New Technology of Hardening of Chromium-Nickel Steel Parts

V.I. Astashchenko; E.V. Purtova

doi:10.4028/www.scientific.net/SSP.284.1221

Paper Titles

Layered Ni-Cr-Al Coatings for Air Tuyeres Protection from the Burnout
p.1200

Method for Synthesis of Retro-Reflective Coatings with Specified Optical Properties
p.1205

Using the Simplex Design Technique for Optimization of Modes of Burnishing with Ball Tools
p.1210

Modeling of the Structure of Heat-Insulating Semi-Transparent Materials and Coatings for Industrial and Transport Power Plants
p.1215

New Technology of Hardening of Chromium-Nickel Steel Parts
p.1221

New Decisions in Manufacturing Techniques of the Cemented Parts of Cars
p.1226

Numerical Solution of the Differential Diffusion Equation for a Steel Carburizing Process
p.1230

Structure and Thermophysical Properties of Coatings Formed by the Method of Microarc Oxidation on an Aluminum Alloy AK4-1
p.1235

Investigation of Protective Coatings for Carbon Fibers by the Sol-Gel Method
p.1242

HomeSolid State PhenomenaSolid State Phenomena Vol. 284New Technology of Hardening of Chromium-Nickel...

New Technology of Hardening of Chromium-Nickel Steel Parts

Abstract:

The structure and properties of the cemented products from steel 20H2N4A strengthened according to different schemes of chemical heat treatment is investigated. The reason of low static and cyclic firmness of parts is established. The new technology of hardening of parts which is based on application of low-temperature cementation is developed and offered. For a steel saturation process of intensification with carbon it is recommended to increase the content of hydrogen to 40% in the endoatmosphere and to enter a small amount of ammonia into the saturating atmosphere of the furnace.

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Periodical:

Solid State Phenomena (Volume 284)

Pages:

1221-1225

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.284.1221

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Online since:

October 2018

Authors:

V.I. Astashchenko*, E.V. Purtova

Keywords:

Cementation, Durability, Endoatmosphere, Hardness, Microstructure, Steel

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