Influences of parameters on microstructures and mechanical properties of Cr13Ni5Si2 based composite coating by laser-induction hybrid cladding

Wang, DengZhi; Hu, Qianwu; Zeng, Xiaoyan

doi:10.1016/j.surfcoat.2015.09.029

Cited by 11 publications

(2 citation statements)

References 24 publications

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“…In this context, tungsten-based alloy bulk materials were prepared by laser sintering, which provided theoretical and experimental support for 3D printing technology of tungsten products. The so-called laser sintering is the use of ultra-high energy density laser beam (10 4 -10 5 W/cm 2 ) as a heat source to irradiate the material surface, so that the material melts, diffuses and solidifies rapidly, thus forming a material with special properties [11][12][13][14][15]. Compared with vertical melting sintering, laser technology has the following advantages: Short cycle, pollution-free, and can prepare complex products.…”

Section: Introductionmentioning

confidence: 99%

Microstructure and Properties of Tungsten Rhenium Alloy Prepared by Laser Sintering

Jiang¹

2020

Int J Metall Met Phys

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Section: Introductionmentioning

confidence: 99%

Microstructure and Properties of Tungsten Rhenium Alloy Prepared by Laser Sintering

Jiang¹

2020

Int J Metall Met Phys

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“…Fang prepared short cylinder-like Cr 13 Ni 5 Si 2 alloy ingot by a copper mold laser melting furnace [ 11 ]. Wang deposited Cr 13 Ni 5 Si 2 metal silicide-based composite coatings on tool steel 9Cr2 substrate by LIHC and analyzed the influences of parameters on microstructures and mechanical properties [ 12 ]. The excellent high temperature property makes the Cr 13 Ni 5 Si 2 -based metal silicide an ideal hard coating material on copper for applications in elevated temperatures.…”

Section: Introductionmentioning

confidence: 99%

Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding

Wang

Zhu

2017

Materials

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A Cr13Ni5Si2-based composite coating was successfully deposited on copper by pulse laser induction hybrid cladding (PLIC), and its high-temperature wear behavior was investigated. Temperature evolutions associated with crack behaviors in PLIC were analyzed and compared with pulse laser cladding (PLC) using the finite element method. The microstructure and present phases were analyzed using scanning electron microscopy and X-ray diffraction. Compared with continuous laser induction cladding, the higher peak power offered by PLIC ensures metallurgical bonding between highly reflective copper substrate and coating. Compared with a wear test at room temperature, at 500 °C the wear volume of the Cr13Ni5Si2-based composite coating increased by 21%, and increased by 225% for a NiCr/Cr3C2 coating deposited by plasma spray. This novel technology has good prospects for application with respect to the extended service life of copper mold plates for slab continuous casting.

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Study of the effect of heat treatment on the structure and properties of the specimens obtained by the method of direct metal deposition

Горунов

Gil'mutdinov

2016

Int J Adv Manuf Technol

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Influences of parameters on microstructures and mechanical properties of Cr13Ni5Si2 based composite coating by laser-induction hybrid cladding

Cited by 11 publications

References 24 publications

Microstructure and Properties of Tungsten Rhenium Alloy Prepared by Laser Sintering

Microstructure and Properties of Tungsten Rhenium Alloy Prepared by Laser Sintering

Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding

Study of the effect of heat treatment on the structure and properties of the specimens obtained by the method of direct metal deposition

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