Strength and Ductility Improvement through Thermomechanical Treatment of Wire-Feed Electron Beam Additive Manufactured Low Stacking Fault Energy (SFE) Aluminum Bronze

Khoroshko, E. S.; Filippov, Andrey; Tarasov, S. Yu.; Shamarin, N. N.; Moskvichev, E. N.; Фортуна, С. В.; Лычагин, Д. В.; Колубаев, Е. А.

doi:10.3390/met10121568

Cited by 18 publications

(17 citation statements)

References 52 publications

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“…The positive effect of strain hardening, and in particular of severe plastic deformation for surface modification of bronze alloys, was demonstrated in (Ref [35][36][37][38]. Due to the high plasticity of the aCu-phase in CuAl8Fe3 bronze, structural changes in the surface layers are observed both in the specimens treated via DB and in the specimen treated only by fine turning.…”

Section: Microstructurementioning

confidence: 93%

Improvement in Wear Resistance Performance of CuAl8Fe3 Single-Phase Aluminum Bronze via Slide Diamond Burnishing

Duncheva

Maximov

Anchev

et al. 2021

J. of Materi Eng and Perform

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Single-phase CuAl8Fe3 aluminum bronze is preferred material for many applications requiring good strength and high corrosion and wear resistance. Due to its lower aluminum content (below 8.5%), this alloy cannot be subjected to heat treatment. The effect of diamond burnishing (DB) on wear resistance performance of this bronze was studied via wear tests under boundary lubrication and dry friction conditions. Three groups of specimens were tested, each subjected to different finishing process: fine turning, DB with one pass and DB with six passes. The DB process with six passes provided the highest wear resistance under the condition of boundary lubrication friction and increased the wear resistance 5.1 times more than fine turning. DB with one pass resulted in the highest wear resistance under the dry friction condition and increased the wear resistance 1.75 times more than fine turning. It was established that the geometrical characteristics of surface texture are dominant under the condition of boundary lubrication friction. Conversely, the physical-mechanical characteristics of the surface layer dominate when the wear is under condition of dry friction. It was found that in addition to the known positive effects, DB provides suitable surface texture to improve the lubrication between the contact surfaces.

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Section: Microstructurementioning

confidence: 93%

Improvement in Wear Resistance Performance of CuAl8Fe3 Single-Phase Aluminum Bronze via Slide Diamond Burnishing

Duncheva

Maximov

Anchev

et al. 2021

J. of Materi Eng and Perform

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“…Under uniaxial loading, this orientation is characterized by Metals 2021, 11, 582 3 of 16 deformation on six equiloaded slip systems (three planes with two directions in each plane). An aluminum bronze sample was grown on an AISI 321 steel substrate from a Cu-7.5wt.%Al wire using an electron beam wire-feed machine designed and built at the Institute of Strength Physics and Material Science of Siberian Branch of Russian Academy of Sciences (ISPMS SB RAS) [1]. Single crystals with a required crystallographic orientation were cut from the ingots.…”

Section: Model and Experimental Conditionsmentioning

confidence: 99%

“…Progress in additive technologies has attracted even more attention to the role of classic substructural mechanisms of deformation and hardening of metal materials. This is concerned with the directional crystallization of grains and the formation of a so-called dendritic structure in the materials produced by additive manufacturing [1][2][3][4][5]. On one hand, large columnar grains deteriorate the mechanical properties of the materials.…”

Section: Introductionmentioning

confidence: 99%

“…Due to their high strength, excellent corrosion, and wear resistance, CuAl alloys have advantageous over other structural materials. Progress in powder 3D printing and the development of new technologies of wire-feed additive manufacturing [1,13,14] stimulate growing interest in this material. Moreover, the shape memory effect and thermomechanically induced structural transformations in CuAl based compounds make them new objects for the elaboration of a new class of adaptive structural materials [1,14].…”

Section: Introductionmentioning

confidence: 99%

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Numerical Study and Experimental Validation of Deformation of <111> FCC CuAl Single Crystal Obtained by Additive Manufacturing

Nikonov

Дмитриев

Лычагин

et al. 2021

Metals

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The importance of taking into account directional solidification of grains formed during 3D printing is determined by a substantial influence of their crystallographic orientation on the mechanical properties of a loaded material. This issue is studied in the present study using molecular dynamics simulations. The compression of an FCC single crystal of aluminum bronze was performed along the <111> axis. A Ni single crystal, which is characterized by higher stacking fault energy (SFE) than aluminum bronze, was also considered. It was found that the first dislocations started to move earlier in the material with lower SFE, in which the slip of two Shockley partials was observed. In the case of the material with higher SFE, the slip of a full dislocation occurred via successive splitting of its segments into partial dislocations. Regardless of the SFE value, the deformation was primarily occurred by means of the formation of dislocation complexes involved stair-rod dislocations and partial dislocations on adjacent slip planes. Hardening and softening segments of the calculated stress–strain curve were shown to correspond to the periods of hindering of dislocations at dislocation pileups and dislocation movement between them. The simulation results well agree with the experimental findings.

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“…The thermo-mechanical cycles and processing parameter variability that is intrinsic to AM printing, subsequently influence all aspects of the final part's material properties [9,15,16]. Variations in thermal experiences and processing conditions result in microstructural gradients, making the science of predicting the material properties and resulting residual stresses a complex multiphysics simulation problem.…”

Section: Introductionmentioning

confidence: 99%

Predicting the Strength of EBAM 3D Printed Ti-6Al-4V from Processing Conditions

Johnson

Peters

Harlow

et al. 2022

Metals

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In this study, a process-to-property linear regression model was developed to predict the yield and ultimate tensile strengths of as printed Ti-6Al-4V from electron beam additive manufacturing (EBAM). A total of 8 printing conditions such as bead width, wire feed rate, deposition speed were utilized to predict the material properties in three different notional parts produced over a period of several months. It was found that as the precision and variety of processing conditions collected during print improved between prints, so did the predictive ability of the model. In the final print, the model predicted the yield and ultimate strengths of 72 specimens with an R2 correlation of 0.8 and 0.6 for the horizontal and vertical test specimens, respectively. Although the current model indirectly accounted for thermal fluctuations, further improvements to the model’s ability to predict material strength are expected with the addition of thermal data captured in subsequent notional parts.

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Strength and Ductility Improvement through Thermomechanical Treatment of Wire-Feed Electron Beam Additive Manufactured Low Stacking Fault Energy (SFE) Aluminum Bronze

Cited by 18 publications

References 52 publications

Improvement in Wear Resistance Performance of CuAl8Fe3 Single-Phase Aluminum Bronze via Slide Diamond Burnishing

Improvement in Wear Resistance Performance of CuAl8Fe3 Single-Phase Aluminum Bronze via Slide Diamond Burnishing

Numerical Study and Experimental Validation of Deformation of <111> FCC CuAl Single Crystal Obtained by Additive Manufacturing

Predicting the Strength of EBAM 3D Printed Ti-6Al-4V from Processing Conditions

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