Ut P5 (Product Tech.)
Transcript of Ut P5 (Product Tech.)
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UT Product TechnologyUT Product Technology
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Product TechnologySteel Production
Wrought Production
Extrusion
Forging
Rolling
Casting Welding
Defects Inherent
Processing
Service
Heat Treatment
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2 Stage Process• Iron ore is reduced into pig iron assisted
by other materials.• Carbon content of Pig Iron is lowered by
reacting with oxygen• The molten metal is then cast into Ingots
or continuously cast• Ingots are rolled into Blooms, Billets or
Slabs
Steel Production
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1st Stage • Iron ore is reduced into pig iron assisted by
other materials.
• Raw materials Hematite (Fe2O3)orMagnetite(Fe3O4) +CokeLimestone Air
Steel Production
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1st Stage
Blast furnace reactions
Steel Production
• Fe2O3 + 3CO = 2Fe + 3CO2
• Fe2O3 + 3C = 2Fe + 3CO
• SiO2 + 2Cao = 2CaOSiO2
Lime from limestone combines with impurities (mainly silica) in the ore to form fluid slag
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Blast Furnace
Charge• Ore 4000• Limestone 800• Coke 1800• Air
8000
14600
Steel Production
Products• Pig Iron 2000• Slag 1600• Dust 200• Furnace gas
10800
14600
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Blast FurnaceSteel Production
Product of Blast Furnace - Pig iron (>3% carbon)
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Steel Production
• Pig iron converted to steel by blowing molten metal with oxygen or oxygen rich gases
• Oxygen reacts with excess carbon
• C + 2 O CO2
• C + O CO
• CO + O CO2
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Steel Production• Bessemer
• Open hearth process
• Basic oxygen process
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Steel Production• Basic oxygen process
Solid scrap
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Steel Production• Basic oxygen process
Molten Pig Iron
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Steel Production• Basic oxygen process
Oxygen lance
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Steel Production• Basic oxygen process
Steel
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Steel ProductionMolten steel poured into large molds (ingots)
Ingots are used for further processing
Hot top
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Steel Production
Molten steel poured into large molds (ingots)
Ingots are used for further processing
2 types of mould - Narrow end up, Wide end up
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Steel Production• Metal solidifies from outside inwards
3 types of crystal formed
• Chill or fine exui-axed• Columnar
• Large equi-axed
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Smelting Defects
• Pipes
• Shrinkage
Primary pipe/sink
Secondary pipe
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Smelting Defects
• Non-metallic inclusions
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Smelting Defects
• Segregation of metals
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Steel Production• Alternative to ingots is Continuous casting
Tundish
Mold forming slab
Water spray chamber
Rollers
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Steel Production
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Steel Production
Advantages of Continuous casting
• Faster : 300 tons of steel in 45 mins compared to 12 hours
• No piping problems
• Cheaper :No ingot molds, handling
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Product Technology
Casting
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Casting Process
• Liquid metal is caused to fill a cavity and solidify into a useful shape
• All materials used in metal manufacture cast at some time
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Casting Process
• Stage 1 : A pattern of the finished item slightly over sized
• Stage 2 : Mould constructed from the pattern
• Stage 3 : Liquid metal poured through the channels to fill the mould
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CastingRiserPouring
basin
Runner
Sprue
Core
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Casting
Chaplets Chills
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Casting• Casting involves the solidification from liquid to solid
• Solidification proceeds from outside to centre
• Solidification involves shrinkage
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Grain Growth
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Casting Methods• Sand casting
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Sand Casting
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Sand Casting
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Sand Casting
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Sand Casting
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Sand Casting
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Sand Casting
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Casting Methods
• Sand casting
• Die casting / Injection moulding
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Die Casting
Injection piston
Casting cavity
Die Fixed platenMoving platen
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Casting Methods
• Sand casting
• Die casting / Injection moulding
• Investment casting / Lost wax process
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Investment Casting
Wax Pattern
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Investment Casting
Coat with refractory slurry
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Investment Casting
Reinforce with plaster backing (Investment)
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Investment Casting
Oven dry to liquify or vaporise pattern and dry mould
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Investment Casting
Pour metal
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Investment Casting
Remove investment material
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Choice of Casting Method
Dimensional Accuracy• Investment casting• Die casting• Sand casting
Cost• Sand casting• Die casting• Investment casting
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Casting Defects
• Shrinkage cavities
• Sinks
Primary pipe/sink
Secondary pipe
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Casting DefectsBlowholes and porosityBlowholes and porosity
Cross-sectional changes /corners
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Casting Defects
• Inclusions
• Scabs
• Fins
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Casting DefectsShrinkageShrinkage
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Casting DefectsScabsScabs
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Casting DefectsScabs- Scabs- part of mould stuck to the castingpart of mould stuck to the casting
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Casting DefectsFinsFins
Gaps
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Casting DefectsFins- Fins- excess metal of castingexcess metal of casting
Fin
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Casting Defects
• Hot tears The larger section cools slower than the
smaller section
The grain are different between the sections
Hot Tears
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Hot Tears
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Chills are used for:
1. Directional grain growth
2. Uniform cooling rate
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Casting Defects
• Segregation
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Product Technology
Wrought Production Methods
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Wrought Production
• Forging
• Extrusion
• Rolling
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Wrought Production
Forging• Metal confined under
pressure to cause plastic flow
Extrusion• Metal forced through
a die under a large load
Rolling• Thickness reduction
through compression
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Rolling
Two-High Reversing Mill
Ingots, slabs and billets rolled to produce long length products with uniform cross section
PRIMARY ROLLING PROCESS / COGGING
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Rolling
Two-High Reversing Mill
PRIMARY ROLLING PROCESS
Secondary piping
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Rolling
Three-High Reversing Mill
SECONDARY ROLLING PROCESS
Lamination
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Rolling
Two-High Reversing Mill
PRIMARY ROLLING PROCESS
Non-metallic inclusion
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Rolling
Three-High Reversing Mill
SECONDARY ROLLING PROCESS
Stringers
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Rolling
Two-High Reversing Mill
PRIMARY ROLLING PROCESS
Segregation of metals
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Rolling
Three-High Reversing Mill
SECONDARY ROLLING PROCESS
Banding
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Cold Rolling• Initial rolling hot
• Finishing by cold working
Cluster mill 4 High mill
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Rolling
• Bloom - Square c/s 150x150mm minimum• Slab - Rectangular c/s area greater than 14400 mm2 • Billet - Square 50x50 up to 120 x 120mm
• Primary rolling- ingot to blooms and slabs• Secondary rolling - blooms and slabs to plates ,
sheets etc
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Forging
Hammer
Anvil
Blacksmith
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Forging
6 basic actions
• Upsetting
• Swaging
• Bending
• Welding
• Punching
• Cutting out
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Forging
Hammer
(Tup)
Anvil
Blacksmith / Open die forging
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Forging• Pressure forging
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Forging• Closed die
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Extrusion
• Direct
• Indirect
• Impact
• High loads used to shape ferrous and non-ferrous alloys
• Items produced are of uniform cross section
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Direct Extrusion
Billet Ram
Die
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Indirect Extrusion
Die
Extruded item
Billet
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Impact Extrusion
Die
Blank
Punch
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Extrusion Defects
• Oxide films (‘Extrusion’ defect)
• Surface cracks
• Grain structure variation
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Impact Extrusion
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Wrought Production Defects
• Cracks
• Laps
• Seams
• Stringers
• Slugs
• Bursts
• Laminations
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Wrought Production Defects• Banding• Excessive flash• Lack of fill• Mismatch• Internal cracking• Mechanical marks
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Other Wrought Processes
Drawing
• Material is reduced or changed in profile by pulling through a die
Die
Wire or rod Force
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Other Wrought Processes
Drawing
• Material is reduced or changed in profile by pulling through a die
Die
Tube ForceMandrel
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Product Technology
Welding
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A Weld : Definitions• A union between
pieces of metal at faces rendered plastic or liquid by heat,pressure or both.
BS 499
• A continuous defect surrounded by parent material
NASA
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Welds• An ideal weld must give a strong bond between
materials with the interfaces disappearing
To achieve this
• Smooth,flat or matching surfaces
• Surfaces shall be free from contaminants
• Metals shall be free from impurities
• Metals shall have identical crystalline structures
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Welding• A union between pieces of metal at faces rendered
plastic or liquid by heat,pressure or both.
BS 499
• Ultrasonics• Electron beam• Friction• Electric resistance• Electric arc
Possible energy sources
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Electric Arc Welding
Power supply
Work piece
Electrode
Clamp(Earth)
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Electric Arc Welding• Electric discharge produced between cathode and
anode by a potential difference (40 to 60 volts)
• Discharge ionises air and produces -ve electrons and +ve ions
• Electrons impact upon anode, ions upon cathode
• Impact of particles converts kinetic energy to heat (7000o C) and light
• Amperage controls number of ions and electrons, Voltage controls their velocity
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Electric Arc WeldingArc Welding Processes• Manual metal arc• Tungsten Inert Gas• Metal Inert Gas• Submerged Arc
Differences between them• Methods of shielding the arc• Consumable or Non-consumable electrode• Degree of automation
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Zones in Fusion Welds
• Fusion Zone
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Zones in Fusion Welds
• Fusion Zone
• Heat Affected Zone
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Zones in Fusion Welds
• Fusion Zone
• Heat Affected Zone
• Parent Material or Base Metal
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Joint Design
Butt Weld
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Joint Design
Butt Weld
Lap Joint
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Joint Design
Butt Weld
Corner Joint
Lap Joint
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Joint Design
Butt Weld
Corner Joint
Lap Joint
Edge Weld
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Joint Design
Butt Weld
Corner Joint
Lap Joint
T JointEdge Weld
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Manual Metal Arc (MMA)Consumable electrode
Flux coating
Core wire
Arc
Evolved gas shield
Parent metal
Slag
Weld metal
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Manual Metal Arc Welding
• Shielding provided by decomposition of flux covering
• Electrode consumable• Manual process
Welder controls• Arc length• Angle of electrode• Speed of travel• Amperage settings
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Tungsten Inert Gas (TIG)
Non-consumable tungsten electrode
Arc
Parent metal
Weld metal
Gas shield
Filler wire
Gas nozzle
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Metal Inert Gas (MIG)
Consumable electrode(filler wire)
Arc
Parent metal
Weld metal
Gas shield
Gas nozzle Reel feed
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Submerged Arc
Consumable electrode
Reel feed
Flux feed
Flux retrieval
Parent metal
Weld metal
Slag
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Electroslag
Filler wire
Molten flux
Weld metal
Water cooled copper shoes
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Welding Defects
4 Crack Types
• Solidification cracks
• Hydrogen induced cracks
• Lamellar tearing
• Reheat cracks
CracksCracks
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Welding Defects
Classified by Shape
• Longitudinal
• Transverse
• Branched
• Chevron
CracksCracksClassified by Position
• HAZ
• Centreline
• Crater
• Fusion zone
• Parent metal
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Welding Defects
Solidification
• Occurs during weld solidification process
• Steels with high sulphur content (low ductility at elevated temperature)
• Requires high tensile stress
• Occur longitudinally down centre of weld
• eg Crater cracking
CracksCracks
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Welding Defects
Hydrogen Induced• Requires susceptible grain structure, stress and
hydrogen • Hydrogen enters via welding arc• Hydrogen source - atmosphere or contamination of
preparation or electrode• Moisture diffuses out into parent metal on cooling• Most likely in HAZ
CracksCracks
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Welding Defects
Lamellar Tearing• Step like appearance • Occurs in parent material or HAZ• Only in rolled direction of the parent material• Associated with restrained joints subjected to
through thickness stresses on corners, tees and fillets
• Requires high sulphur or non-metallic inclusions
CracksCracks
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Welding Defects
Re-Heat Cracking• Occurs mainly in HAZ of low alloy steels during
post weld heat treatment or service at elevated temperatures
• Occurs in areas of high stress and existing defects• Prevented by toe grinding, elimination of poor
profile material selection and controlled post weld heat treatment
CracksCracks
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Welding Defects• Incomplete root penetration
Causes• Too large or small a root gap• Arc too long• Wrong polarity• Electrode too large for joint preparation• Incorrect electrode angle• Too fast a speed of travel for current
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Welding Defects• Root concavity
Causes• Root gap too large• Insufficient arc energy• Excessive back purge (TIG)
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Welding Defects
• Lack of fusion
Causes• Contaminated weld preparation• Amperage too low• Amperage too high (welder increases speed of travel)
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Welding Defects• Undercut
Causes• Excessive welding current• Welding speed too high• Incorrect electrode angle• Excessive weave• Electrode too large
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Welding Defects
• Incompletely Filled Groove
Causes• Insufficient weld metal deposited• Improper welding technique
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Welding Defects• Gas pores / Porosity
Causes• Excessive moisture in flux or preparation• Contaminated preparation• Low welding current• Arc length too long • Damaged electrode flux• Removal of gas shield
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Welding Defects• Inclusions - Slag
Causes• Insufficient cleaning between passes• Contaminated weld preparation• Welding over irregular profile• Incorrect welding speed• Arc length too long
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Welding Defects• Inclusions - Tungsten
Causes• Contamination of weld during TIG welding
process
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Welding Defects• Burn Through
Causes• Excessive amperage during welding of root• Excessive root grinding• Improper welding technique
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Welding Defects• Arc Strikes
Causes• Electrode straying onto parent
metal• Electrode holder with poor
insulation• Poor contact of earth clamp
• Spatter
Causes• Excessive arc energy• Excessive arc length• Damp electrodes• Arc blow
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Steel MetallurgySteel- Iron and carbon alloyed with other elements
• Carbon- Strength, hardness, toughness, ductility• Manganese- Strength, hardenability• Silicon - Toughness• Molybdenum- Creep resistance, temper embrittlement• Chromium- Hardness, wear resistance, corrosion• Nickel - Ductility, strength, toughness
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Steel MetallurgySteel- Iron and carbon alloyed with other elements
BCC FCC
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Steel Metallurgy
Low Stress
Increased Stress
Elastic Deformation
Plastic Deformation
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Heat Treatment
• Softening• Hardening• Tempering• Stress Relief
• Post heat treatment performed to improve specific metallurgical or mechanical properties or stress relief
Controlled by• Heating rate• Temperature attained• Time at the elevated temperature• Cooling rate
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Heat Treatment900
850
800
750
700
Ar3
Ac1
Ac2
Ac3
Ar1
Ar2
1 2
Minutes to raise temperature by 10 C
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Iron Carbide Diagram
Ac3
Ac1
.2 .4 .6 .8 1 1.2 1.4 1.6 1.8 2
Carbon %
1000
900
800
700
600
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Iron Carbide Diagram
Ac3
Ac1
.2 .4 .6 .8 1 1.2 1.4 1.6 1.8 2
Carbon %
1000
900
800
700
600
Austenite
Ferrite and Pearlite Pearlite and Cementite
Austenite and Fe3 CAustenite and Ferrite
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Heat Treatment
Hardening• Produce hard but
brittle material• Heat to above
transformation range• Cool very quickly
( quench ) in oil, water or brine
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Heat Treatment Stress Relief• Relax stresses without significant changes in the metallurgical structure• Heat to 550-650 degrees C• Hold for 1 hour per 25mm thickness• Cool in air
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Heat Treatment Full Annealing• Produces very soft low
hardness material for machining or cold work
• Heat to above 910 degrees C
• Hold • Cool very slowly in
furnace• Once reached 680 C ,
cool in air
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Heat Treatment Sub Critical Annealing• Spheroidizing produces soft low hardness material cheaper than full anneal• Heat must not rise above 700 degrees C• Hold for recrystallisation to occur• Cool in air
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Heat Treatment Normalising• Maintains and improves mechanical properties and modifies grain structure• Heat to above 910 degrees C• Hold • Cool in air
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Nature and Origin of Defects
• Inherent
• Processing
• In Service
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Heat Induced Defects
• Heat treatment cracks
• Grinding cracks
• Friction induced cracks
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In Service Cracks
• Fatigue cracks
• Stress corrosion cracks
• Hydrogen induced cracks
Hydrogen
Cyclic stress
Fatique crack