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Effects of Thermal Exposure on Properties of Al-Li Alloys (2003)

Shah, S. ; Babel, H. ; Lawless, K. ; [et al.]

In: CASI

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Publication Date: 2018-06-12

Description: The objective of this investigation is to evaluate the effects of thermal exposure on the mechanical properties of both production mature and developmental Al-Li alloys

Keywords: Metals and Metallic Materials

Type: 5th Conference on Aerospace Materials, Processes, and Environmental Technology; NASA/CP-2003-212931

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Effects of Thermal Exposure on Properties of Al-Li Alloys (2002)

Wagner, John ; Shah, Sandeep ; Farahmand, Bahram ; [et al.]

In: Other Sources

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Publication Date: 2019-07-18

Description: Aluminum-Lithium (Al-Li) alloys offer significant performance benefits for aerospace structural applications due to their higher specific properties compared with conventional Al alloys. For example, the application of Al-Li alloy 2195 to the space shuffle external cryogenic fuel tank resulted in weight savings of over 7,000 lb, enabling successful deployment of International Space Station components. The composition and heat treatment of 2195 were optimized specifically for strength-toughness considerations for an expendable cryogenic tank. Time-dependent properties related to reliability, such as thermal stability, fatigue, and corrosion, will be of significant interest when materials are evaluated for a reusable cryotank structure. Literature surveys have indicated that there is limited thermal exposure data on Al-Li alloys. The effort reported here was designed to establish the effects of thermal exposure on the mechanical properties and microstructure of Al-Li alloys C458, L277, and 2195 in plate gages. Tensile, fracture toughness, and corrosion resistance were evaluated for both parent metal and friction stir welds (FSW) after exposure to temperatures as high as 300 F for up to 1000 hrs. Microstructural changes were evaluated with thermal exposure in order to correlate with the observed data trends. The ambient temperature parent metal data showed an increase in strength and reduction in elongation after exposure at lower temperatures. Strength reached a peak with intermediate temperature exposure followed by a decrease at highest exposure temperature. Friction stir welds of all alloys showed a drop in elongation with increased length of exposure. Understanding the effect of thermal exposure on the properties and microstructure of Al-Li alloys must be considered in defining service limiting temperatures and exposure times for a reusable cryotank structure.

Keywords: Metals and Metallic Materials

Type: AMPET; Sep 16, 2002 - Sep 18, 2002; Huntsville, AL; United States

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B218 Weld Filler Wire Characterization for Al-Li Alloy 2195 (2000)

Russell, Carolyn ; Bjorkman, Gerry

In: CASI

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Publication Date: 2019-07-13

Description: NASA Marshall Space Flight Center, Lockheed Martin Space Systems- Michoud Operations, and McCook Metals have developed an aluminum-copper weld filler wire for fusion welding aluminum lithium alloy 2195. The aluminum-copper based weld filler wire has been identified as B218, a McCook Metals designation. B218 is the result of six years of weld filler wire development funded by NASA, Lockheed Martin, and McCook Metals. The filler wire chemistry was developed to produce enhanced 2195 weld and repair weld mechanical properties over the 4043 aluminum-silicon weld filler wire, which is currently used to weld 2195 on the Super Lightweight External Tank for the NASA Space Shuttle Program. An initial characterization was performed consisting of a repair weld evaluation using B218 and 4043 weld filler wires. The testing involved room temperature and cryogenic repair weld tensile testing along with fracture toughness testing. From the testing, B218 weld filler wire produce enhanced repair weld tensile strength, ductility, and fracture properties over 4043. B218 weld filler wire has proved to be a superior weld filler wire for welding aluminum lithium alloy 2195 over 4043.

Keywords: Metals and Metallic Materials

Type: Aeromat 2000 Conference; Jun 26, 2000 - Jun 29, 2000; Seattle, WA; United States

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Test and Analysis of Sub-Components of Aluminum-Lithium Alloy Cylinders (2012)

Satyanarayana, Arunkumar ; Smith, Russell W. ; Haynie, Waddy T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Integrally machined blade-stiffened panels subjected to an axial compressive load were tested and analyzed to observe the buckling, crippling, and postcrippling response of the panels. The panels were fabricated from aluminum-lithium alloys 2195 and 2050, and both alloys have reduced material properties in the short transverse material direction. The tests were designed to capture a failure mode characterized by the stiffener separating from the panel in the postbuckling range. This failure mode is attributed to the reduced properties in the short transverse direction. Full-field measurements of displacements and strains using three-dimensional digital image correlation systems and local measurements using strain gages were used to capture the deformation of the panel leading up to the failure of the panel for specimens fabricated from 2195. High-speed cameras were used to capture the initiation of the failure. Finite element models were developed using an isotropic strain-hardening material model. Good agreement was observed between the measured and predicted responses for both alloys.

Keywords: Metals and Metallic Materials

Type: NF1676L-13166 , AIAA Paper-2012-1687 , 53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference; Apr 23, 2012 - Apr 26, 2012; Honolulu, HI; United States

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Electromagnetic Characterization Of Metallic Sensory Alloy (2012)

Leser, Paul ; Simpson, John ; Newman, John A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Ferromagnetic shape-memory alloy (FSMA) particles undergo changes in both electromagnetic properties and crystallographic structure when strained. When embedded in a structural material, these attributes can provide sensory output of the strain state of the structure. In this work, a detailed characterization of the electromagnetic properties of a FSMA under development for sensory applications is performed. In addition, a new eddy current probe is used to interrogate the electromagnetic properties of individual FSMA particles embedded in the sensory alloy during controlled fatigue tests on the multifunctional material.

Keywords: Metals and Metallic Materials

Type: NF1676L-15575 , 39th Annual Review of Progress in Quantitative Nondestructive Evaluation (QNDE) Conference; Jul 15, 2012 - Jul 20, 2012; Denver, CO; United States

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Mitigating Abnormal Grain Growth for Friction Stir Welded Al-Li 2195 Spun Formed Domes (2012)

Chen, Po-Shou ; Russell, Carolyn

In: CASI

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Publication Date: 2019-07-13

Description: Formability and abnormal grain growth (AGG) are the two major issues that have been encountered for Al alloy spun formed dome development using friction stir welded blanks. Material properties that have significant influence on the formability include forming range and strain hardening exponent. In this study, tensile tests were performed for two 2195 friction stir weld parameter sets at 400 F to study the effects of post weld anneal on the forming range and strain hardening exponent. It was found that the formability can be enhanced by applying a newly developed post weld anneal to heat treat the friction stir welded panels. This new post weld anneal leads to a higher forming range and much improved strain hardening exponent. AGG in the weld nugget is known to cause a significant reduction of ductility and fracture toughness. This study also investigated how AGG may be influenced by the heating rate to the solution heat treatment temperature. After post-weld annealing, friction stir welds were strained to 15% and 39% by compression at 400 F before they were subjected to SHT at 950 F for 1 hour. Salt bath SHT is very effective in reducing the grain size as it helps arrest the onset of AGG and promote normal recrystallization and grain growth. However, heat treating a 18 ft dome using a salt bath is not practical. Efforts are continuing at Marshall Space Flight Center to identify the welding parameters and heat treating parameters that can help mitigate the AGG in the friction stir welds.

Keywords: Metals and Metallic Materials

Type: M12-1469 , M12-1643 , M12-1818 , International Friction Stir Welding Symposium; May 15, 2012 - May 17, 2012; Huntsville, AL; United States

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Procedure for Automated Eddy Current Crack Detection in Thin Titanium Plates (2012)

Wincheski, Russell A.

In: CASI

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Publication Date: 2019-07-12

Description: This procedure provides the detailed instructions for conducting Eddy Current (EC) inspections of thin (5-30 mils) titanium membranes with thickness and material properties typical of the development of Ultra-Lightweight diaphragm Tanks Technology (ULTT). The inspection focuses on the detection of part-through, surface breaking fatigue cracks with depths between approximately 0.002" and 0.007" and aspect ratios (a/c) of 0.2-1.0 using an automated eddy current scanning and image processing technique.

Keywords: Metals and Metallic Materials

Type: NASA/TM-2012-217782 , L-20187 , NF1676L-15095

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8

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Mitigation of Crack Damage in Metallic Materials (2014)

Wallace, Terryl A. ; Leser, William P. ; Glaessgen, Edward H. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: A system designed to mitigate or heal crack damage in metallic materials has been developed where the protected material or component is coated with a low-melting temperature film. After a crack is formed, the material is heated, melting the film which then infiltrates the crack opening through capillary action. Upon solidification, the healing material inhibits further crack damage in two ways. While the crack healing material is intact, it acts like an adhesive that bonds or bridges the crack faces together. After fatigue loading damages, the healing material in the crack mouth inhibits further crack growth by creating artificially-high crack closure levels. Mechanical test data show that this method sucessfully arrests or retards crack growth in laboratory specimens.

Keywords: Metals and Metallic Materials

Type: NASA/TM-2014-218272 , L-20418 , NF1676L-18936

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9

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New Alloys for Electroformed Replicated X-Ray Optics (2000)

Jones, W. D. ; Engelhaupt, D. ; ODell, S. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: The process of electroforming x-ray mirror shells off a superpolished mandrel has been widely used. The recently launched XMM mission is a good example of this, containing 174 such mirror shells of diameters ranging from 0.3-0.7 m and thicknesses of 0.47-1.07 mm. To continue to utilize this technique for the next generation of x-ray observatories, where ever-larger collecting areas will be required within the constraints of tight weight budgets, demands that new alloys be developed that can withstand the large stresses imposed on very thin shells by the replication and handling processes. Towards this end, we began a development program in late 1997 to produce a high-strength alloy suitable for electroforming very thin high-resolution x-ray optics. The requirements for this task are quite severe; not only must the electroformed deposit be very strong, it must also have extremely low residual stresses to prevent serious figure distortions in large thin-walled shells. Further, the electroforming must be performed at near room temperature, as large temperature changes will modify the figure of the mandrel, in an environment that is not corrosive for the mandrel. The figure of merit for the strength of the electroformed deposit is its Precision Elastic Limit (PEL). This is a measure of permanent strain, at the few parts per million level, under applied stress. Pure nickel is very ductile and will permanently deform, at the parts-per-million level under loads of a few x 10(exp 7) Pa. These stresses are easily exceeded when thin-walled shells (150 micron thick) are replicated. Our goal was to develop an alloy an order of magnitude stronger than this. We will present the results of our development program, showing the evolution of our plating baths through to our present 'glassy' nickel alloy that satisfies the goals above. For each we will show the electroforming characteristics of the bath and the PEL measurements for the resulting alloys. We estimate the ultimate limit on shell thickness and mass for x-ray mirrors produced in these baths.

Keywords: Metals and Metallic Materials

Type: Jul 30, 2000 - Aug 04, 2000; San Diego, CA; United States

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Large structural, thin-wall castings made of metals subject to hot tearing, and their fabrication (2001)

Smashey, Russell W.

In: CASI

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Publication Date: 2019-08-15

Description: An article, such as a gas turbine engine mixer, is made by providing a mold structure defining a thin-walled, hollow article, and a base metal that is subject to hot tear cracking when cast in a generally equiaxed polycrystalline form, such as Rene' 108 and Mar-M247. The article is fabricated by introducing the molten base metal into the mold structure, and directionally solidifying the base metal in the mold structure to form a directionally oriented structure. The directionally oriented structure may be formed of a single grain or oriented multiple grains.

Keywords: Metals and Metallic Materials

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