C SERVICE
This specification covers tetrafluoroethylene resin (PTFE) insulated copper hook-up and general purpose wire suitable for use in temperatures ranging from -65 °C to 200 °C (-85 °F to 392 °F).
AIA/NAS NASM1312-24 – FASTENER TEST METHODS METHOD 24 RECEPTACLE TORQUE-OUT, PANEL FASTENERS
This test method covers the procedure and apparatus required for testing the torque-out capability of receptacle assembly of structural panel fasteners.
AIA/NAS NASM1312-14 – FASTENER TEST METHODS METHOD 14 STRESS DURABILITY, INTERNALLY THREADED
This test method outlines a standard procedure for testing the stress durability of internally threaded fasteners. This test method applies to all types of internally threaded fasteners which may be subject to embrittlement and is not limited by configuration or size.
AIA/NAS NASM1312-9 – FASTENER TEST METHODS METHOD 9 STRESS CORROSION
Applicability. This test method establishes the procedure for determining the relative susceptibility of threaded fasteners to stress corrosion cracking. This is an accelerated test in which the test specimen is subjected to a uniaxial tensile stress and exposed to an alternate immersion cycle in a 3-1/2 percent sodium chloride solution.
Potential hazard. This test is potentially hazardous since the fastener is subjected to a high sustained load. It is recommended that the testing area be completely enclosed to prevent injury to personnel working in the proximity of the test area. It is also recommended that safety masks be worn when loading and examining the specimen.
AIA/NAS NASM1312-4 – FASTENER TEST METHODS METHOD 4 LAP JOINT SHEAR
Applicability. This test method outlines a standard procedure for determining the room temperature strength properties of mechanically fastened sheet metal lap joints statically loaded to produce shear on the fastener. The significant strength properties include the ultimate strength and the yield strength of the joint.
This test method applies to sheet metal lap joints fastened with rivets, bolts, screws, or comparable fastening devices.
AIA/NAS NASM1312-17 – FASTENER TEST METHODS METHOD 17 STRESS RELAXATION
Applicability. This test method outlines the procedure for stress relaxation testing threaded and non-threaded fasteners. The following methods designed to produce comparable results are specified:
a. Stress relaxation machine method, and
b. Stress relaxation cylinder method
AIA/NAS NASM1312-19 – FASTENER TEST METHODS METHOD 19 FASTENER SEALING
The method covers the procedures and apparatus for determining a fastener’s ability to restrict leakage of a fluid (liquid or gas) medium, under static conditions only. These fasteners are not externally or dynamically loaded.
AIA/NAS NASM1312-23 – FASTENER TEST METHODS METHOD 23 TENSILE STRENGTH OF PANEL FASTENERS
This method covers a procedure for testing all types of Quick Operating Panel Fasteners in tension at room temperature. This procedure is intended to define the test required to determine the tensile strength of the fastener itself, not the strength of the fastener in any sheet combination.
AIA/NAS NAM1312-108 – FASTENER TEST METHODS, METRIC METHOD 108 TENSILE STRENGTH
This method covers a procedure for testing all types of structural fasteners in tension at room temperature. This procedure is intended to define the test required to determine the tensile strength of the fastener itself, not the strength of the fastener in any sheet combination.
AIA/NAS NASM1312-3 – FASTENER TEST METHODS METHOD 3 HUMIDITY
This method covers a procedure for testing fasteners in a high humidity environment.
AIA/NAS NASM1312-25 – FASTENER TEST METHODS METHOD 25 DRIVING RECESS TORQUE QUALITY CONFORMANCE TEST
This method describes standard test procedures for verification of the torque capability of driving recesses. It is intended to be used as a test procedure for quality conformance testing of fasteners with driving recesses.
AIA/NAS NAM1312-105 – FASTENER TEST METHODS METRIC METHOD 105 STRESS DURABILITY
This method establishes a standard procedure for testing the stress durability of externally threaded fasteners. This procedure applies to all types of externally threaded fasteners which may be subject to any type of embrittlement and is not limited by configuration or size.
AIA/NAS NASM1312-26 – FASTENER TEST METHODS METHOD 26 STRUCTUAL PANEL FASTENER LAP JOINT SHEAR
This method outlines a standard procedure for determining the room temperature static strength of lap shear joints attached with quick-release structural panel fasteners. The significant strength properties include the ultimate strength and the yield strength of the joint. The data is to be used to establish joint allowable loads.
This test method applies to sheet metal lap joints fastened with quick-release structural panel fasteners.
AIA/NAS NAM1312-113 – FASTENER TEST METHODS, METRIC METHOD 113 DOUBLE SHEAR TEST
This test method covers the procedure and apparatus for testing fasteners in double shear in a half-hole shear fixture.
AIA/NAS NASM1312-20 – FASTENER TEST METHODS, METHOD 20, SINGLE SHEAR
This test method outlines the procedure and apparatus for testing fasteners in single shear. While this method primarily is for testing fasteners that cannot be tested in double shear, if used for those fixture types and lengths amenable to double shear testing, the double shear test is considered the referee method.
AIA/NAS NAS1597 – Steel, Corrosion and Heat Resistant, Bar, Rod, and Forging
This specification presents the material requirements for an austenitic heat treatable corrosion resistant steel, primarily intended for use in parts requiring high strength up to 1200°F and oxidation resistance up to 18000°F.
Deviation. Unless otherwise authorized in writing by the purchaser, there shall be no deviation from the requirements set forth in this specification.
AIA/NAS NASM33537 – INSERT, SCREW THREAD, HELICAL COIL, INCH SERIES, COARSE AND FINE THREAD, STANDARD ASSEMBLY DIMENSIONS FOR
Helical coil inserts are screw thread bushings coiled from diamond shaped cross-section wire. They are screwed into tapped holes to form nominal size internal threads. Inserts are installed by torquing through a diametral tang which is notched for tang removal.
AIA/NAS AIA/NAS ARTC-4 – Electrical Test Procedures for Radomes and Radome Materials
GENERAL REQUIREMENTS
The Test procedures outlined herein are designed to cover the standard methods for determining the electrical characteristics of radomes and radome materials.
Techniques, tolerances and test methods have been defined for x-band. However, the basic principles and test methods are the same for other frequency bands.
if tests higher than EHF Ka band have to be performed, the suggested test frequency is 58,500 mcs based on available oscillator tubes.
For all other tests, operational frequencies of the radar system involved shall be used.
AIA/NAS NAS988 – DRILLS, CARBIDE, DOUBLE-MARGIN, 1/8 INCH THRU 1 INCH
Scope:
Included in the standard are ordering requirements, drill design parameters, pertinent nomenclature, and point geometries, suggested areas of application, acceptable carbide materials, and a Glossary of Terms defining relative terminology.
Purpose
This document provides the aerospace industry with the uniform standard for the procurement of precision doublemargin carbide twist drills. Utilization of the specified drills in accordance with recommended applications will ensure the performance of precision close-tolerance drilling tasks with optimum quality, reliability, and economy.
AIA/NAS NAS579 – INVOLUTE SPLINE, 30° FULL FILLET
Involute splines shall be designed, manufactured and inspected in accordance with NAS580 and NAS581. Unusual applications requiring design details not included in NAS580 and NAS581 should be designed in accordance with ANSI B92.1 Involute Splines and Inspection Standard.
AIA/NAS NAS9924 – CYBER SECURITY BASELINE
Supply chain companies are important to the aerospace and defense industrial base. Suppliers may have unique capabilities that are vital to aerospace and defense programs.
Aerospace and defense companies have been dealing with the threat of cyber intrusion for the past several years. As companies have increased the security of their IT network defenses, the attackers are now being driven to softer targets where they may find some of the same type of data that they previously had sought from these companies. The adversary is also using the collaborative relationships between the aerospace and defense companies and their suppliers as a “”back door”” as the defenses get better. Companies further down the supply chain may not have had the opportunity or expertise necessary to fully prepare to defend their systems from these attackers, but the result of the increased defenses in the major suppliers is that the attacker may target their suppliers based on their vulnerabilities. This document was designed to be a supplier baseline so that suppliers know what kind of security they need to have if they want to do business with aerospace and defense companies.
AIA/NAS NAS9300-100 – LONG TERM ARCHIVING AND RETRIEVAL OF DIGITAL TECHNICAL PRODUCT DOCUMENTATION SUCH AS 3D, CAD AND PDM DATA PART 100: COMMON CONCEPTS FOR LONG TERM ARCHIVING AND RETRIEVAL OF CAD 3D MECHANICAL INFORMATION
Introduction
This document defines common fundamental concepts for long term archiving and retrieval of CAD mechanical information for elementary parts and assemblies. It details the “”fundamentals and concepts”” of NAS9300-003 in the specific context of long term archiving of CAD mechanical models.
CAD mechanical information is divided into assembly structure and geometrical information, both including explicit and implicit geometrical representation, Geometric Dimensioning and Tolerancing with Form Features.
The NAS9300-1XX family is organized as a sequence of parts, each building on the previous in a consistent way, each adding a level of complexity in the CAD data model. This includes the detailing of relationships between the essential information for the different types of CAD information covered by the NAS9300-1XX family.
As technology matures additional parts will be released in order to support new requirements within the aerospace community.
In scope
The present part describes:
• The fundamentals and concepts for Long Term Archiving and Retrieval of CAD 3D mechanical information;
• The document structure of the NAS9300-1XX family, and the links between all these parts;
• The qualification methods for long term preservation of archived CAD mechanical information; more specially, principles for the CAD validation properties and for verification of the quality of the CAD archived file;
• Specifications for the preservation planning of archived CAD information,
• Specific functions for administration and monitoring of CAD archived mechanical models;
• The definition of Archive Information Packages for CAD data.
Out of Scope
The following are out of scope for this part:
• Long Term Archiving of CAD 2D drawings.
• Other CAD business disciplines, such as piping, tubing, electrical harnesses, composite, sheet metal design, kinematics.
This version does not include:
• Fundamental and concepts for parts NAS9300-120 version 2, NAS9300-125, 1 NAS9300-130.
AIA/NAS NAS9300-115 – LONG TERM ARCHIVING AND RETRIEVAL OF DIGITAL TECHNICAL PRODUCT DOCUMENTATION SUCH AS 3D, CAD AND PDM DATA PART 115: EXPLICIT CAD ASSEMBLY STRUCTURE
Scope:
NAS9300-115 describes the requirements, and particularly the information required, for the long term archiving and retrieval of a mechanical CAD explicit assembly structure. This will allow the retrieval of the assembly structure including the placement information.
The CAD assembly structure defines the collection of CAD parts into assemblies, and assemblies into higher level assemblies. An assembly can contain several occurrences of the same part or subassembly.
The assembly structure is a tree, in which the leaf nodes are individual parts, and the non-leaf nodes are assemblies. The parent/child relationship between two nodes records not only that the child is part of a higher assembly, but also the relative position of that child in that assembly.
This standard covers the archiving of the tree structure and the associated positioning information. The geometry of the individual component parts is out of scope.
The assembly structure can be recorded in the same file as the geometry, or can cite the geometry as an external reference.
The assembly structure can be supplied as a single file, or as a set of files, with cross references between files.
Note: An assembly node may contain geometry that is defined directly in the coordinate system of the assembly rather than through a child node with a corresponding transformation matrix to move the part into the assembly co-ordinate system. Some modeling systems call this a hybrid assembly. This kind of assembly is within the general scope of this part; however no specific verification and validation rules for this geometry are defined.
Out of scope: • The archiving of the geometric model of the components; • The management of different occurrences of the same part that have different geometry. • The management of different occurrences of the same part that have different attributes. • The archiving of assembly-by-constraint (where, for example, the position of a part is given as “perpendicular to part X”, rather than given as a positioning matrix); • The archiving of the Geometrical Dimensioning and Tolerance (GD&T); • The archiving of assembly Form Features.
Note: Product assembly structure may be defined based on the data base management system approach. This case uses other fundamental concepts not covered in this part. Ref. family NAS 9300 2xx.
AIA/NAS NAS9927 – SAFETY MANAGEMENT SYSTEM PRACTICES FOR DESIGN AND MANUFACTURING
Scope:
NAS9927 is intended to enable United States (US) aviation design and manufacturing (D&M) organizations to voluntarily implement a Safety Management System (SMS) that is consistent with 14 CFR part 5, Safety Management Systems. In order for a voluntary SMS to be accepted by the US Federal Aviation Administration (FAA) as consistent with part 5, the respective organization must demonstrate that the SMS satisfies the intent of part 5 in all important respects. When implemented in accordance with this standard, the resulting SMS may be eligible for acceptance by the FAA.
International Civil Aviation Organization (ICAO) Annex 19, Safety Management, establishes standards and recommended practices (SARP) applicable to safety management functions related to, or in direct support of, the safe operation of aircraft. The FAA has determined that 14 CFR part 5 is consistent with Annex 19. Therefore, while this NAS is directed to US D&M organizations, international D&M organizations may find this NAS useful for implementation of an SMS acceptable to international regulators as being consistent with Annex 19.
This NAS is intended to facilitate implementation of a tailored, appropriate SMS by individual D&M organizations.
Endorsed by the FAA! “”The FAA accepts the NAS9927 as a basis for SMS recognition and will develop policy that will allow for an assessment of the processes and procedures of a Design and/or Manufacturers voluntary implementation of an SMS per Section 1 of the NAS9927.
AIA/NAS AIA TARC 82-29 – Standards for Symbology and Graphic Signage Aboard Commercial Aircraft
Scope:
Objectives
The primary objective of this document is to improve and standardize the communication normally conveyed via on-board placarding and lighted signage within the passenger cabin. Communication through use of the symbology defined herein will create such benefits as general elimination of bilingual requirements (increasing comprehension of messages by a greater number of airline passengers) and significant reductions in manufacturing costs.
Presently, on-board signage consists mostly of words. An increasing interest has been experienced in the use of pictorial matter to convey the message. As a consequence, numerous symbols have been generated from a variety of sources for these message requirements. The result has been a conglomeration of artwork varying widely in style and content. For the most part, their individual use and application has continued without any assurance of understandability or effectiveness.
The standards presented in this document offer a uniform system of symbols and graphic signage which afford improved message recognition. The symbols used have all received verification testing to ensure their value.
Adherence to this standard provides a solution to the problem of proliferation of symbols and artwork variety. Symbology is given for most messages, however, those messages whose readability is not clarified by symbolic presentation are not included. A procedure for additions to the symbols shown is outlined.
The adoption of this standard provides a uniform offering to airline customers. The approval and use of the standard by AIA and ATA members will lend the necessary industry wide support to bring about near term adoption of this symbols standard.
AIA/NAS NAS985 – UNIFORM ALIGNMENT TESTS – NAS 900 SERIES EQUIPMENT SPECIFICATIONS
Scope:
Purpose This specification provides a standard for the alignment tests required to evaluate the accuracy and determine acceptance of NAS 900 Series equipment noted in paragraph 1.2, and to provide a standard format for recording and reporting actual alignment results. This standard lists minimum requirements.
Classification
This specification is applicable to the machines in the following categories.
Milling Machines general purpose – knee and bed type – horizontal and vertical.
Numerically Controlled milling machines – knee and bed type horizontal and vertical.
Horizontal boring, drilling and milling machines.
Numerically Controlled horizontal boring, drilling and milling machines.
Numerically Controlled combination drilling, boring, milling and tapping machines.
Milling Machines tracer controlled – profiling and contouring.
AIA/NAS TCS003 – TRADE COMPLIANCE STANDARD 003 – FACILITY VISITS BY FOREIGN NATIONALS
Scope:
Purpose
The standard practices established in this document provide guidance on the processes and practices necessary or recommended for an organization to facilitate visits by foreign nationals (including short and long-term visits). This standard is not intended to outline requirements, practices, policies or procedures to assure a cleared or secure facility.
Application
This voluntary standard does not provide legal advice, nor is it intended to address specific export transactions. Users should consult their qualified resource(s) for questions about this standard and related export control compliance issues as appropriate.
These standard practices are applicable to organizations that manufacture defense articles, other export controlled items (commodities, software, and technologies) or perform defense services, or other export controlled items (commodities, software, and technologies) and activities in which providing access to foreign nationals without U.S. government authorization would be prohibited by United States export regulations.
AIA/NAS NAS1524 – STANDARDIZATION SAVINGS, IDENTIFICATION & CALCULATION
The practices established in this document provide uniformity in identification and calculation of the major identifiable cost avoidance and cost reduction savings factors resulting from standardization projects.
AIA/NAS TCS001 – TRADE COMPLIANCE STANDARD 001 (TCS001) – DOCUMENT MARKING, STORAGE, AND ELECTRONIC TRANSMISSION OF TECHNICAL DATA
Purpose
The standard practices established in this document provide guidance on the processes and practices necessary or recommended for a company to control technology, including technical data, subject to the Export Administration Regulations (EAR).
Application
These standard practices are applicable to all domestic and foreign company facilities and personnel that export, reexport, transfer, or otherwise have technology subject to the EAR. This voluntary standard does not provide legal advice, nor is it intended to address specific export transactions. Users should consult their qualified resource(s) for questions about this standard and related export control compliance issues as appropriate.
AIA/NAS TCS002 – TRADE COMPLIANCE STANDARD 002 – JURISDICTIONAL ANALYSIS AND CLASSIFICATION
Purpose
The standard practices established in this document provide guidance on the processes necessary or recommended for an organization to determine the applicable jurisdiction under which its product, technology or service exports are governed and the applicable classification given that jurisdiction.
Application
This voluntary standard does not provide legal advice, nor is it intended to address specific export transactions. Users should consult their qualified resource(s) for questions about this standard and related export control compliance issues as appropriate.
These standard practices are applicable to organizations that design, develop, manufacture or overhaul or repair defense articles, dual use and commercial items (commodities, software, and technologies) and/or provide defense services and activities for which providing access to foreign nationals without U.S. government authorization would be prohibited.
The requirements outlined in this standard are generic and are intended to be applicable to all organizations, regardless of type, size and aerospace product provided. Further, this standard simply identifies the recommended processes to fulfill compliance obligations under this topic. Application of these elements should be customized to align with your organization’s current business processes and priorities.
Throughout this standard any reference to an “item” or “product” is applicable to commodities, technology, or software. If the type of article is mentioned specifically then the standard only applies to that type of article.
AIA/NAS NAS1718 – RELIABILITY DEMONSTRATION OF SOLID PROPELLANT ROCKET MOTORS
Purpose
The standard specifies reliability estimation and demonstration guidelines for solid rocket motors.
Application
The general requirements and reliability demonstration techniques described herein should be the principal basis for estimating solid rocket motor reliability. Specific demonstration requirements may be included in the request for proposal, work statement, or other contractual document. As an option of the procuring activity, a specific demonstration plan for the proposed system may be prepared by the contractor as part of the reliability program plan.
This standard applies primarily to large solid rocket motors. It may be adapted for other applications as an option of the contractor and procuring activity.
AIA/NAS NAS1925 – CLAMP, HOSE
This specification establishes the requirements for a tangential worm drive clamp.
AIA/NAS NAS982 – HOT FORMING, SIZING, AND STRAIGHTENING PRESS SPECIFICATION
This specification provides a standard for manufacture, performance, inspection, reliability and procurement of a hot forming, sizing, and straightening press. This standard lists minimum requirements and is not to limit design advances.
AIA/NAS NAS964 – MACHINE GAS METAL ARC FUSION WELDING EQUIPMENT
This specification provides a standard for manufacture, performance, inspection, reliability and procurement of a machine for gas metal arc welding systems, exclusive of weld positioners, weld manipulators, and other mechanical tooling devices. This standard lists minimum requirements and is not to limit design advances.
AIA/NAS NAS976 – ELECTRON BEAM WELDING MACHINE – HIGH VACUUM
This specification provides a standard for manufacture, performance, inspection, reliability and procurement of an Electron Beam high-vacuum welding system exclusive of weld positioners, weld manipulators and other mechanical tooling devices. This standard lists minimum requirements and is not limited to design advancements.
AIA/NAS NAS990 – COMPOSITE FILAMENT TAPE LAYING MACHINE – NUMERICALLY CONTROLLED
This specification provides a standard for manufacture, performance, reliability, inspection, and procurement of a signal head composite filament tape laying machine having two, three, and four axes of Numerically Controlled motion. This standard lists minimum requirements and is not intended to limit design advances.
AIA/NAS NAS997 – MACHINE PLASMA ARC WELDING EQUIPMENT
This specification provides a standard for performance, inspection, and procurement of transferred arc plasma welding systems exclusive of weld petitioners, weld manipulators, and other mechanical tooling devices. This standard Lists minimum requirements and is not to limit design advances.
AIA/NAS NAS978 – Numerically Controlled Machining Center (Combination Drilling, Boring, Milling, and Tapping Machines)
This specification provides a standard for the design, performance requirements, inspection and procurement for combination machines numerically controlled, with work positioning, and tool selection. This is a minimum standard and is not intended to limit or inhibit advanced designs.
AIA/NAS NAS961 – MANUAL GAS TUNGSTEN ARC (GTA) FUSION WELDING EQUIPMENT
This specification provides a standard for the manufacture, COW performance, inspection, reliability and procurement of a MI series of manual gas tungsten arc welding equipment. This ,x, standard lists minimum requirements and is not to limit de- sign advances.
AIA/NAS NAS940 – PRESS – HYDRAULIC DIRECT ACTING INTERNAL EXPANSION
This specification provides a standard for the manufacture, performance, inspection and procurement of a Direct Acting Internal Expansion Hydraulic Press. This standard lists minimum requirements and is not to limit design advances.
Page 1 of 3659