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  • 1
    facet.materialart.
    Unknown
    Hot isostatically pressed manufacture of high strength MERL 76 disk and seal shapes (1982)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: The performance of a HIP MERL 76 disk installed in an experimental engine and exposed to realistic operating conditions in a 150 hour, 1500 cycle endurance test is examined. Post test analysis, based on visual, fluorescence penetrant and dimensional inspection, indicates that the disk performs satisfactorily.
    Keywords: METALLIC MATERIALS
    Type: NASA-CR-165550 , NAS 1.26:165550 , PWA-5574-149
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Unknown
    Manufacture of astroloy turbine disk shapes by hot isostatic pressing, volume 1 (1978)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: The Materials in Advanced Turbine Engines project was conducted to demonstrate container technology and establish manufacturing procedures for fabricating direct Hot Isostatic Pressing (HIP) of low carbon Astroloy to ultrasonic disk shapes. The HIP processing procedures including powder manufacture and handling, container design and fabrication, and HIP consolidation techniques were established by manufacturing five HIP disks. Based upon dimensional analysis of the first three disks, container technology was refined by modifying container tooling which resulted in closer conformity of the HIP surfaces to the sonic shape. The microstructure, chemistry and mechanical properties of two HIP low carbon Astroloy disks were characterized. One disk was subjected to a ground base experimental engine test, and the results of HIP low carbon Astroloy were analyzed and compared to conventionally forged Waspaloy. The mechanical properties of direct HIP low carbon Astroloy exceeded all property goals and the objectives of reduction in material input weight and reduction in cost were achieved.
    Keywords: METALLIC MATERIALS
    Type: NASA-CR-135409 , PWA-5574-12-VOL-1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Evaluation of powder metallurgy superalloy disk materials (1975)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: A program was conducted to develop nickel-base superalloy disk material using prealloyed powder metallurgy techniques. The program included fabrication of test specimens and subscale turbine disks from four different prealloyed powders (NASA-TRW-VIA, AF2-1DA, Mar-M-432 and MERL 80). Based on evaluation of these specimens and disks, two alloys (AF2-1DA and Mar-M-432) were selected for scale-up evaluation. Using fabricating experience gained in the subscale turbine disk effort, test specimens and full scale turbine disks were formed from the selected alloys. These specimens and disks were then subjected to a rigorous test program to evaluate their physical properties and determine their suitability for use in advanced performance turbine engines. A major objective of the program was to develop processes which would yield alloy properties that would be repeatable in producing jet engine disks from the same powder metallurgy alloys. The feasibility of manufacturing full scale gas turbine engine disks by thermomechanical processing of pre-alloyed metal powders was demonstrated. AF2-1DA was shown to possess tensile and creep-rupture properties in excess of those of Astroloy, one of the highest temperature capability disk alloys now in production. It was determined that metallographic evaluation after post-HIP elevated temperature exposure should be used to verify the effectiveness of consolidation of hot isostatically pressed billets.
    Keywords: METALLIC MATERIALS
    Type: NASA-CR-134865 , PWA-5263
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 4
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    Unknown
    Hot isostatically pressed manufacture of high strength MERL 76 disk and seal shapes (1982)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: The feasibility of using MERL 76, an advanced high strength direct hot isostatic pressed powder metallurgy superalloy, as a full scale component in a high technology, long life, commercial turbine engine were demonstrated. The component was a JT9D first stage turbine disk. The JT9D disk rim temperature capability was increased by at least 22 C and the weight of JT9D high pressure turbine rotating components was reduced by at least 35 pounds by replacement of forged Superwaspaloy components with hot isostatic pressed (HIP) MERL 76 components. The process control plan and acceptance criteria for manufacture of MERL 76 HIP consolidated components were generated. Disk components were manufactured for spin/burst rig test, experimental engine tests, and design data generation, which established lower design properties including tensile, stress-rupture, 0.2% creep and notched (Kt = 2.5) low cycle fatigue properties, Sonntag, fatigue crack propagation, and low cycle fatigue crack threshold data. Direct HIP MERL 76, when compared to conventionally forged Superwaspaloy, is demonstrated to be superior in mechanical properties, increased rim temperature capability, reduced component weight, and reduced material cost by at least 30% based on 1980 costs.
    Keywords: METALLIC MATERIALS
    Type: NASA-CR-165549 , NAS 1.26:165549 , PWA/5574-123
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 5
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    Unknown
    Development of a high strength hot isostatically pressed /HIP/ disk alloy, MERL 76 (1980)
    In:  Other Sources
    Details
    Publication Date: 2019-07-13
    Description: A nickel-based powder metal disk alloy developed for use in advanced commercial gas turbines is described. Consideration is given to final alloy chemistry modifications made to achieve a desirable balance between tensile strength and stress rupture life and ductility. The effects of post-consolidation heat treatment are discussed, the preliminary mechanical properties obtained from full-scale turbine disks are presented.
    Keywords: METALLIC MATERIALS
    Type: International Powder Metallurgy Conference and Exhibition; Jun 22, 1980 - Jun 27, 1980; Washington, DC
    Format: text
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    NASA TECHNICAL REPORTS
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