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Up Topic Welding Industry / Metallurgy / Heat Treatment: Introduction
- - By ssbn727 (*****) Date 01-27-2010 23:03 Edited 05-03-2010 17:20
Heat Treatment: Introduction

Overview

In this module you will examine various examples of Heat Treatment methods and the reasons behind their use. Through a series of examples, you will understand the principles of heat treatment and how factors such as the temperature, time at temperature and cooling rate can affect the microstructure of steels and, therefore, their properties.
Introduction

Heat treatment of steels may be carried out for a number of reasons, for example:

    * Inter process thermal treatment to allow further processing, e.g. softening, H2 removal
    * To produce specific final properties in the bulk material
    * To produce specific surface properties in the final component, e.g. hardness

Different steel microstructures have very different typical mechanical properties, as illustrated below, therefore different types of heat treatment may be used depending on the grade of steel and its desired microstructure and properties. Heat treatments (i.e. defined heating and cooling regimes) are tailored to promote the formation of a specific microstructure, thereby developing the steel’s properties to meet application requirements.
Phase   HV   Tensile Strength (MPa)   A (%)   Room T Charpy (J)
Ferrite   130   300   50   >100
Pearlite   300   950   15   40
Bainite   400   1200   16   20
Martensite   500   1800   6   <10

The alloying content of a steel also affects its microstructure and properties, therefore in each case the specific heat treatment parameters will be dependent on many variables such as the composition, size, processing history of the steel (or steel component) being treated. Examples of heat treatments include:

    * Annealing (to soften/increase ductility) e.g. inter process
    * Normalizing (to soften, give uniform microstructure)
    * Quenching (Hardening) & Tempering (to increase strength, while maintaining toughness & ductility)
    * Stress-relieving (to remove residual stresses after a forming operation)
    * Surface treatments (to produce specific properties at the component’s surface)

The heat treatment of steels may involve several processing stages, e.g. austenitizing or hardening followed by tempering or surface treatments. Heat treatment processes may be carried out in various types of furnace, which differ in characteristics such as pressure, atmosphere, number of chambers, continuous or batch etc.

With modern applications becoming increasingly challenging, heat treatment, which can lead to improved mechanical properties or allow additional processing of steels, is an important part of the production process. This module will give you examples of different types of heat treatment and where they might be used. It will also introduce some of the many types of steel which rely on specific heat treatments to give them very specific microstructures and properties to meet the requirements of demanding applications.
Sections... Note: These supplementary sections are found in separate links within this main page link of this module. So if one wants access to them, then all one needs to do is to go to the Introduction page and click on the supplementary links there.

    * Austenitizing
    * Annealing
    * Quenching (Hardening) & Tempering
    * Surface Treatments
    * Furnaces
    * Applications

Learning Outcomes for this Section

After completing this section, you should be able to:

    * Explain how heat treatment can be used to improve the mechanical properties of steels
    * Describe the different types and benefits of surface treatments, including when they might be used
    * List the main features of several different heat-treated steels and their applications
    * Describe how different steel composition and heating/cooling rates may affect the transformations occurring during heat treatment
    * Describe the different types of furnace that are used for heat treatment of steels

See Also

    * Engineering Steels > Engineering Steels: Overview
    * Mechanical Properties > Mechanical Properties of Steels: Overview

http://www.steeluniversity.org/content/html/eng/default.asp?catid=216&pageid=2081272208

Links to the supplementary sections are here:

Austenitizing:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=217&pageid=2081272269

Annealing:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=213&pageid=2081272220

Quenching, Hardening and Tempering:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=212&pageid=2081272210

Surface Treatments:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=211&pageid=2081272228

Furnaces:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=214&pageid=2081272243

Applications:

http://www.steeluniversity.org/content/html/eng/default.asp?catid=215&pageid=2081272260

Once again, don't forget to click on the next button of each page in bothe the module as well as the supplementary pages also in order to view and digest the entire contents of this excellent educational/reference material... ENJOY!!! :) :) :)

Respectfully,
Henry
Parent - - By mohamed radwan (*) Date 03-15-2010 22:00
thank you for your post and i want to ask you if you can help me , i'm welding a material (A 106 gr B )
what is the difference between hot rolled pipes of this materials and normalized pipes , will it affect on choosing the right electrode for SMAW method
thank you
Parent - By Hare Nath Jha Date 08-19-2010 07:55
Yes it will
- - By esam (*) Date 05-02-2010 18:17
dear all,

it is highly appreciated if any one can provide tables for lower and upper transformation temp for the common c steel , cr-mo steels etc

thanks in advance
Parent - - By 3.2 Inspector (***) Date 05-03-2010 04:37
It is different depending on the particular alloy.

3.2
Parent - - By esam (*) Date 05-03-2010 11:24
if you have guides  for ypper critical transformation temp as per table 129.3.2 ASME B31.1 for lower critical transformation temp ,it would be very useful

thanks
Parent - By 3.2 Inspector (***) Date 05-03-2010 12:09
I don't have any info here....

3.2
Up Topic Welding Industry / Metallurgy / Heat Treatment: Introduction

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