Details

Title

Locally Reinforcement TiC-Fe Type Produced in Situ in Castings

Journal title

Archives of Foundry Engineering

Yearbook

2016

Issue

No 3

Authors

Keywords

MMCs ; Locally reinforcement ; TiC ; In situ ; Hardness ; Ball-on-disc

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2016

Type

Artykuły / Articles

Identifier

DOI: 10.1515/afe-2016-0054 ; eISSN 2299-2944

Source

Archives of Foundry Engineering; 2016; No 3

References

Myalski (2006), Glassy carbon particles as component to modification of tribological properties of Materials Processing Technology, Journal, 175. ; Dolata (2014), Centrifugal castings locally reinforced with porous preform of Metallurgy and Materials, Archives, 59, 345. ; Fraś (2010), Fabrication of in situ composites layer on cast steel of Foundry Engineering, Archives, 10, 175. ; Olejnik (2011), Composite layer fabricated by in situ technique in iron castings, Composites, 11, 120. ; Dolata (2005), FeAl composites with hybrid reinforcement of Materials Processing Technology, Journal, 162. ; Fraś (2010), The morphology of TiC carbides produced in surface layers of carbon steel castings of Foundry Engineering, Archives, 10, 39. ; Fraś (1999), Cu TiC Composites synthesis by RGI process of Metallurgy, Archives, 44, 253. ; Fengjum (2007), Microstructure of Fe - TiC surface composite produced by cast sintering Materials, Letters, 61. ; Merzhanov (1996), Combustion processes that synthesize materials of Materials Processing Technology, Journal, 56, 1. ; Olejnik (2013), Composite zones obtained by in situ synthesis in steel casting of Metallurgy and Materials, Archives, 58. ; Kopyciński (2013), Analysis of the structure and abrasive wear resistance of white cast iron with precipitates of carbides of Metallurgy and Materials, Archives, 58, 973. ; Fraś (2009), FGMs generated method SHSM of Foundry Engineering, Archives, 9, 123. ; Olejnik (2013), Composite zones produced in iron castings by in - situ synthesis of TiC carbides of Metallurgy and Materials, Archives, 58, 465. ; Lelito (2009), The grain nucleation rate of the AZ SiC composite based on Maxwell - Hellawell Model of Metallurgy and Materials, Archives, 54, 291. ; Janas (2009), On the character of matrix reinforcing particle phase boundaries in MeC and MeB Ta in stu composite of Metallurgy and Materials, Archives, 54, 319. ; Park (2000), In situ formation of TiC particulate composite layer on cast iron by laser alloying of thermal sprayed titanium coating of Materials Science, Journal, 35, 747.
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