Wettability and interaction mechanism for Ni-modified ZTA particles reinforced iron matrix composites

The wetting behaviors of bare and Ni-modified zirconia toughened alumina (ZTA) with molten iron matrix have been explored by sessile drop technique and gathered to compare their wettability. Experimental results show that the wetting angles of molten 65Mn steel and high chromium cast iron (HCCI) mat...

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Bibliographic Details
Published in:Journal of alloys and compounds 2019-05, Vol.786, p.321-329
Main Authors: Ru, Juanjian, He, Han, Jiang, Yehua, Zhou, Rong, Hua, Yixin
Format: Article
Language:English
Subjects:
Aluminum oxide
Bonding strength
Cast iron
Chemical reactions
Diffusion layers
Electroless plating
High carbon steels
Infiltration
Interdiffusion
Interface layer
Interfacial bonding
Metal matrix composites
Nickel coatings
Organic chemistry
Particle reinforced iron matrix composite
Particulate composites
Spring steels
Substrates
Surface metallization
Wettability
Wetting
Zirconia toughened alumina
Zirconium dioxide
ZTA
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Summary:The wetting behaviors of bare and Ni-modified zirconia toughened alumina (ZTA) with molten iron matrix have been explored by sessile drop technique and gathered to compare their wettability. Experimental results show that the wetting angles of molten 65Mn steel and high chromium cast iron (HCCI) matrix on bare ZTA substrates are 104.1° and 102.3°, respectively, whereas it is decreased to 83.6° and 88.2° on Ni-modified ZTA substrates. The wetting angle of HCCI matrix on Ni plate is just 1.5° in 1 min. At high casting temperature, element Ni originated from Ni coating can diffuse into molten Fe and keep constant basically. Small amount of element Ni can react with Al2O3 on ZTA/Fe interface to form Al2NiO4. A schematic illustration of the cast-infiltration process is put forward, which indicates that Ni-modified ZTA can be wetted with molten iron through Ni diffusion and reactive wetting. A ZTA/Al2NiO4/Fe interface layer is formed by mechanical bonding, interdiffusion and small amount of chemical reactions, to achieve composites with tight interfacial bonding strength. Besides, Ni-modified ZTA particles are prepared through electroless plating assisted with Ethaline additive and used as precursor to reinforce 65Mn steel matrix composite by nonpressure casting infiltration method. [Display omitted] •Wetting behaviors of Ni-modified ZTA and iron matrix are explored.•Wetting angles of 65Mn and HCCI matrix on ZTA@Ni are 83.6° and 88.2°, respectively.•An interface layer ZTA/Al2NiO4/Fe is formed by Ni diffusion and reactive wetting.•Interaction mechanism of Ni-modified ZTA and molten iron is proposed. .►Ni-modified ZTA particles reinforced 65 Mn steel matrix composite is fabricated.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.01.342