CE 336 Exam 1

What are some properties of low carbon steel?

-Relatively low strength -High ductility and toughness -Least expensive type of steel -Most common type of steel -Machinable and weldable -Alloy contents of generally less than 10% wt

Describe fatigue failure

-Repeated loading results in propagation of cracks, few micrometers at a time -Eventually crack becomes large enough to be unstable -Results in failure of a member or even the entire structure

How is steel recycled?

-Steel scrap is heated and melted by electric arcs striking between electrodes and metal bath -Impurities oxidized and removed (slag)

What are the two approaches to studying failure of materials?

-Strength of materials (SoM) -Fracture mechanics (FM)

Where are low carbon steels used?

-Structural shapes (beams, plates) -Automobile body parts

What are the problems with the SoM approach?

-Unexpected failures well below the ultimate stress -Dictates use of safety factor > 10 to prevent random failure -Ultimate stress is size dependent -Does not consider stress concentration

Explain electroplating

-Zinc applied to steel sheet, strip and small parts by electro-deposition -No alloy layers, thin coating of pure zinc -More expensive than sheet galvanizing

Explain zinc rich paint

-Zinc dust in organic or inorganic binders -Referred to as "cold galvanizing"

Explain metallizing

-Zinc wire or powder melted or sprayed onto the steel surface -Shop or field application -Mechanical bond / no alloy layers

_____ materials exhibit substantial plastic deformation with high energy absorption before fracture

Ductile

What type of material shows extensive elongation and necking?

Ductile materials

Toughness is very important for _____ loading

Dynamic (earthquake, impact)

Group number on the periodic table represents the number of _____

Electrons in the outermost layer

How is epoxy-coated steel made?

Epoxy paint is fusion bonded to the steel surface

What does FEA stand for?

Finite element analysis

Carbon is a _____ agent

Hardening, it prevents dislocation movement

_____ is the most widely used construction material in the world

Concrete

You should try to _____ corrosion, rather than stop it

Control

What are the problems will iron alloys?

Corrosion, fire

In many solids, atoms arrange themselves into a very regular and well-defined structure. They form a _____

Crystal

Define plastic

Deformation is permanent

Define elastic

Deformation will undergo full recovery

_____ materials are very resistant to tension and compression

Metallic

Describe crystalline

Neat and structured

Use of laboratory measured strength for design of large structures can lead to _____

Non-conservative design

Describe amorphous

Out of order

What is a Type III cause of mechanical failure?

Phenomena unknown

_____ is the most widely recycled material in the US

Steel

Why doe we make buildings out of concrete but not out of glass or jelly?

Strength and durability

Flaws (cracks) in materials cause _____ with magnitudes that are far larger than the average stress computed from strength of materials

Stress concentrations

Describe far-field stress

Stress that would exist if crack was not present

Why did the Tacoma Narrows bridge collapse in 1940?

The parapet walls on the side were transferring large wind loads to the structure

What does fracture mechanics describe?

The role of a crack on performance of a material

What is a Type II cause of mechanical failure?

Theory available but ignored (not included in code)

What is Young's Modulus for concrete?

17

What is Young's Modulus for aluminum?

70 GPa

How many electrons are in the 2nd layer?

8

Outer (valence) shell wants to have ___ electrons by any means possible

8

Reinforcing bar diameter is bar size divided by ___

8

How many electrons are in the 3rd layer?

8 primary, 10 secondary

How many electrons are in the 4th layer?

8 primary, 24 secondary

What is Young's Modulus for wood?

8-10 GPa

How many atoms are in the unit cell of a BCC structure?

2

How many electrons are in the 1st layer?

2

What is the atomic number of helium?

2

What is Young's Modulus for steel?

200 GPa

How many atoms are in the unit cell of a FCC structure?

4

What is the atomic weight of helium?

4

Cold forming increases tensile strength by ___-___% and ultimate strength by ___-___%

50-70%, 20-30%

How many atoms are in the unit cell of a HPC structure?

6

What is the coefficient of thermal expansion for steel?

6.5 x 10^-6 in/inF

What are the different types of heat treatments?

-Annealing -Normalizing -Hardening -Tempering

Atomic weight = ?

# of protons + # of neutrons

Atomic numer = ?

# of protons = # of electrons (unless ionized)

What are the steps of steel production?

-Reduce iron ore to pig iron -Refine pig iron into steel -Form the steel into products

What are the different type of protective coatings used to isolate steel from moisture?

-Barrier coatings (standard paint isolates steel from moisture and must be repeated) -Inhabitive primer coatings (pigments that migrate to the steel surface to passivate it) -Sacrificial primers (metal pigments become the anode, give up electrons to the steel, and corrode instead of the steel)

Describe a metallic bond

-Bonding based on positive ion cores in a sea of electrons -Electrons are shared by all ions in the solid -Electrons can flow in the sea of electrons - electrically and thermally conductive -Bonding can be weak (Hg) to very strong (W)

Why does cold formed steel design require special considerations?

-Buckling -Corrosion

What are some properties of high carbon steels?

-Carbon content 0.60 to 1.4% wt -Hardest, strongest, and least ductile carbon steels -Almost always heat treated (hardened, tempered) -Specially wear resistant and capable of holding a sharp cutting edge -Also known as "tool steels"

What are some properties of medium carbon steel?

-Carbon content of 0.25 to 0.60% wt -Can be heat treated to improve mechanical properties -Stronger than low carbon, but lower ductility and toughness

What are some examples of a hexagonal close packed structure?

-Cobalt -Titanium -Zinc

Explain continuous sheet galvanizing

-Continuous in-line dip process for sheet, strip, wire -Coating thickness / alloy layers minimal

Iron alloys are the most common due to:

-Cost -Abundance -Versatility of steel

Why did the Liberty Ships fail?

-Cracks started at corners (stress concentration, fatigue) -All welded structure did not provide barrier to arrest cracks

Where are high carbon steels used?

-Cutting tools (knives, razors, hacksaw blades) -Springs -High strength wires

What are the three spheres of sustainability?

-Environmental -Social -Economic

What are some examples of unexpected failures?

-Failure of Molasses Tank -Liberty Ships -De Havilland Comet

Describe an ionic bond

-Formed when one or more electrons are transferred from one atom to another -Bonding between metallic and non-metallic elements -From extreme sides of the periodic table

Describe a covalent bond

-Forms when electrons are shared between atoms -Both atoms consider the electrons as theirs -Usually strong bonds

What are some examples of a face centered cubic structure?

-Gold -Aluminum -Copper -Lead -Silver -Platinum

Alloy agents are added to steel to improve the following properties:

-Hardenability -Corrosion resistance -Machinability -Ductility -Strength

What are the roles of carbon in steel?

-Hardening agent -Increases strength and elastic modulus of steel -Reduces ductility

The failure of engineering materials are almost always undesirable because:

-Human lives are in jeopardy -Economic losses -Interference with products and services

What are the different types of primary bonds between atoms?

-Ionic bond -Covalent bond -Metallic bond

What are some examples of a body centered cubic structure?

-Iron -Chromium -Tungsten -Molybdenum

Explain zinc plating

-Only used for fasteners and small parts -Tumbled in drum with zinc powder, glass beads, and proprietary chemicals -Mechanical bond

What are the common types of crystal flaws (or defects)?

-Point defects (missing atoms) -Line defects (dislocation, which is a row of missing atoms) -Area or surface defect (grain boundary) -Volume defect (pores, voids)

Where are medium carbon steels used?

-Railway wheels / tracks -Gears -Crankshafts -Other machine parts

What is Young's Modulus for rubber?

0.1 GPa

What is the APF for a BCC structure?

0.68

What is the APF for a HPC structure?

0.74

What is the APF of a FCC structure?

0.74

What are the different types of structural steel?

1) Hot rolled and continuous cast steel for large structural members 2) Cold formed steel used for studs, trusses, and decking 3) Fastening products (nuts, bolts, rivets) 4) Reinforcing steel 5) Miscellaneous (steel forms, deck pans)

The goal of engineering materials is to design structures and materials to:

1) Prevent mechanical failure (stable structures) 2) Resist weathering failure (durable structures) 3) Be environmentally friendly (green structures) 4) Minimize cost (economic structures)

What are the objectives or studying materials science of civil engineering materials?

1) Selection of proper materials for applications (we need to understand the behavior / performance of each material) 2) Design of materials for particular applications

How can the properties of steel be altered?

Applying a variety of heat treatments - can be hardened or softened

_____ is the building block of all matter

Atom

_____ materials exhibit little deformation or energy absorption before fracture

Brittle

What type of material fails without warning (and at small strains)?

Brittle materials

_____ is the alloying element in stainless steel

Chromium

Where is the shear modulus used?

In the design of members subjected to torsion, such as rotating shafts and helical compression springs

_____ bonds are physical bonds, not chemical

Intermolecular (secondary)

Salts are an example of a _____ bond

Ionic

Describe fracture toughness

It is a material property that describes the resistance of a material to crack propagation (analogous to strength)

What is the Charpy V Notch Impact test done to measure?

It is used to measure the toughness of the material or the energy required to fracture a V notched simply supported specimen

How does cold forming increase yield strength, tensile strength, and hardness?

It results in plastic deformation causing strain-hardening that increases yield strength, tensile strength, and hardness

What is the function of limestone in steel production?

It traps impurities into slag

What does LCC stand for and what is it?

Life Cycle Cost - the total cost of a structure over its entire life cycle

For concrete structures, larger objects fail at a (lower/higher) stress

Lower

To build sustainable structures, civil engineers must understand fundamental _____ and _____ of different building materials

Properties, behavior

The nucleus contains...?

Protons and neutrons

The formation of a crack _____ stress

Releases

Large structures observed have _____ tensile/shear strength than measured in lab

Smaller

What is a Type I cause of mechanical failure?

Specification / codes not followed

Name a material that: -Strengthens after slightly damaged -5x as strong in tension as an equal mass of steel -2x as strong as equal mass of kevlar -Remains flexible even in extreme cold -Lightweight: 1lb could form a strand that could stretch around the Earth

Spider web

Why did the De Havilland Comet fail?

Square windows where cracking occurred

_____ steel is highly resistant to corrosion by including at least 11% wt

Stainless steel

What does the ductility of metals depend on?

The ability to break (rupture) and reconnect (reform) interatomic bonds

Describe strain energy

The energy that causes the rod to spring back when the load is removed

Griffith's experiment with glass fibers showed that (thinner/thicker) fibers show lower strength

Thicker

Why are torsion tests performed?

To determine the shear modulus of structural materials

Why are steel tension tests performed?

To determine the yield strength, yield point, ultimate strength, elongation, and reduction

Describe the fracture mechanics approach

To properly design against failure, one must acknowledge the existence of flaws (cracks) inside materials

_____ is an important material property because it indicates how much energy a material can absorb before it fails

Toughness

True or False? Steel manufacturing is a very energy intensive process

True

True or False? You have to fulfill all three spheres of sustainability to be sustainable

True

Number of _____ defines how an atom will bond

Valence electrons

What is the most widely used material in the world?

Water (second is concrete)

Galvanized steel is coated with a thin layer of _____ to add corrosion resistance

Zinc