Diffusion
Thermodynamics
Bonding & Structure
Polymers
Ceramics
100

What is Ficks 1st law?

J=−D(∂C/∂X)

100

 Coined by Clausius in the 1850s, this thermodynamic quantity is often the driving force for material defect formation.

Entropy

100

Where did Scharf go to graduate school?

University of Alabama

100

This type of polymer structure is characterized by a branching network of molecules, which gives it its unique properties, such as being highly resistant to chemical breakdown.

crosslinked polymer

100

What is the primary characteristic that distinguishes ceramics from metals and polymers?

Ceramics are primarily characterized by their strong ionic and covalent bond

200

What is Ficks 2nd law (or the relative relation) x = root(Dt)?

∂C/∂t=D(∂2C/∂x2)



200

A pioneer in statistical mechanics, engraved on this Austrian physicist’s tombstone is an equation bearing his constant.

Boltzmann

200

Periodic table trends: atomic radius ______ going down groups and ________ from left to right.

Increases, decreases

200

This polymer is the most commonly used synthetic fiber and is also known for being a key component in materials like plastic bottles and food containers.

polyethylene terephthalate (PET)

200

In ceramics, what is the term used to describe the process of heating raw ceramic materials to a high temperature to remove moisture and harden the material?

The process is called firing.

300

What is Fick's 3rd Law?

There is none!

300

In the Haber-Bosch process, atmospheric nitrogen reacts with hydrogen to form ammonia in the following reaction: 


N2+3H2=2NH3 ,         ∆Hrxn= −92.28kJ

Which direction does the reaction proceed with an increase in temperature?

 


To the left/backwards.

300

A model describing the bond energy curves for two interacting particles.

     Lennard-Jones potential

300

The degree of polymerization (DP) is defined as the ratio of the molar mass of the polymer to the molar mass of the repeating unit. This term is often used to describe the length of the polymer chains, but it can be directly related to the molecular weight distribution of the polymer.

What is the number-average molecular weight MnM_nMn?

300

Which type of ceramic structure is typically associated with materials like alumina (Al₂O₃) and zirconia (ZrO₂), and how does it affect their properties?

Alumina and zirconia typically have a corundum-type

400

What are the 3 main types of diffusion in a metallic structure

Vacancy, interdiffusion, interstitial

400

Suppose you have the following endothermic, gas-phase reaction:          

A=2B+CA=2B+C

Qualitatively describe the temperature(s) at which the reaction would occur spontaneously in the forward(right) direction.

High temperatures

400

Ordered form of FCC and BCC structures?

L12 and B2

400

This technique is used to measure the thermal transitions of a polymer, such as its glass transition temperature (Tg) and melting temperature (Tm), by monitoring changes in heat capacity.

differential scanning calorimetry (DSC)

400

What is the phenomenon called when a ceramic material, such as zirconia, undergoes a phase transition that helps to arrest cracks and increase fracture toughness?

This phenomenon is called transformation toughening

500

A gear made of 1020 steel (0.2 wt% C) is to be gas-carburized at 927°C (1700°F).  Calculate the carbon content at 0.040 in. below the surface of the gear after a 7.0 hour carburizing time.  Assume the carbon content at the surface of the gear is 1.15 wt %.  Assume D for C in Fe at 927°C = 1.28 × 10-11 m2/s.

0.394 wt % C

500

The distribution of molecular energies for a gas in thermal equilibrium at absolute temperature T is given by the Maxwell-Boltzmann distribution:

 *insert equation*

E = 1/2kT

500

What are the 7 crystal systems?  

     Cubic, Hexagonal, Tetragonal, Rhombohedral (Trigonal), Orthorhombic, Monoclinic, Triclinic

500

Compute the repeat unit molecular weight for poly vinyl chloride

m = 2(AC) + 3(AH) + (ACl)
= (2)(12.01 g/mol) + (3)(1.008 g/mol) + 35.45 g/mol = 62.49 g/mol

500

What defect type is responsible for ionic conductivity in oxide ceramics like ceria (CeO₂), and what is the associated defect equation?

Oxygen vacancy – Schottky  
Defect equation:
CeO2 = 2VO+++VCe’’’’ 

 

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