REG NASA-LLIS-0735--2000 Lessons Learned Material Selection Practices.pdf

1、Best Practices Entry: Best Practice Info:a71 Committee Approval Date: 2000-04-03a71 Center Point of Contact: MSFCa71 Submitted by: Wil HarkinsSubject: Material Selection Practices Practice: Aerospace systems designers must ensure that the most reliable material is used to meet the design requirement

2、s for aerospace systems. Test results regarding corrosion resistance, susceptibility to stress corrosion cracking, flammability, toxicity, thermal vacuum stability, and compatibility with rocket engine fuels, oxidizers, and hydraulic fluids; as well as extensive chemical and physical properties data

3、; are included in the Materials and Processes Technical Information System (MAPTIS). This information is used to assist the aerospace designer in identifying the most reliable material candidates for space systems.Programs that Certify Usage: This practice has been used on Saturn I and Saturn V prog

4、rams, Space Shuttle Main Engine, Solid Rocket Booster, Solid Rocket Motor, Space Shuttle External Tank, and Spacelab.Center to Contact for Information: MSFCImplementation Method: This Lesson Learned is based on Reliability Practice No. PD-ED-1252; from NASA Technical Memorandum 4322A, NASA Reliabili

5、ty Preferred Practices for Design and Test.Benefit:Reliable materials can be selected for aerospace applications by choosing those materials that have Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-demonstrated reliability in carefully controlled la

6、boratory testing and in operational space flights. Use of the Materials and Processes Technical Information System (MAPTIS) data base by system designers will ensure that materials that have demonstrated reliable performance in flight and test experience are the first to be considered in new or revi

7、sed designs. Engineers will then have the confidence in their selections, knowing that the data on which their decisions have been made have been thoroughly validated.Implementation Method:Introduction:The Materials and Processes Technical Information System (MAPTIS) resides on a DEC Alpha 7620 Comp

8、uter located at the George C. Marshall Space Flight Center in Huntsville, Alabama. It can be accessed through the Internet after assignment of an account number by completing a user request form which can be obtained from MSFC.The MAPTIS data base contains properties and test histories on both metal

9、s and nonmetals. Searches of the database can be accomplished by material code, material specification, manufacturer, or by a string or phrase search. Materials are rated based on criteria in NASA Handbook 8060.1C reference 1 , Marshall Space Flight Center Specification 250 reference 2 , Marshall Sp

10、ace Flight Center Specification 522 reference 3 , and SP-R022A reference 4 . For metals, information is included in the database on corrosion, stress corrosion cracking, and compatibility with: (1) gaseous oxygen, (2) liquid oxygen, (3) nitrogen tetroxide, (4) hydrazine, (5) low pressure hydrogen (4

11、50 psi). In addition MAPTIS contains: a material code index, an alloy designation, the heat treatment, material specifications, and the generic identification and form.The database elements for nonmetals includes information on flammability, toxicity, thermal vacuum stability, and compatibility with

12、: (1) liquid oxygen, (2) gaseous oxygen, (3) nitrogen tetroxide, (4) hydrazine, (5) liquid hydrogen, and (6) hydraulic fluid. Nonmetallic data is included for adhesives, elastomers, plastics, tapes, tubing, potting compounds, coatings and lubricants.Material Selection:The materials selection portion

13、 of MAPTIS is a design selection tool that can also be used for material surveys and design reviews. It is based on comprehensive storage of test data and handbook information on metals, nonmetals, and standard parts. It includes a thermal vacuum stability data base which is a compilation of vacuum

14、outgassing data from tests conducted at MSFC and various other organizations including the White Sands Test Facility, the Goddard Space Flight Center, the European Space Agency, the Jet Propulsion Laboratory, and others. Data elements included are total mass loss, residual mass loss, volatile conden

15、sible material, pressure, temperature, duration, and test facility description. An atomic oxygen data base includes the effects of atomic oxygen on various materials, guidelines for selection of materials based on this parameter, and protective techniques. A Provided by IHSNot for ResaleNo reproduct

16、ion or networking permitted without license from IHS-,-,-special database included in MAPTIS is an analytical tool to evaluate toxic outgassing data. The analysis provides a method for determining if the material or the assembled article meets the requirements of NHB 8060.1C acceptance criteria incl

17、uding the comparison of projected contaminant concentrations with maximum allowable concentrations. The material selection function is a vital part of achieving high reliability for long duration space missions or missions on which the materials encounter severe environments.Material Properties:The

18、material properties portion of MAPTIS contains comprehensive online materials information including physical and mechanical properties. Materials are listed specifically by designation, trade name, and manufacturer. The metallic materials portion includes such information as mechanical properties, d

19、esign allowables, variations with environment and temperature, graphical and tabular tensile and compressive yield and ultimate strengths, elongation, fatigue, stress-strain, and elastic modulus. Physical properties such as density and thermal expansion are also included, as are chemical, thermal, a

20、nd electrical properties. Many of these same properties are also included for nonmetals with additional information on peel, tear, and impact resistance; lap shear, creep, and resilience. Physical and chemical properties such as viscosity, hardness, color, formulation, flashpoint, chemical and envir

21、onmental resistance, and pH are included in the data base. For nonmetals, processing parameters such as extrusion or molding temperatures, pressures, and times; cure conditions, mix ratios, rise, and demold times are also included. The types of materials contained in the nonmetals portion of the dat

22、abase are: plastics, nozzle materials, coatings, tapes, adhesives, and lubricants.Verification and Control:The MAPTIS is also used to obtain information on where the materials listed have been used, to determine the history of hardware and material selection rationale, and to correlate U.S. material

23、 designations with those of foreign material designations. The “where used“ data aids in the identification, tracking, and control of all material usage as a function of part number, environment, contractor, and/or project. This information is available for the SRM/SRB, External Tank, Space Shuttle

24、Main Engine, and Spacelab programs. The data includes configuration information, application information, materials usage information, and support information. Configuration information includes the associate contractor, the detailed drawing numbers and part numbers, and the next assembly drawing an

25、d part numbers for the device, part, or structure that used or uses the material. Application information includes test data, fluid systems compatibility, environmental conditions to which the item(s) have been subjected, evaluation and analysis rationale, and process specifications. Materials usage

26、 and support information includes: (1) all materials by designation, code, and specification; (2) an overall material evaluation rating; (3) a record of the weight, surface area, and thickness of nonmetals; (4) a record of material usage agreements; and (5) material specifications. These success sto

27、ries of materials which performed in an acceptable manner in real programs, as well as in laboratory tests, are indispensable inputs to the aerospace designer.Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-Structural Materials Failure Analysis Datab

28、ase:It is not only the success stories that are important inputs to the designer, but also an in-depth knowledge of the failures that have occurred and why they occurred is another vital link to high reliability. The NASA-wide failure analysis data base for structural materials is also a part of MAP

29、TIS. It provides fast and easy access to selected NASA and contractor reports on failure investigations for structural materials and processes that have been conducted over a period of 35 years. The database fulfills the stated requirements of personnel surveyed at NASA centers, the Department of De

30、fense, and contractors who need to be able to retrieve data quickly, cross reference large quantities of technical information, and share results in a standard format between organizations. The database presents failure analysis information in a simple format. It is used by engineers and managers to

31、 get a head start on investigations, minimize duplications of effort, use resources effectively, and ensure that problems have been resolved or can be avoided. There are approximately 900 records in the database at this writing, and the information is continuing to be updated and amended as new info

32、rmation becomes available. The database has nine identifying data fields plus an abstract averaging about 100 words to describe the nature of the failure, its cause, and corrective actions. Failures are categorized into 15 categories as follows:1. Critical Defect Growth2. Corrosion Fatigue3. Corrosi

33、on4. Creep5. High Cycle Fatigue6. Hydrogen Embrittlement7. Hydrogen Environment Embrittlement8. Low Cycle Fatigue9. Liquid Metal Embrittlement10. Overload11. Oxidation12. Stress Assisted Grain Boundary Oxidation Crack13. Stress Corrosion Cracking14. Stress Rupture15. OtherKnowledge of the types of s

34、tructural failures that have been encountered, the details of the failure analysis, and the corrective actions taken are essential elements in the material selection for systems which must perform reliably.Project Support Data Base:MAPTIS contains a project support data base designed for both extern

35、al and internal support to the Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-major ongoing NASA and MSFC projects. The project support data base includes an electronic bulletin board, lead engineer data records, a standards data base, specification

36、s status, and correspondence status. The electronic bulletin board provides a method for rapid dissemination and exchange of materials and processes news, developments, and problems NASA-wide. Lead Engineers are listed for each project. A standards data base lists all NASA specifications and standar

37、ds. The specifications tracking data file provides evaluation or approval status, disposition, description and effectivity for material and process specifications, operations, and procedures reviewed and evaluated by MSFCs Materials and Processes Laboratory.Technical Rationale:Historically, material

38、s and their properties have been inextricably tied to the ability to withstand severe environments and to provide hardware that will operate successfully in multiple missions. An intimate knowledge of the materials, their composition, their reaction under various operating conditions, and their succ

39、ess and failure history will provide the designer with the ability to select the right material for any given task. MAPTIS contains an accumulated body of data and evidence that has been documented over many years and perfected into an electronic access system that is still being updated and growing

40、. Use of this system has become an essential element in the continuing pursuit of the ultimate in reliable space flight systems.References:1. NHB 8060.1C;“ Flammability, Odor, and Offgassing Requirements and Test Procedures for Materials in Environments that Support Combustion.“2. MSFC-SPEC-250A; “P

41、rotective Finishes for Space Vehicles, Structures, and Associated Flight Experiments.“3. MSFC-SPEC-522B; “Design Criteria for Controlling Stress Corrosion Cracking.“4. SP-R022A; “Vacuum Stability Requirements of Polymeric Materials for Spacecraft Applications.“Impact of Non-Practice: Failure to acce

42、ss and survey the MAPTIS system could result in overlooking important materials or process advancements, mistaking vital material parameters, or using materials in applications where they would be subject to potential degradation or failure. The result could be mission compromise, mission delays, lo

43、ss of mission, or loss of life.Related Practices: N/AProvided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-Additional Info: Approval Info: a71 Approval Date: 2000-04-03a71 Approval Name: Eric Raynora71 Approval Organization: QSa71 Approval Phone Number: 202-358-4738Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-