Solution Manual for Materials Science and Engineering: An Introduction, 9th Edition, William D. Callister, David G. Rethwisch

Product details:

• ISBN-10 ‏ : ‎ 1118477707
• ISBN-13 ‏ : ‎ 978-1118477700
• Author: William D. Callister

Building on the extraordinary success of eight best-selling editions, Callisters new Ninth Edition of Materials Science and Engineering continues to promote student understanding of the three primary types of materials (metals, ceramics, and polymers) and composites, as well as the relationships that exist between the structural elements of materials and their properties. This edition is again supported by WileyPLUS, an integrated online learning environment, (when ordered as a package by an instructor). Also available is a redesigned version of Virtual Materials Science and Engineering (VMSE). This resource contains interactive simulations and animations that enhance the learning of key concepts in materials science and engineering (e.g., crystal structures, crystallographic planes/directions, dislocations) and, in addition, a comprehensive materials property database.

Table contents:

1. 1.1 HISTORICAL PERSPECTIVE
2. 1.2 MATERIALS SCIENCE AND ENGINEERING
3. 1.3 WHY STUDY MATERIALS SCIENCE AND ENGINEERING?
4. 1.4 CLASSIFICATION OF MATERIALS
5. 1.5 ADVANCED MATERIALS
6. 1.6 MODERN MATERIALS’ NEEDS
7. Chapter 2 Atomic Structure And Interatomic Bonding
8. Practice and Homework Problems
9. Questions and Problems
10. Spreadsheet Problem
11. Fundamentals of Engineering Questions and Problems
12. Summary and Study Guide
13. Equation Summary
14. List of Symbols
15. Important Terms and Concepts
16. Study Resources
17. Section 2.6
18. Section 2.7
19. Additional Study Resources
20. Readings
21. 2.1 INTRODUCTION
22. 2.2 FUNDAMENTAL CONCEPTS
23. 2.3 ELECTRONS IN ATOMS
24. 2.4 THE PERIODIC TABLE
25. 2.5 BONDING FORCES AND ENERGIES
26. 2.6 PRIMARY INTERATOMIC BONDS
27. 2.7 SECONDARY BONDING OR VAN DER WAALS BONDING
28. 2.8 MIXED BONDING
29. 2.9 MOLECULES
30. 2.10 BONDING TYPE-MATERIAL CLASSIFICATION CORRELATIONS
31. Chapter 3 The Structure of Crystalline Solids
32. Practice and Homework Problems
33. Questions and Problems
34. Spreadsheet Problem
35. Fundamentals of Engineering Questions and Problems
36. Summary and Study Guide
37. Equation Summary
38. List of Symbols
39. Important Terms and Concepts
40. Study Resources
41. Section 3.4
42. Section 3.7
43. Section 3.9
44. Section 3.10
45. Section 3.12
46. Additional Study Resources
47. Readings
48. 3.1 INTRODUCTION
49. 3.2 FUNDAMENTAL CONCEPTS
50. 3.3 UNIT CELLS
51. 3.4 METALLIC CRYSTAL STRUCTURES
52. 3.5 DENSITY COMPUTATIONS
53. 3.6 POLYMORPHISM AND ALLOTROPY
54. 3.7 CRYSTAL SYSTEMS
55. 3.8 POINT COORDINATES
56. 3.9 CRYSTALLOGRAPHIC DIRECTIONS
57. 3.10 CRYSTALLOGRAPHIC PLANES
58. 3.11 LINEAR AND PLANAR DENSITIES
59. 3.12 CLOSE-PACKED CRYSTAL STRUCTURES
60. 3.13 SINGLE CRYSTALS
61. 3.14 POLYCRYSTALLINE MATERIALS
62. 3.15 ANISOTROPY
63. 3.16 X-RAY DIFFRACTION: DETERMINATION OF CRYSTAL STRUCTURES
64. 3.17 NONCRYSTALLINE SOLIDS
65. Chapter 4 Imperfections in Solids
66. Practice and Homework Problems
67. Questions and Problems
68. Spreadsheet Problem
69. Fundamentals of Engineering Questions and Problems
70. Summary and Study Guide
71. Equation Summary
72. List of Symbols
73. Important Terms and Concepts
74. Study Resources
75. Section 4.2
76. Section 4.3
77. Section 4.4
78. Section 4.5
79. Section 4.6
80. Additional Study Resources
81. Readings
82. 4.1 INTRODUCTION
83. 4.2 VACANCIES AND SELF-INTERSTITIALS
84. 4.3 IMPURITIES IN SOLIDS
85. 4.4 SPECIFICATION OF COMPOSITION
86. 4.5 DISLOCATIONS—LINEAR DEFECTS
87. 4.6 INTERFACIAL DEFECTS
88. 4.7 BULK OR VOLUME DEFECTS
89. 4.8 ATOMIC VIBRATIONS
90. 4.9 BASIC CONCEPTS OF MICROSCOPY
91. 4.10 MICROSCOPIC TECHNIQUES
92. 4.11 GRAIN-SIZE DETERMINATION
93. Chapter 5 Diffusion
94. Practice and Homework Problems
95. Questions and Problems
96. Design Problems
97. Spreadsheet Problem
98. Fundamentals of Engineering Questions and Problems
99. Summary and Study Guide
100. Equation Summary
101. List of Symbols
102. Important Terms and Concepts
103. Study Resources
104. Section 5.1
105. Section 5.2
106. Section 5.3
107. Section 5.4
108. Section 5.5
109. Additional Study Resources
110. Readings
111. 5.1 INTRODUCTION
112. 5.2 DIFFUSION MECHANISMS
113. 5.3 FICK’S FIRST LAW
114. 5.4 FICK’S SECOND LAW—NONSTEADY-STATE DIFFUSION
115. 5.5 FACTORS THAT INFLUENCE DIFFUSION
116. 5.6 DIFFUSION IN SEMICONDUCTING MATERIALS
117. 5.7 OTHER DIFFUSION PATHS
118. Chapter 6 Mechanical Properties of Materials
119. Practice and Homework Problems
120. Questions and Problems
121. Design Problems
122. Spreadsheet Problem
123. Fundamentals of Engineering Questions and Problems
124. Summary and Study Guide
125. Equation Summary
126. List of Symbols
127. Important Terms and Concepts
128. Study Resources
129. Section 6.02
130. Section 6.03
131. Section 6.06
132. Section 6.10
133. Additional Study Resources
134. Readings
135. 6.1 INTRODUCTION
136. 6.2 CONCEPTS OF STRESS AND STRAIN
137. 6.3 STRESS-STRAIN BEHAVIOR
138. 6.4 ANELASTICITY
139. 6.5 ELASTIC PROPERTIES OF MATERIALS
140. 6.6 TENSILE PROPERTIES
141. 6.7 TRUE STRESS AND STRAIN
142. 6.8 ELASTIC RECOVERY AFTER PLASTIC DEFORMATION
143. 6.9 COMPRESSIVE, SHEAR, AND TORSIONAL DEFORMATIONS
144. 6.10 HARDNESS
145. 6.11 VARIABILITY OF MATERIAL PROPERTIES
146. 6.12 DESIGN/SAFETY FACTORS
147. Chapter 7 Dislocations and Strengthening Mechanisms
148. Practice and Homework Problems
149. Questions and Problems
150. Design Problems
151. Fundamentals of Engineering Questions and Problems
152. Summary and Study Guide
153. Equation Summary
154. List of Symbols
155. Important Terms and Concepts
156. Study Resources
157. Section 7.2
158. Section 7.3
159. Section 7.7
160. Section 7.8
161. Section 7.9
162. Section 7.10
163. Section 7.12
164. Section 7.13
165. Additional Study Resources
166. Readings
167. 7.1 INTRODUCTION
168. 7.2 BASIC CONCEPTS
169. 7.3 CHARACTERISTICS OF DISLOCATIONS
170. 7.4 SLIP SYSTEMS
171. 7.5 SLIP IN SINGLE CRYSTALS
172. 7.6 PLASTIC DEFORMATION OF POLYCRYSTALLINE MATERIALS
173. 7.7 DEFORMATION BY TWINNING
174. 7.8 STRENGTHENING BY GRAIN SIZE REDUCTION
175. 7.9 SOLID-SOLUTION STRENGTHENING
176. 7.10 STRAIN HARDENING
177. 7.11 RECOVERY
178. 7.12 RECRYSTALLIZATION
179. 7.13 GRAIN GROWTH
180. Chapter 8 Failure
181. Practice and Homework Problems
182. Questions and Problems
183. Design Problems
184. Spreadsheet Problem
185. Fundamentals of Engineering Questions and Problems
186. Summary and Study Guide
187. Equation Summary
188. List of Symbols
189. Important Terms and Concepts
190. Study Resources
191. Section 8.1
192. Section 8.6
193. Section 8.8
194. Section 8.9
195. Additional Study Resources
196. Readings
197. 8.1 INTRODUCTION
198. 8.2 FUNDAMENTALS OF FRACTURE
199. 8.3 DUCTILE FRACTURE
200. 8.4 BRITTLE FRACTURE
201. 8.5 PRINCIPLES OF FRACTURE MECHANICS
202. 8.6 FRACTURE TOUGHNESS TESTING
203. 8.7 CYCLIC STRESSES
204. 8.8 THE S–N CURVE
205. 8.9 CRACK INITIATION AND PROPAGATION
206. 8.10 FACTORS THAT AFFECT FATIGUE LIFE
207. 8.11 ENVIRONMENTAL EFFECTS
208. 8.12 GENERALIZED CREEP BEHAVIOR
209. 8.13 STRESS AND TEMPERATURE EFFECTS
210. 8.14 DATA EXTRAPOLATION METHODS
211. 8.15 ALLOYS FOR HIGH-TEMPERATURE USE
212. Chapter 9 Phase Diagrams
213. Practice and Homework Problems
214. Questions and Problems
215. Fundamentals of Engineering Questions and Problems
216. Summary and Study Guide
217. Equation Summary
218. List of Symbols
219. Important Terms and Concepts
220. Study Resources

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