3944704
Description
Mind Map by Billie Juniper, updated more than 1 year ago
|
Created by Billie Juniper
about 9 years ago
|
|
Heat Treatment
of Carbon Steels
- Annealing
- Effects
- Ductility
- Soften
- Relieve internal stresses
- Refine the Structure by Making it Homogenous
- Improve Cold-Working Properties
- Ductility
- Process
- Heating Above
Re-Crystalisation Temperature
- Then Cooling
- Stages
- 1: Recovery Phase
- Removes crystal defects
- Softens
- Removes Internal Stresses
- Softens
- Removes crystal defects
- 2: Recrystallisation
- Strain-Free Grains Nucleate and Grow
- Replace Those Deformed by Internal Stresses
- Replace Those Deformed by Internal Stresses
- Strain-Free Grains Nucleate and Grow
- 3: Grain Growth
- Microstructure coarsens
- May Cause Less Than Satisfactory
Mechanical Properties
- May Cause Less Than Satisfactory
Mechanical Properties
- Microstructure coarsens
- 1: Recovery Phase
- Heating Above
Re-Crystalisation Temperature
- Prepared for...
- Shaping
- Stamping
- Forming
- Shaping
- Effects
- Normalising
- Effects
- Refine Grain Structure
- When Steel is Heated to a High Temperature
Carbon can Diffuse Throughout
- More Uniform Composition
- More Uniform Composition
- Improve Machinability
- Will Then Respond to Heat
Treatment in a More Uniform Way
- Improve Ductility
- Relieve Stresses
- Improve Toughness
- Small Grains Formed
- Harder
- Tougher
- Normal Tensile Strength
- Not the Maximum Ductility
Achieved by Annealing
- Harder
- Refine Grain Structure
- Process
- Annealing Process
- Cooled in Still Air in a Furnace
- Heating Steel to Above its Critical Limit
- Soaked For Short Period
- Annealing Process
- Prepared For...
- Machinability
- Provides Dimensional Stability if
Subjected to Further Heat Treatments
- Machinability
- Effects
- Hardening
- Effects
- Austenite to Pearlite CANNOT Occur
- Martensite Occurs
- Body Centred Tetragonal Lattice (BCT instead of BCC)
- Looks Needle-like Under Microscope
- Body Centred Tetragonal Lattice (BCT instead of BCC)
- Very Hard
- Brittle
- Austenite to Pearlite CANNOT Occur
- Process
- Cooling Steel Rapidly by Quenching
- Water of Brine
- Most Rapid Cooling
- Most Rapid Cooling
- Oil
- Some Alloy Steels
- Some Alloy Steels
- Air
- For Certain High Alloy Steels
- For Certain High Alloy Steels
- Water of Brine
- Cooling Steel Rapidly by Quenching
- Uses
- Surface Hardening
- Reason
- Creates a Hardened Surface to Resist Wear and Tear
- Shear Strength
- Resist Wear and Tear
- Resist Wear and Tear
- Shear Strength
- While Maintaining a Soft and Tough Interior or Core
- Absorbs Shock
- Absorbs Shock
- Creates a Hardened Surface to Resist Wear and Tear
- Uses
- Gears
- Ball Bearings
- Train Wheels
- Gears
- Reason
- Surface Hardening
- Effects
- Tempering
- Effects
- Transformation of Martensite
into less brittle structures
- Increase in Toughness
- Decrease in Hardness
- Relieve Stresses
- Reduce Brittleness
- Transformation of Martensite
into less brittle structures
- Process
- Reheating
- Reheating
- Results
- Transforms Martensite Into More Stable Pearlite
- Transforms Martensite Into More Stable Pearlite
- Effects
Want to create your own Mind Maps for free with GoConqr? Learn more.