Materials for Civil and Construction EngineersTitle: CEE 353 – Civil Engineering Materials Author:...
Transcript of Materials for Civil and Construction EngineersTitle: CEE 353 – Civil Engineering Materials Author:...
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Mamlouk/Zaniewski, Materials for Civil and Construction Engineers, Third Edition. Copyright © 2011 Pearson Education, Inc.
Materials for Civil and Construction Engineers
CHAPTER 3
Steel
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Mamlouk/Zaniewski, Materials for Civil and Construction Engineers, Third Edition. Copyright © 2011 Pearson Education, Inc.
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Introduction – Steel
3rd most used construction material after concrete and asphalt
• Iron ore 1500 B.C. primitive furnace: iron
18th century blast furnace: mass iron production
mid-1800s Bessemer converter: steel
Difference:
•Concrete & asphalt Engineers and contractors directly influence strength, stability, & durability
•Steel Civil engineer has less flexibility in specifying steel
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Construction Uses of Steel
•Structural steel plates, bars, pipes, structural
shapes, etc.
•Cold formed steel studs, trusts, roofing,
cladding
•Fastening products bolts, nuts, washers
•Reinforcing steel rebar for concrete
•Miscellaneous forms, pans, hardware, etc.
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Mamlouk/Zaniewski, Materials for Civil and Construction Engineers, Third Edition. Copyright © 2011 Pearson Education, Inc.
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Mamlouk/Zaniewski, Materials for Civil and Construction Engineers, Third Edition. Copyright © 2011 Pearson Education, Inc.
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Mamlouk/Zaniewski, Materials for Civil and Construction Engineers, Third Edition. Copyright © 2011 Pearson Education, Inc.
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Steel Production Stages
1. Reduction of iron ore to pig iron (high carbon)
2. Refining pig iron to steel
3. Forming steel into products
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Reduction of Iron Ore to Pig Iron
Blast furnace with carbon (coal or coke) &
limestone
Limestone removes impurities from iron ore
Slag (molten rock & impurities) is skimmed off the top
Molten iron is collected at the bottom
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Refining Pig Iron and Scrap to Steel
Remove excess carbon and other impurities by
oxidation in another furnace
Basic oxygen furnace – 300 tons in 25 minutes
Electric arc – electric arc melts steel – lots of energy
•Deoxidize with aluminum, ferrosilicon,
manganese, etc.
•Killed Steel: completely deoxidized
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Forming Steel into Products
•Cast into ingots (large blocks that must be
re-melted and re-shaped)
•Continuous shapes
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Iron-Carbon Phase Diagram
Steel is an alloy of iron and carbon
•Higher carbon: steel is harder & more brittle
•Modulus of Elasticity is the same for all three (same
atomic bonds)
Cast iron : high (>2%) carbon = brittle
High carbon steel : medium (0.8%-2%) carbon = brittle
Structural steel : low (0.15%-0.27%) carbon = ductile
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1539 d Liquidus
Solidus
Fe3C is 6.7% carbon by weight
This corresponds to 100% Fe3C
iron carbide or cementite
eutectic eutectoids
Solubility limit
a & carbon 0.022%
Solubility limit
g & carbon 2.1%
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1539 d
Three phases of solid iron
d = high temperature ferrite, FCC no
practical significance to CE
g = austenite, BCC
a = low temperature ferrite, FCC
g = austenite, BCC has a lower atomic
packing factor than FCC. The extra space in
the lattice structure allows carbon in
solution as an interstitial element.
Eutectoid material – pearlite
a ferrite percent carbon = 0.022
Fe3C (iron carbide or cementite) 6.7% C
Forms in thin plates – lamellae structure
Hypoeutectoid alloys
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1539 d
Solid austenite with carbon in solution
grains of uniform material
Proeuctoid ferrite formed,
accumulates at grain boundaries of austenite
Austenite transforms into pearlite
Grains of pearlite surrounded by
skeleton of a ferrite
0.25%
a ferrite percent carbon = 0.022
austenite 0.77% carbon
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0.25%
Determine amounts and compositions of
phases and constituents of steel composed
of 0.25% carbon just above and below the
eutectoid isotherm
0.77% %C of a = 0.022
%C of pearlite = 0.77
%C of steel = 0.25
Using lever rule
%5.3010022.077.0
0.022-0.25%
%5.6910022.077.0
0.25-0.77 %
=
=
=
=
pearlite
a
0.022% %C of a = 0.022
%C of cementite = 6.67
%C of steel = 0.25
Using lever rule
%4.310022.067.6
0.022-0.25%
%6.9610022.067.6
0.25-6.67 %
=
=
=
=
pearlite
a
6.67% 0.022%
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Significance of ferrite, pearlite and
iron carbide
• Ferrite has relatively low strength but is very ductile.
• Iron carbide has high strength but no ductility.
• Combining these two materials in different portions alters the
mechanical properties of steel.
• Increasing the carbon content increases the strength and
hardness but reduces ductility!
• Modulus of elasticity of steel does not change by altering the
carbon content!
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Heat Treatment
Refines grain structure, removes internal stresses, removes gases, changes electrical and magnetic properties
• Types
a) Annealing
b) Normalizing
c) Hardening
d) Tempering
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Annealing
Heating, then slowly cooling to room temperature.
Steel gets softer & more ductile, increasing
toughness.
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Normalizing
Similar to annealing, but hotter & air cooled
Gives a uniform, fine-grained structure
Provides high fracture toughness
More corrective rather than strengthening or hardening
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Hardening
Higher heat, then rapid cooling by quenching in
water/brine/oil
Steel is harder & more brittle & must be followed by
tempering.
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Tempering
Reheating hardened steel to a lower temperature and
quenching
Increases ductility and toughness after hardening –
both effects
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Temperatures for Heat Treating
Structural Steel Area of Interest
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Steel Alloys
250,000 steel alloys
~200 used in engineering
•Steel alloy is steel + alloying metal to change properties hardenability corrosion resistance machineability ductility strength
•Construction steels are low and medium carbon plain steels.
•Stainless steel for highly corrosive uses add chromium, nickel, etc.
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Alloying Elements Typical Ranges in
Alloy Steels (%)
Principal Effects
Aids nitriding
Restricts grain froth
Removes oxygen in steel melting
Adds machinability
Reduces weldability and ductility
Increases resistance to corrosion and oxidation
Increases hardenability
Increases high-temperature strength
Can combine with carbon to form hard, wear-resistant microconstituents
Promotes an austenitic structure
Increases hardenability
Increases toughness
Copper 0.2 to 0.5 Promotes tenacious oxide film to aid atmospheric corrosion resistance
Increases hardenability
Promotes an austenitic structure
Combines with sulfur to reduce its adverse effects
Removes oxygen in steel making
Improves toughness
Increases hardenability
Promotes grain refinement
Increases hardenability
Improves high-temperature strength
Promotes grain refinement Increases hardenability
Will combine with carbon to form wear-resistant microconstituents
0.3 to 2
0.2 to 2.5
0.1 to 0.5
0.1 to 0.3
<2
<0.5
0.3 to 0.4
0.3 to 5
Manganese
Silicon
Molybdenum
Vanadium
Aluminum
Sulfur
Chromium
Nickel
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Structural Steel
Hot rolled
structural
shapes
Cold formed
cladding
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Structural Steel • Hot rolled structural shapes, plates, and
bars used in columns, beams, brackets,
frames, bridge girders, etc.
• Grades determined:
Mechanical properties
Yield strength
Tensile or ultimate strength
Percent elongation
Chemical composition
Percent carbon
Other requirements – limit
undesirable chemicals, provide
desired properties
•Types used for structural
applications
Carbon
High-strength low-alloy
Corrosion resistant high-
strength low-alloy
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Mechanical Requirements for “Carbon” Steel
36 58–80 23
35 60
42 58
46 58
46 62
50 62
36 58 23
Gr.50 50 65–100
Gr.55 55 70–100
ASTM designation Fy1 (ksi) Fu
1 (ksi)
A36
A53 Gr. B
A500
Gr. B 23
Gr. C 21
A501
A529 19
Elon-
gation2
(%)1ksi=6,89 MPa
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41
Example Chemical Specifications
for Carbon Steel
0.26 0.2 0.8-1.2a 0.04 0.05
0.25 0.4 0.95 0.05 0.045
0.3 0.18 0.045 0.045
Gr. 50
Gr. 55
A501
A529 0.27 0.2 1.35
Cu5
0.045 0.045
0.045 0..045
0.04 0.05
A36
A53 Gr. B
A500
Gr. B 0.3
Gr. C 0.27 0.18 1.4
ASTM designation Typical Chemical Composition3
0.18
C Mn P S
Other elements controlled include nitrogen,
chromium, silicon, molybdenum, and vanadium
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42
Section Shapes
Wide flange
W A992
HP A572 G50
M A36
I beam
S A36 Channel
C, MC A36
Equal leg angle
L A36 Unequal leg angle
L A36
Tee Sheet piling Rail
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Grade Selection
Based on Shape
Hollow structural section
either circular or rectangular
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Specialty Steels
•High performance steels
•Stainless steel has minimum 10% chromium (common
steels have 0.3% – 0.4%).
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Cold Formed Steel
•Grades
Multiple grades are acceptable.
Steel Stud Manufactures Association recognizes two
yield stress grades, 33 and 55 ksi.
•Cold forming results in plastic deformation causing strain-
hardening that increases the yield strength, tensile
(ultimate) strength and hardness, but reduces ductility.
•Cold forming increases tensile strength by 50-70% and
ultimate strength by 20-30%.
45
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Stages of Cold Forming
46
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•Structural design requires special considerations due to
buckling
corrosion
Cold Formed Steel Shapes
47
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Fastening Products
•Conventional bolts
•Twist-off-type tension control bolt assemblies
•Nuts
•Washers
•Compressible-washer-type direct tension indicators
•Anchor rods
•Threaded rods
•Forged steel structural hardware
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Reinforcing Steel
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Reinforcing Steel
•Conventional Reinforcing Steel
Plain bars, deformed bars, and plain and deformed
wire fabrics
•Bars are made of 4 types of steel: A615 (billet), A616
(rail), A617 (axle), and A706 (low-alloy)
•Steel for Prestressed Concrete
Requires special wires, strands, cables, and bars
Must have high strength and low relaxation properties
Made of high-carbon steels and high-strength alloy
steels
50
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ASTM Reinforcing Bare Identification
56
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Mechanical Testing of Steel
Tension Test
•Determine yield strength,
ultimate (tensile) strength,
elongation, and reduction of
area (Poisson's Ratio)
•Plate, sheet, round rod, wire,
and tube can be tested
Typical specimens are
round or rectangular
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Testing Set Up Crosshead
Fixed beam Threaded end
Specimen
Extensiometer
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Sample Loaded to Failure
Cup and cone
failure
Neck area
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Typical Stress-Strain Behavior of Mild Steel • s- is linear elastic up to proportional limit.
•Then non-linear elastic up to elastic limit = yield point =
strain increases at constant stress.
•Then plastic deformation until failure.
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Effect of Carbon on Mechanical Behavior
Structural Steel
0.12 to 0.30
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Torsion
Test
•Determine shear modulus, G,
designing members under torsion,
rotating shafts
helical compression springs
Applied torque and angle of twist are measured on a
cylindrical or tubular specimen.
t-g is linear elastic up to the proportional limit
G = t / g very similar to E = s /
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Charpy V Notch Impact Test
•Measure toughness or fracture energy at different
temperatures
•Specimen of rectangular cross-section with a V notch
Charpy machine with a pendulum that breaks the
specimen
By measuring the height of the swing arm after striking the
specimen, the energy required to fracture is computed (higher
head = less energy absorbed)
•Energy absorbed is high at high temp. (shear = ductile)
and low at low temp. (cleavage = brittle)
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Loss of Toughness with Reduction in
Temperature
Large area
of brittle
cleavage,
low energy
absorption
Large shear
area ductile
failure,
high energy
absorption
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Bend Test
•Ability of steel or a weld to
resist cracking during bending
•Steel is often bent to a desired
shape, especially rebar
•Bend the specimen through a
certain angle and to a certain
inside radius
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Hardness Test
•Measures resistance to small dents
and scratches
•Need very high hardness for many
machine parts & tools
•Spring-loaded indenter (hardened
steel penetrating ball) is forced into
the surface of the material with a
specified load and rate.
•Depth or size of indentation is related
to hardness number.
Rockwell hardness tester
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Welding • Joining two metal pieces by
applying heat
partial melting fuses the pieces
together
distortion caused by uneven
heating
• Arc Welding or “Stick Welding”
Flux on the electrode (“stick”)
shields the molten metal from
atmosphere to prevent oxidation.
• Gas Welding or “MIG Welding”
“Metal in Gas” uses shielding
gas instead of flux.
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Steel Corrosion
•Oxidation (rust) can cause serious weakening of
structures.
•Cost of corrosion is about $8 billion per year in U.S.
alone.
•Steel is made by using heat to separate oxygen and iron
molecules in the ore – corrosion is a natural process.
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Corrosion Protection Methods
http://www.rollanet.org/~conorw/cwome/de_bridge_corrosion1.jpg
•Active corrosion protection
•Passive corrosion protection
•Permanent corrosion protection
•Temporary corrosion protection
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Required for Corrosion
1. Anode: Positive electrode where corrosion occurs
2. Cathode: Negative electrode needed for electric current
3. Conductor: Metallic pathway for electrons to flow
between electrodes
4. Electrolyte: Liquid that can support the flow of electrons
•1, 2, and 3 are present in steel.
•4 is moisture (in air).
•Pure water is not a good electrolyte, contaminants on the
steel or in the air provides electrolyte (salt, acid rain,
etc.).
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Corrosion Resistance •Control rather than stop corrosion
•Protective coatings (paint, etc.) can be used to isolate
the steel from moisture.
1. Barrier coatings
Standard paint isolates steel from moisture & must be
repeated.
2. Inhabitive primer coatings
Pigments that migrate to the steel surface to
passivate it (transfer electrons)
3. Sacrificial primers (cathodic protection)
Metal pigments (zinc) become the anode, give up
electrons to the steel, and corrode instead of the steel.
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Cathodic Protection •Protective current supplies electrons to the structure.
•The electrons cover the electron requirements for the
reduction of oxygen which comes into contact with the metal
surface.
•Without cathodic protection, the electrons cause
decomposition of the metal.
•The potential of the metal surface is sufficiently reduced to
prevent disassociation of positive ions from the metal.
•Where formerly an anodic reaction took place, the oxygen is
reduced by cathodic reaction.
•The entire surface of the structure becomes a safe cathode,
i.e., the metal is "cathodically " protected.
76