Peculiarities of anodic dissolution activation at laser-electrochemical treatment of KNT-16 no-tungsten hard alloy in 10 % water solution of sodium nitrate

Gaar, Nadezhda; Рахимянов, Харис; Rakhimyanov, Kharis; Loktionov, Alexander

doi:10.12737/22578

Science Intensive Technologies in Mechanical Engineering

2016

DOI: 10.12737/22578

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Peculiarities of anodic dissolution activation at laser-electrochemical treatment of KNT-16 no-tungsten hard alloy in 10 % water solution of sodium nitrate

Nadezhda Gaar¹,

Харис Рахимянов²,

Kharis Rakhimyanov

et al.

Abstract: The peculiarities of an electrochemical dilution of KNT-16 tungstenless hard alloy in the water solution of sodium nitrate without laser emission imposition and at the impact of laser emission with wave lengths of 1.06 mcm and 0.53 mcm have been considered. It is established that the imposition of laser emission of both wave lengths (1.09 mcm and 0.53 mcm) in the area of treatment with the use of the frequency of pulse sequence equal to 10 kHz allows increasing current density as compared with the dilution wit… Show more

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Laser electro-chemical treatment tungsten free hard alloy KNT16 in 10% aqueous solution of sodium chloride

Gaar¹

2018

Science Intensive Technologies in Mechanical Engineering

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The results on laser electro-chemical treatment of tungsten free hard alloy KNT16 in 16% aqueous solution of sodium chloride at the use of laser emission with the wave length 1.06 mkm at different values of the frequency of pulse sequence in the range of potentials from 0 to 5V are presented. The investigations were carried out with the use of polarization methods: a potentio-static method and potentio-dynamic one on the special developed plant in the electro-chemical cell with the platinum electrode of comparison. It is defined that the application of laser emission for process activation of the electro-chemical dissolution of tungsten free hard alloy in aqueous solution of sodium chloride results in current density increase up to 6 times. The impact of pulse sequence frequency upon electro-chemical alloy dissolution at the process activation with the length of 1.06 mkm is emphasized. The highest value of current density is achieved at the frequency of pulse sequence 2.5kHz.

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Laser electro-chemical treatment tungsten free hard alloy KNT16 in 10% aqueous solution of sodium chloride

Gaar¹

2018

Science Intensive Technologies in Mechanical Engineering

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Peculiarities of anodic dissolution activation at laser-electrochemical treatment of KNT-16 no-tungsten hard alloy in 10 % water solution of sodium nitrate

Cited by 1 publication

References 2 publications

Laser electro-chemical treatment tungsten free hard alloy KNT16 in 10% aqueous solution of sodium chloride

Laser electro-chemical treatment tungsten free hard alloy KNT16 in 10% aqueous solution of sodium chloride

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