Diamond Indenter
Process: minor load applied, major load applied, major load removed
Minor Loads - Superficial: 3 kg , Regular: 10 kg
Major Loads - Superficial: 15, 30, 45 kg , Regular: 60, 100, 150
Superficial is used for thin materials
Slide 2
Comparison of Hardness Tests
Knoop/Vickers: Diamond indenter, 1-2000g load, microhardness of soft steels to ceramics
Brinell: Ball indenter, 500 and 3000 kg, soft steels
Rockwell (Bc)(Tc)(Rc): ball indenter, 100 kg - superficial major loads - for soft
Rockwell (Nc)(Ad)(Cc): Diamond indenter - for hard
HARD to SOFT: Knoop/Rockwell C, Brinell, Rockwell B, Shore
Slide 3
Mechanical Properties
Strength
Tensile
Yield
Compression
Flexural
Shear
Creep
Stress rupture
Stiffness
modulus of elasticity
flexural and shear modulus
Formability
elongation
area reduction
bend radius
Toughness
Impact strength
notch sensitivity
Durability
Hardness
wear resistnce
fatigue strength
Slide 4
Stress and Strain
STRESS = force/area (psi)
STRAIN = change in length/length (in/in)
found by tensile test
Rubrica: : more ductile = longer x axis, a stretched graph
Slide 6
.2% offset yield
When yield point cannot be found:
set at .2% elastic strain
using young's modulus of elasticity (slope) find point of the curve if the slope is used where x=.2%
stress/strain = E (psi) - SLOPE of graph, at the beginning
important in choosing materials
Steel = 30x10^6 psi
Aluminum = 10x10^6
Slide 8
Standard gage length
gage length for tensile testing = very great in comparison to diameter
Slide 9
Impact Testing
used to determine material behavior at higher deformation speeds
the higher the impact strength, the greater the fracture resistance will be
pivoting arm drops, breaks specimen
notch samples can be used to test notch sensitivity
Nil-Ductility Transition: the temperature above which a material is ductile and below which it is brittle
tested by repeating fluctuating loads
the number of cycles required to cause failure in a specimen against the amplitude of the cyclical stress developed
Slide 11
Creep Strength
prolonged tensile or compressive load at a constant temperature. The rate of deformation of a sample material to stress at a constant temperature is known as the creep rate. It is the slope created by the creep vs. time.
Chemical
composition
phases
grain size
inclusions
Physical
Specific Heat
thermal conductivity
heat distortion temperature
magnetic
electrical
optical
acoustic
density
color
the production of iron historically required three important raw materials: iron ore, coke and limestone
reduces impurities
produces slag
coke = converted coal
Slide 15
Reduction
Happens in a blast furnaceRemoves carbon with help of oxygeniron (III) oxide+carbon monoxide =iron+carbon dioxideFe2O3(s)+3 CO(g) =2 Fe(l)+3 CO2(g)
Slide 16
Steel Refining
Wrought iron and refined iron are products of pig iron refining
Refining: purifying an impure metal
Primary steelmaking: uses mostly new iron from a blast furnace
Secondary steelmaking: uses scrap steel as raw material in electric arc furnace.
Slide 17
Furnaces
Blast Furnace - iron ore, limestone and coke, hot air goes in. product: PIG IRON.
Basic Oxygen Furnace (BOF) - uses scrap metal to make new steel by pushing in oxygen, nitrogen and argon (oxygen lance) oxygen forms CO and CO2, removes carbon, sulfur and phosphorus - 40% used in america. Capacity: 150-300 tonnes per "heat" every 30 minutes. pours out.
Electric Arc Furnace (EAF) - uses old steel, sends electricity through to raise temperature. 35 minutes per heat. 1-400 tonnes. SECONDARY steelmaking. graphite electrodes, oxygen, lime create electric arcs. Can be shut down between uses.
Slide 18
Continuous Casting
from furnace, liquid steel is in ladle, goes through tundish feeding to caster mold, straightens out and is cut. water cooled. produces 3000 heats between shutdowns. Inclusions, porosity, segregation and grain size
Vacuum degassingvacuum arc remeltingelectroslag meltingvacuum induction meltingelectron beam refiningladle stirring injection and ladle furnace heatingKNOW ACRONYMSWhat are the metals used for after?
Slide 20
Steel Grades
list, how are they achieved?killedrimmedcappedsemi-killed
Slide 21
Ingots
how are they made
Slide 22
Non-metallic inclusions
?
Slide 23
Semi-finished steel forms
figure 12-12
Slide 24
integrated mill vs minimill
Slide 25
finished forms of steel
what is the difference between plate and sheet?strip and bar?
Slide 26
BCC FCC
what it means, looks likecharacteristicshow is impact strength affected?
Slide 27
Allotropic
definediscuss importanceknow about Fe (delta iron, gamma iron, alpha iron)
rimmed -slightly deoxidized with outer shell of low impurities, surface cleanliness
killed - strongly deoxidized, chemical additions
galvanized - zinc-coated steel
galvannealed - zinc-coated and heat treated steel. better paint adhesion
sheet - 0.01-0.025 x >24 in, big and thin
bar - rounds/squares/hexes 0.25 - 3 in
coil - rolled steel, very thin
flat wire - rolled rectangles made by cold-reducing rounds
wire - coiled rounds diameter <.25 in
shapes - hot rolled shapes, >3 in
tin plate - steel with .005-0.014 in (may be tin coated)
strip - rolled steel 0.01-0.025 x <24 in, less big and thin
plate - thick, heavy steel shapes
free machining - steels with sulfur lead or others- machine easier
drawing quality - for satisfying elongation requirements
merchant quality - M suffix, nonstructural applications, low quality
commercial quality - from rimmed, capped, concast, or semikilled steel
h steels - H suffix, guaranteed hardness in heat treatment
b steels - small boron additions as hardening agent
pickling - acids used to remove oxides and scale
temper rolling - eliminates stretcher strains, improve surface finish
temper - amount of cold reduction in rolled sheet/strip
e steels - E prefix, melted by electric furnace
Slide 32
cold rolling vs hot rolling
propertieshowdynamic re-crystallizationwhich to choose for what