B. B. Jha scite author profile

This article describes the influence of controlling in-flight hot particle characteristics on properties of plasma sprayed nanostructured yttria stabilized zirconia (YSZ) coatings. This article depicts dependence of adhesion strength of as-sprayed nanostructured YSZ coatings on particle temperature, velocity and size of the splat prior to impact on the metallic substrate. Particle temperature measurement is based on two-color pyrometry and particle velocities are measured from the length of the particle traces during known exposure times. The microstructure and adhesion strength of as-sprayed nano-YSZ coatings were studied. Field emission scanning electron microscopy results revealed that morphology of coating exhibits bimodal microstructure consisting of nano-zones reinforced in the matrix of fully melted particles. The coating adhesion strength is noticed to be greatly affected by the melting state of agglomerates. Maximum adhesion strength of 42.39 MPa has been experimentally found out by selecting optimum levels of particle temperature and velocity. The enhanced bond strength of nano-YSZ coating may be attributed to higher interfacial toughness due to cracks being interrupted by adherent nano-zones.

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Influence of reinforcement and processing on steel-based composites: Microstructure and mechanical response

Sahoo

Jha

Sahoo

et al. 2017

Materials and Manufacturing Processes

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Influences of micro-blasting as surface treatment technique on properties and performance of AlTiN coated tools

Jacob

Gangopadhyay

Satapathy

et al. 2017

Journal of Manufacturing Processes

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Impression creep behaviour of TiB₂ particles reinforced steel matrix composites

Sahoo

Jha

Mahata

et al. 2018

Materials Science and Technology

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Impression creep behaviour of the powder metallurgy processed steel matrix composites was investigated under constant stress at different temperatures in the range of 873–973 K. By using the power-law relationship, the estimated activation energy for unreinforced steel was found to be 149 kJ mol−1 and steel reinforced with 2 and 4 vol.-% TiB2 was found to be 298 and 338 kJ mol−1, respectively indicating better creep resistance of the reinforced steel matrix composites. Dislocation creep is the dominant creep mechanism based on the calculated values of stress exponent and activation energy. Hence, this method can be used to assess the potential of steel matrix composites for use as structural materials for high-temperature application.

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B. B. Jha

Synthesis and characterization of Al2O3–TiC nano-composite by spark plasma sintering

Influence of in-flight particle state diagnostics on properties of plasma sprayed YSZ-CeO₂nanocomposite coatings

Influence of reinforcement and processing on steel-based composites: Microstructure and mechanical response

Influences of micro-blasting as surface treatment technique on properties and performance of AlTiN coated tools

Impression creep behaviour of TiB₂ particles reinforced steel matrix composites

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B. B. Jha

Synthesis and characterization of Al2O3–TiC nano-composite by spark plasma sintering

Influence of in-flight particle state diagnostics on properties of plasma sprayed YSZ-CeO2nanocomposite coatings

Influence of reinforcement and processing on steel-based composites: Microstructure and mechanical response

Influences of micro-blasting as surface treatment technique on properties and performance of AlTiN coated tools

Impression creep behaviour of TiB2 particles reinforced steel matrix composites

Contact Info

Product

Resources

About

Influence of in-flight particle state diagnostics on properties of plasma sprayed YSZ-CeO₂nanocomposite coatings

Impression creep behaviour of TiB₂ particles reinforced steel matrix composites