Fundamentals of Modern ManufacturingMaterials

This is the Solutions Manual for the textbook Fundamentals of Modern ManufacturingMaterials, Processes, and Systems (Second Edition). It contains the answers to the Review
Questions and Multiple Choice Quizzes at the end of the Chapters 2 through 44, as well as the
Problems at the end of Chapters 3, 4, 6, 10, 11, 13, 16, 18, 19, 20, 21, 22, 23, 24, 25, 26, 29, 30,
31, 33, 34, 35, 38, 40, 42, and 43. There are approximately 740 review questions, 500 quiz questions,
and 500 problems (nearly all of them quantitative) in the text.
I have personally answered all of the questions and solved all of the quizzes and problems and have
personally recorded the solutions in this booklet. Many of the problems have been tested in class, thus
giving me an opportunity to compare my own answers with those developed by the students. Despite
my best efforts to avoid errors in this solutions manual, I am sure that errors are present. I would
appreciate hearing from those of you who discover these errors, so that I can make the necessary
corrections in subsequent editions of the Solutions Manual. Similarly, I would appreciate any
suggestions from users of the text itself that might help to make any subsequent editions more accurate,
more relevant, and easier to use.

2.1 The elements listed in the Periodic Table can be divided into three categories. What are these
categories and give an example of each?
Answer. The three types of elements are metals (e.g., aluminum), nonmetals (e.g., oxygen), and
semimetals (e.g., silicon).
2.2 Which elements are the noble metals?
Answer. The noble metals are copper, silver, and gold.
2.3 What is the difference between primary and secondary bonding in the structure of materials?
Answer. Primary bonding is strong bonding between atoms in a material, for example to form a
molecule; while secondary bonding is not as strong and is associated with attraction between
molecules in the material.
2.4 Describe how ionic bonding works?
Answer. In ionic bonding, atoms of one element give up their outer electron(s) to the atoms of
another element to form complete outer shells.
2.5 What is the difference between crystalline and noncrystalline structures in materials?
Answer. The atoms in a crystalline structure are located at regular and repeating lattice positions in
three dimensions; thus, the crystal structure possesses a long-range order which allows a high
packing density. The atoms in a noncrystalline structure are randomly positioned in the material, not
possessing any repeating, regular pattern.
2.6 What are some common point defects in a crystal lattice structure?
Answer. Some of the common point defects are: (1) vacancy - a missing atom in the lattice
structure; (2) ion-pair vacancy (Schottky defect) - a missing pair of ions of opposite charge in a
compound; (3) interstitialcy - a distortion in the lattice caused by an extra atom present; and (4)
Frenkel defect - an ion is removed from a regular position in the lattice and inserted into an
interstitial position not normally occupied by such an ion.
2.7 Define the difference between elastic and plastic deformation in terms of the effect on the crystal
lattice structure.
Answer. Elastic deformation involves a temporary distortion of the lattice structure that is
proportional to the applied stress. Plastic deformation involves a stress of sufficient magnitude to
cause a permanent shift in the relative positions of adjacent atoms in the lattice. Plastic deformation
generally involves the mechanism of slip - relative movement of atoms on opposite sides of a plane
in the lattice.
2.8 How do grain boundaries contribute to the strain hardening phenomenon in metals?
Answer. Grain boundaries block the continued movement of dislocations in the metal during
straining. As more dislocations become blocked, the metal becomes more difficult to deform; in
effect it becomes stronger.
2.9 Identify some materials that have a crystalline structure.
Answer. Materials typically possessing a crystalline structure are metals and ceramics other than
glass. Some plastics have a partially crystalline structure.
2.10 Identify some materials that possess a noncrystalline structure.
Answer. Materials typically having a noncrystalline structure include glass (fused silica), rubber,
and certain plastics (specifically, thermosetting plastics).
2.11 What is the basic difference in the solidification (or melting) process between crystalline and
noncrystalline structures?
Answer. Crystalline structures undergo an abrupt volumetric change as they transform from liquid
to solid state and vice versa. This is accompanied by an amount of energy called the heat of fusion
that must be added to the material during melting or released during solidification. Noncrystalline
materials melt and solidify without the abrupt volumetric change and heat of fusion.