Paste bonding process: Evaluation of boron mobility on borided steels

I. Campos; G. Ramírez; U. Figueroa; C. Villa Velázquez

doi:10.1179/174329407X174416

Paste bonding process: Evaluation of boron mobility on borided steels

I. Campos, G. Ramírez, U. Figueroa, C. Villa Velázquez

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

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32 Scopus citations

Abstract

The present study evaluates the boron mobility at the material surface of borided steels AISI 1045 and M2 during the paste boriding process. This surface hardening technique produces two characteristic phases on the material, FeB, Fe₂B and a transition zone, denominated diffusion zone, in the layer/substrate interface. The thermochemical treatment was performed at three different temperatures: 1193, 1223, 1273 K and two treatment times: 2 and 6 h for the 1045 steel, and 1223, 1253 and 1273 K with the same treatment times for M2 steel, modifying the boron potentials in equilibrium at the substrates surfaces. By using the mass balance equation, and assuming a linear concentration profile at the Interfaces, the new model determined the diffusion coefficients of boron in the phases formed at the surface of the substrates, included the diffusion zone for both steels.

Original language	English
Pages (from-to)	216-222
Number of pages	7
Journal	Surface Engineering
Volume	23
Issue number	3
DOIs	https://doi.org/10.1179/174329407X174416
State	Published - May 2007

Keywords

Borided steels
Borides layers
Boron diffusion
Growth kinetics
Paste boriding

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title = "Paste bonding process: Evaluation of boron mobility on borided steels",

abstract = "The present study evaluates the boron mobility at the material surface of borided steels AISI 1045 and M2 during the paste boriding process. This surface hardening technique produces two characteristic phases on the material, FeB, Fe2B and a transition zone, denominated diffusion zone, in the layer/substrate interface. The thermochemical treatment was performed at three different temperatures: 1193, 1223, 1273 K and two treatment times: 2 and 6 h for the 1045 steel, and 1223, 1253 and 1273 K with the same treatment times for M2 steel, modifying the boron potentials in equilibrium at the substrates surfaces. By using the mass balance equation, and assuming a linear concentration profile at the Interfaces, the new model determined the diffusion coefficients of boron in the phases formed at the surface of the substrates, included the diffusion zone for both steels.",

keywords = "Borided steels, Borides layers, Boron diffusion, Growth kinetics, Paste boriding",

author = "I. Campos and G. Ram{\'i}rez and U. Figueroa and Vel{\'a}zquez, {C. Villa}",

year = "2007",

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T2 - Evaluation of boron mobility on borided steels

AU - Campos, I.

AU - Ramírez, G.

AU - Figueroa, U.

AU - Velázquez, C. Villa

PY - 2007/5

Y1 - 2007/5

N2 - The present study evaluates the boron mobility at the material surface of borided steels AISI 1045 and M2 during the paste boriding process. This surface hardening technique produces two characteristic phases on the material, FeB, Fe2B and a transition zone, denominated diffusion zone, in the layer/substrate interface. The thermochemical treatment was performed at three different temperatures: 1193, 1223, 1273 K and two treatment times: 2 and 6 h for the 1045 steel, and 1223, 1253 and 1273 K with the same treatment times for M2 steel, modifying the boron potentials in equilibrium at the substrates surfaces. By using the mass balance equation, and assuming a linear concentration profile at the Interfaces, the new model determined the diffusion coefficients of boron in the phases formed at the surface of the substrates, included the diffusion zone for both steels.

AB - The present study evaluates the boron mobility at the material surface of borided steels AISI 1045 and M2 during the paste boriding process. This surface hardening technique produces two characteristic phases on the material, FeB, Fe2B and a transition zone, denominated diffusion zone, in the layer/substrate interface. The thermochemical treatment was performed at three different temperatures: 1193, 1223, 1273 K and two treatment times: 2 and 6 h for the 1045 steel, and 1223, 1253 and 1273 K with the same treatment times for M2 steel, modifying the boron potentials in equilibrium at the substrates surfaces. By using the mass balance equation, and assuming a linear concentration profile at the Interfaces, the new model determined the diffusion coefficients of boron in the phases formed at the surface of the substrates, included the diffusion zone for both steels.

KW - Borided steels

KW - Borides layers

KW - Boron diffusion

KW - Growth kinetics

KW - Paste boriding

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DO - 10.1179/174329407X174416

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VL - 23

SP - 216

EP - 222

JO - Surface Engineering

JF - Surface Engineering

IS - 3

ER -

Paste bonding process: Evaluation of boron mobility on borided steels

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Keywords

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