Module 2 - Heat treatment & metals

Question 1

Why do we heat treat ferrous metals

Answer 1

Generally alters the properties of Metals

-For stress relief
-Achieve final strength and harness
-To release the effects of strain hardening and to -prepare the material for further deformation

Question 2

Describe the process of Annealing, and what is does to the material

Answer 2

Heating to red heat then cooled slowly in furnace.

Relieves any stress from distorted grains. Large uniform grains.
Not really wanted due to poor toughness.
Increases ductility
Lowers strength + hardness

Question 3

Describe the process of Normalizing, and what is does to the material

Answer 3

Heating the steel to above the critical temperature range, holding it long enough to transform the grain structure, then air cooling it.

Normalizing produces a more uniform grain size leading to improved hardness, strength and Ductility.

Question 4

Describe the process of Hardening, and what is does to the material

Answer 4

Heating the steel to temperature above the critical point, holding it at this temperature, then quenching it in water oil.

Hardening increases the hardness (go figure, like obviously am i right?!) and improves wear resistance but makes it more brittle.

Question 5

Describe the process of Tempering, and what is does to the material

Answer 5

Heating already hardened steel to a temperature below the critical point, holding it for some time, then cooling it in air.

Tempering is done to remove brittleness that’s induced through hardening, to achieve a good combo of hardness and toughness.

Question 6

What an example of when something may be annealed?

(note 1 material may undergo many heat treatment)

Answer 6

Tools made from high carbon steel; like knives screwdrivers and hammers.

Metal Construction materials - like beams and plates

Cables and wires - annealed to improved ductility in copper cables.

Question 7

What an example of when something may be normalizing?

(note 1 material may undergo many heat treatment)

Answer 7

Automotive parts - like crankshafts, pistons & axles.

Railway components

machinery parts like gears, spindles and springs.

Question 8

What an example of when something may be Hardened?

(note 1 material may undergo many heat treatment)

Answer 8

Fasteners - bolts, nuts & screws

Cutting tools - screw bits, scissors and knives.

Moving parts - bearings & gears

Question 9

What an example of when something may be Tempering ?

(note 1 material may undergo many heat treatment)

Answer 9

Fasteners - bolts, nuts & screws

Automotive parts - transmission parts, crankshafts, and engine blocks

Hand Tools: Hammers, chisels, and screwdrivers

Question 10

What is surface hardening?

Answer 10

Surface hardening is the process or hardening a metals surface t make it resistant to abrasion and wear.

Question 11

What are surface hardening methods?

Answer 11

Carburising
Nitriding
Flame Hardening
Induction Hardening

Question 12

how does grain size effect a metals properties?

Answer 12

Generally, smaller grains lead to higher strength and hardness but may reduce ductility. Larger grains can enhance ductility but may compromise strength.

Question 13

What is surface hardening?

Answer 13

Surface hardening is the process or hardening a metals surface t make it resistant to abbrasion and wear.

Question 14

What are surface hardening methods?

Answer 14

Carburising
Nitriding
Flame Hardening
Induction Hardening

Question 15

What factors influence the grain structure of a material?

Answer 15

Factors influencing grain structure include the cooling rate during solidification, alloy composition, heat treatment processes, and mechanical deformation.

Question 16

Why is there different grain sizes?

Answer 16

The different sizes of the grain structure due to the amount heat treatment that is done.

Question 17

define pearlite

Answer 17

Pearlite is a microstructure found in some steels and cast irons. It’s composed of alternating layers of ferrite (a solid solution of carbon in iron) and cementite (iron carbide, Fe3C).

Question 18

How is this picture showing us the way the grain structures changes?

Answer 18

It shows us one of the way the grain change during hot rolling.

Question 19

what does normalizing do the grain structure of a material

Answer 19

Normalizing refines and homogenizes (make more uniform) the grain structure of ferrous materials.

Question 20

what does hardening do the grain structure of a material

Answer 20

alters the grain structure by transforming softer phases (like austenite) into harder phases (like martensite).

Question 21

What does annealing do to the grain structure of metals?

Answer 21

refines the grain structure of metals by promoting recrystallization, which replaces deformed grains with a more uniform and isotropic grain structure

Question 22

What does tempering do to the grain structure of metals?

Answer 22

Tempering doesn’t really change the grain structure instead it alters the size and distribution of carbides in the martensite, forming a microstructure called “tempered martensite”.