Microstructural Control of a Precipitate-Hardenable Al-Ag Alloy Using Severe Plastic Deformation PDF Download
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Author: Kunihiro Ohashi
Publisher:
ISBN:
Category :
Languages : en
Pages : 6
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Book Description
An Al-10.8wt%Ag alloy was subjected to aging treatment followed by Equal-Channel Angular Pressing (ECAP) (designated process AE) or ECAP followed by aging treatment (designated process EA). Hardness measurements were undertaken with respect to the number of ECAP passes for process AE or with respect to aging time for process EA. Microstructures were examined by transmission electron microscopy (TEM) including X-ray mapping. It is shown that age hardening is observed for the ECAP sample due to the precipitation of very fine particles within the small grains.
Author: Kunihiro Ohashi
Publisher:
ISBN:
Category :
Languages : en
Pages : 6
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Book Description
An Al-10.8wt%Ag alloy was subjected to aging treatment followed by Equal-Channel Angular Pressing (ECAP) (designated process AE) or ECAP followed by aging treatment (designated process EA). Hardness measurements were undertaken with respect to the number of ECAP passes for process AE or with respect to aging time for process EA. Microstructures were examined by transmission electron microscopy (TEM) including X-ray mapping. It is shown that age hardening is observed for the ECAP sample due to the precipitation of very fine particles within the small grains.
Author: Michael J. Zehetbauer
Publisher: John Wiley & Sons
ISBN: 3527604944
Category : Technology & Engineering
Languages : en
Pages : 872
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Book Description
These proceedings of the "Second International Conference on Nanomaterials by Severe Plastic Deformation" review the enormous scientific avalanche that has been developing in the field over recent years. A valuable resource for any scientist and engineer working in this emerging field of nanotechnology.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Numerous investigations have demonstrated that intense plastic deformation is an attractive procedure for producing an ultrafine grain size in metallic materials. Torsional deformation under high pressure and equal-channel angular extrusion are two techniques that can produce microstructures with grain sizes in the submicrometer and nanometer range. Materials with these microstructures have many attractive properties. The microstructures formed by these two processing techniques are essentially the same and thus the processes occurring during deformation should be the same. Most previous studies have examined the final microstructures produced as a result of severe plastic deformation and the resulting properties. Only a limited number of studies have examined the evolution of microstructure. As a result, some important aspects of ultra-fine grain formation during severe plastic deformation remain unknown. There is also limited data on the influence of the initial state of the material on the microstructural evolution and mechanisms of ultra-fine grain formation. This limited knowledge base makes optimization of processing routes difficult and retards commercial application of these techniques. The objective of the present work is to examine the microstructure evolution during severe plastic deformation of a 2219 aluminum alloy. Specific attention is given to the mechanism of ultrafine grain formation as a result of severe plastic deformation.
Author: Xipeng Xu
Publisher:
ISBN:
Category : Functionally gradient materials
Languages : en
Pages : 1018
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Book Description
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 19
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Book Description
A combined experimental and modeling study has been carried out to characterize the structure and mechanical properties of severely plastically deformed (SPD) aluminum and its alloys as well as the effect of strengthening mechanism on fracture toughness and failure mode. This investigation is focused specifically on Equal Channel Angular Pressing (ECAP) and heavy cold rolling of high solute Al alloys. A particular reason for studying the high strength potentially achievable by these routes is the expectation that since the fracture toughness of precipitation hardened aluminum alloys is known to be degraded by grain boundary precipitates, the high strengths achievable by strain hardening without precipitation has a reasonable prospect of yielding a higher combination of yield strength and toughness than by conventional precipitation hardening. In this study it has been shown that SPD processing of high solute Al alloys can be carried out to higher strains before strain localization occurs if mechanical stress relieving is done prior to processing and that strengths unobtainable through precipitation hardening can readily be achieved by strain hardening. The effect of natural aging on strain hardening has been investigated and found to be a significant factor in the rate at which the flow stress increases with increasing plastic strain. It has been shown that strain hardened Al alloys are more ductile and exhibit higher strain hardening rates then precipitation hardened alloys at equivalent strengths and that strain hardening is a viable processing route for improving toughness. On the modeling side, we have developed new micromechanical finite element models that employ crystal plasticity constitutive framework and are able to successfully simulate texture evolution in the sample during complex routes of ECAP.
Author: Rolf Berghammer
Publisher: Cuvillier Verlag
ISBN: 373694831X
Category : Technology & Engineering
Languages : en
Pages : 130
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Book Description
A promising way to increase the strength of aluminum alloys is by grain refinement. Therefore the production of so-called ultra-fine grained (UFG) microstructures by severe plastic deformation (SPD) is a very interesting topic. One of the most common SPD processes is Equal Channel Angular Pressing (ECAP), which was compared to Confined Channel Die Pressing (CCDP) and cold rolling.In the focus of this work lays on the one hand the influence of different precipitation states on the formation of UFG structures and their influence on the mechanical properties and on the other hand it was examined if the thermal stability of these structures can be improved either by supersaturated solid solution(by impurity drag) or by precipitates (by grain boundary pinning).With a better understanding of the ongoing softening mechanisms a good combination of high strength and good ductility can be achievedby alternating SPD and heat treatment.
Author: Sadie Cole Beck
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages :
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Book Description
Additive manufacturing provides alternatives to traditional manufacturing methods. Equipment footprint, energy use, maintenance considerations, component geometries and material selection are all being reconsidered on the rise of additive manufacturing. Aluminum alloys are of particular interest in the additive manufacturing realm because of their strength-to-weight ratio, general availability, and performance in austere environments. However, it s critical that the strengthening mechanisms that make aluminum alloys so desirable are preserved post additive processing. Additive Friction Stir Deposition (AFSD) is a novel additive manufacturing process that utilizes solid-state plastic deformation to create near-net shaped, layered depositions. Because the process is still being developed, the microstructural and mechanical performance of deposited aluminum alloys have not been fully characterized. In this work, the process-structure-property-performance of a precipitate-hardened (AA6061-T6) and strain-hardened (AA5083-H131) aluminum alloy as processed through AFSD, were quantified. A standard post deposition heat treatment (PDHT) was applied to AA6061 AFSD material, an Al-Mg-Si alloy. The as-deposited material exhibited a refined grain structure, reduced tensile strength from the heat treated feedstock, and increased elongation to failure. The PDHT AFSD material exhibited tensile properties characteristic of a T6 temper through the regrowth of strengthening precipitates. The other material of interest, Al-Mg-Mn alloy (AA5083-H131), a strain-hardened alloy, was processed through AFSD using two methods of machine feeding: recycled chip and solid rod. The thermo-mechanical processing of AFSD resulted in an exchange of strengthening mechanisms removing the wrought material of strength from strain-hardening and replacing it with grain boundary strengthening. The monotonic tensile results demonstrated a reduced yield strength and comparable elastic modulus and ultimate tensile strength to the AA5083-H131 wrought control. The fatigue results demonstrated comparable fatigue performance, primarily between the recycled chip feedstock and wrought AA5083-H131. A strength model and a multistage fatigue model were employed to capture the tensile and fatigue performance for AFSD AA5083. Dynamic compression testing was performed using a Split-Hopkinson pressure bar to quantify strain rate dependence. Experiments reveal that the flow stress of AA5083-H131 and AA5083 AFSD are dependent on the strain rate under compression loading. Furthermore, resulting mechanical performance was captured by the internal state variable (ISV) plasticity-damage model.
Author: E. Henry Chia
Publisher:
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 248
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Book Description
Author: Alan Tomsett
Publisher: Springer Nature
ISBN: 3030364089
Category : Technology & Engineering
Languages : en
Pages : 1385
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Book Description
The Light Metals symposia at the TMS Annual Meeting & Exhibition present the most recent developments, discoveries, and practices in primary aluminum science and technology. The annual Light Metals volume has become the definitive reference in the field of aluminum production and related light metal technologies. The 2020 collection includes papers from the following symposia: • Alumina and Bauxite• Aluminum Alloys, Processing and Characterization• Aluminum Reduction Technology• Cast Shop Technology• Cast Shop Technology: Recycling and Sustainability Joint Session• Electrode Technology for Aluminum Production
Author: T. Sheppard
Publisher: Springer Science & Business Media
ISBN: 1475730012
Category : Technology & Engineering
Languages : en
Pages : 428
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Book Description
In recent years the importance of extruded alloys has increased due to the decline in copper extrusion, increased use in structural applications, environmental impact and reduced energy consumption. There have also been huge technical advances. This text provides comprehensive coverage of the metallurgical, mathematical and practical features of the process.
