Texture variations and mechanical properties of aluminum during severe plastic deformation and friction stir processing with SiC nanoparticles

FCC materials were subjected to large strain deformation by three techniques: equal channel angular pressing (ECAP), plane-strain machining and friction stir processing (FSP). Based on the orientation imaging mapping (OIM) analysis of the deformed regions, the most likely microstructure refinement mechanisms have been identified for each of the techniques and compared among one another.

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Friction Stir Processing: A Technique for Microstructural Refinement in Metallic Materials

Materials Science Forum ◽

10.4028/www.scientific.net/msf.618-619.63 ◽

2009 ◽

Vol 618-619 ◽

pp. 63-67 ◽

Cited By ~ 8

Author(s):

Sri Lathabai ◽

R. Migeon ◽

V.K. Tyagi ◽

Robert G. O'Donnell ◽

Yuri Estrin

Keyword(s):

Mechanical Properties ◽

Plastic Deformation ◽

Friction Stir Processing ◽

Frictional Heating ◽

Metallic Materials ◽

Microstructural Refinement ◽

Near Surface ◽

Friction Stir ◽

Cu Alloy ◽

Die Cast

Friction stir processing (FSP) combines frictional heating and severe plastic deformation to produce microstructural modification, either locally targeted at the near-surface regions or through the bulk, of metallic components fabricated by conventional processing routes. In this paper, we highlight the capabilities of this process by applying it to a high-pressure die cast Al-Si-Mg-(Cu) alloy and examining the resulting microstructure and mechanical properties.

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Fabrication of Semisolid Billets of Hypereutectic Al-Si Alloy by Severe Plastic Deformation and Remelting

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.472-475.323 ◽

2012 ◽

Vol 472-475 ◽

pp. 323-327 ◽

Cited By ~ 1

Author(s):

Hai Xia Shi ◽

De Hong Lu ◽

Hui Gong ◽

Rong Zhou

Keyword(s):

Plastic Deformation ◽

Severe Plastic Deformation ◽

Friction Stir Processing ◽

Primary Silicon ◽

Second Phase ◽

Rich Phase ◽

Friction Stir ◽

Second Phase Particles ◽

Mean Size ◽

Silicon Particles

This paper preliminarily explored and proved the feasibility of fabricating semisolid thixoforming billets for a hypereutectic Al-Si alloy (AlSi29Fe3) by severe plastic deformation (SPD) and semisolid remelting. In this paper, friction stir processing (FSP) was used to refine the coarse primary silicon particles and needle-shaped iron-rich phase of the hypereutectic Al-Si alloy. The results show that the semisolid thixoforming billets obtained by the above route contain fine spherical Al grains with mean size of 34m, and second-phase particles (both primary silicon and iron-rich intermetallic) of less than 10m. The microstructure is ideal non-dendritic semisolid structure. Therefore, SPD and remelting is a promising technology for the fabrication of semisolid thixoforming billets of the hypereutectic Al-Si alloy.

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Ni-Cr-Al Coating Layer Modified by Friction Stir Processing - Analysis of Microstructure and Element Diffusion

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1095.616 ◽

2015 ◽

Vol 1095 ◽

pp. 616-619 ◽

Cited By ~ 1

Author(s):

Li Kui Zhu ◽

Xiao Ping Zhou ◽

Ying Ze Fang ◽

Feng Xu

Keyword(s):

Crystal Structure ◽

Mechanical Properties ◽

Plastic Deformation ◽

Dynamic Recrystallization ◽

Friction Stir Processing ◽

Coating Layer ◽

Composite Layer ◽

Uniform Density ◽

Friction Stir ◽

Al Coating

Flame thermal spray Ni-Cr-Al coating layer on Q235 steel modified by friction stir processing(FSP) was studied. FSP function area formed a uniform density composite layer, of which internal coating layer formed superfine crystal structure and crystal structure of substrate changed, improved the mechanical properties. The plastic deformation generated by friction stir processing directly influenced the microstructure and mechanical properties. Dynamic recrystallization occurred within a certain range of plastic deformation, temperature and plastic deformation interlocking effect provided advantageous channel to fast element interdiffusion.

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SURFACE ENHANCEMENT AND IMPROVED MECHANICAL PROPERTIES OF SA-210 GR. A1 BOILER STEEL BY FRICTION STIR PROCESSING

i-manager s Journal on Material Science ◽

10.26634/jms.7.2.15941 ◽

2019 ◽

Vol 7 (2) ◽

pp. 49

Author(s):

SINGH SUPREET ◽

KAUR MANPREET ◽

KUMAR MANOJ ◽

SINGH HARPRABHJOT ◽

SINGH NAVNEETINDER ◽

...

Keyword(s):

Mechanical Properties ◽

Friction Stir Processing ◽

Boiler Steel ◽

Surface Enhancement ◽

Friction Stir

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Severe plastic deformation of Al-1%Cu Alloy processed by a Simple Cyclic Extrusion Compression technique

International Journal of Computational Physics Series ◽

10.29167/a1i1p77-90 ◽

2018 ◽

Vol 1 (1) ◽

pp. 77-90

Author(s):

Walaa Abdelaziem ◽

Atef Hamada ◽

Mohsen A. Hassan

Keyword(s):

Mechanical Properties ◽

Plastic Deformation ◽

Severe Plastic Deformation ◽

Deformation Behavior ◽

Cast Alloy ◽

Surface Hardness ◽

Grain Structure ◽

Compression Technique ◽

Cu Alloy ◽

Cyclic Extrusion Compression

Severe plastic deformation is an effective method for improving the mechanical properties of metallic alloys through promoting the grain structure. In the present work, simple cyclic extrusion compression technique (SCEC) has been developed for producing a fine structure of cast Al-1 wt. % Cu alloy and consequently enhancing the mechanical properties of the studied alloy. It was found that the grain structure was significantly reduced from 1500 µm to 100 µm after two passes of cyclic extrusion. The ultimate tensile strength and elongation to failure of the as-cast alloy were 110 MPa and 12 %, respectively. However, the corresponding mechanical properties of the two pass CEC deformed alloy are 275 MPa and 35%, respectively. These findings ensure that a significant improvement in the grain structure has been achieved. Also, cyclic extrusion deformation increased the surface hardness of the alloy by 49 % after two passes. FE-simulation model was adopted to simulate the deformation behavior of the material during the cyclic extrusion process using DEFORMTM-3D Ver11.0. The FE-results revealed that SCEC technique was able to impose severe plastic strains with the number of passes. The model was able to predict the damage, punch load, back pressure, and deformation behavior.

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