Introduction to the thermodynamics of materials:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York, NY [u.a.]
Taylor & Francis
2008
|
| Ausgabe: | 5th ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 618 S. graph. Darst. 1 CD-ROM (12 cm) |
| ISBN: | 9781591690436 1591690439 |
Internformat
MARC
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| 100 | 1 | |a Gaskell, David R. |d 1940-2013 |e Verfasser |0 (DE-588)13844918X |4 aut | |
| 245 | 1 | 0 | |a Introduction to the thermodynamics of materials |c David R. Gaskell |
| 250 | |a 5th ed. | ||
| 264 | 1 | |a New York, NY [u.a.] |b Taylor & Francis |c 2008 | |
| 300 | |a XV, 618 S. |b graph. Darst. |e 1 CD-ROM (12 cm) | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Materiales - Propiedades Térmicas | |
| 650 | 4 | |a Metallurgy | |
| 650 | 4 | |a Thermodynamics | |
| 650 | 4 | |a Materials |x Thermal properties | |
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Datensatz im Suchindex
| _version_ | 1805074170731560960 |
|---|---|
| adam_text |
Preface
xiii
1
Introduction
and Definition of Terms
1
1.1
Introduction
1
1.2
The Concept of State
1
1.3
Simple Equilibrium
4
1.4
The Equation of State of an Ideal Gas
5
1.5
The Units of Energy and Work
8
1.6
Extensive and Intensive Properties
8
1.7
Phase Diagrams and Thermodynamic Components
9
1.8
Numerical Examples
12
2
The First Law of Thermodynamics
15
2.1
Introduction
15
2.2
The Relationship between Heat and Work
16
2.3
Internal Energy and the First Law of Thermodynamics
17
2.4
Constant-Volume Processes
21
2.5
Constant-Pressure Processes and the Enthalpy
H
21
2.6
Heat Capacity
21
2.7
Reversible Adiabatic Processes
25
2.8
Reversible Isothermal Pressure or Volume Changes
of an Ideal Gas
27
2.9
Summary
28
2.10
Numerical Examples
29
Problems
34
3
The Second Law of Thermodynamics
37
3.1
Introduction
37
3.2
Spontaneous or Natural Processes
38
3.3
Entropy and the Quantification of Irreversibility
39
3.4
Reversible Processes
40
3.5
An Illustration of Irreversible and Reversible Processes
41
3.6
Entropy and Reversible Heat
43
3.7
The Reversible Isothermal Compression of an Ideal Gas
46
3.8
The Reversible Adiabatic Expansion of an Ideal Gas
47
3.9
Summary Statements
48
rii
viii
I Contents
3.10
The Properties of Heat Engines
48
3.11
The Thermodynamic Temperature Scale
51
3.12
The Second Law of Thermodynamics
53
3.13
Maximum Work
55
3.14
Entropy and the Criterion for Equilibrium
57
3.15
The Combined Statement of the First
and Second Laws of Thermodynamics
58
3.16
Summary
59
3.17
Numerical Examples
61
Problems
66
4
The Statistical Interpretation of Entropy
69
4.1
Introduction
69
4.2
Entropy and Disorder on an Atomic Scale
70
4.3
The Concept of
Microstate 71
4.4
Determination of the Most Probable
Microstate 72
4.5
The Influence of Temperature
76
4.6
Thermal Equilibrium and the Boitzmann Equation
78
4.7
Heat Flow and the Production of Entropy
79
4.8
Configurational Entropy and Thermal Entropy
80
4.9
Summary
83
4.10
Numerical Examples
84
Problems
86
5
Auxiliary Functions
87
5.1
Introduction
87
5.2
The Enthalpy
H
88
5.3
The Helmholtz Free Energy A
89
5.4
The Gibbs Free Energy
G
94
5.5
Summary of the Equations for a Closed System
95
5.6
The Variation of the Composition and Size of the System
95
5.7
The Chemical Potential
97
5.8
Thermodynamic Relations
98
5.9
Maxwell's Equations
98
5.10
The Upstairs-Downstairs-Inside-Out Formula
101
5.11
The Gibbs-Helmholtz Equation
102
5.12
Summary
103
5.13
Example of the Use of the Thermodynamic Relations
104
5.14
Numerical Example
105
Problems
107
6
Heat Capacity, Enthalpy, Entropy,
and the Third Law of Thermodynamics
109
6.1
Introduction
109
6.2
Theoretical Calculation of the Heat Capacity
110
6.3
The Empirical Representation of Heat Capacities
114
Contents
I
ix
6.4
Enthalpy as a Function of Temperature
and Composition
115
6.5
The Dependence of Entropy on Temperature and
the Third Law of Thermodynamics
124
6.6
Experimental Verification of the Third Law
127
6.7
The Influence of Pressure on Enthalpy and Entropy
133
6.8
Summary
135
6.9
Numerical Examples
135
Problems
147
7
Phase Equilibrium in a One-Component System
149
7.1
Introduction
149
7.2
The Variation of Gibbs Free Energy
with Temperature at Constant Pressure
150
7.3
The Variation of Gibbs Free Energy
with Pressure at Constant Temperature
157
7.4
Gibbs Free Energy as a Function of Temperature
and Pressure
159
7.5
Equilibrium between the Vapor Phase and
a Condensed Phase
160
7.6
Graphical Representation of Phase Equilibria
in a One-Component System
162
7.7
Solid-Solid Equilibria
168
7.8
Summary
171
Numerical Examples
172
Problems
175
8
The Behavior of Gases
177
8.1
Introduction
177
8.2
The P-V-T Relationships of Gases
177
8.3
Deviations from Ideality and Equations of State
for Real Gases
180
8.4
The van
der Waals
Gas 182
8.5
Other Equations of State for
Nonideal
Gases
191
8.6
The Thermodynamic Properties of Ideal Gases
and Mixtures of Ideal Gases
192
8.7
The Thermodynamic Treatment of
Nonideal
Gases
198
8.8
Summary
204
8.9
Numerical Examples
206
Problems
208
9
The Behavior of Solutions
211
9.1
Introduction
211
9.2
Raoult's Law and Henry's Law
211
9.3
The Thermodynamic Activity of a Component
in Solution
215
I Contents
9.4
The Gibbs-Duhem Equation
216
9.5
The Gibbs Free Energy of Formation of a Solution
218
9.6
The Properties of
Raoultian
Ideal Solutions
221
9.7 Nonideal
Solutions
226
9.8
Application of the Gibbs-Duhem Relation to
the Determination of Activity
229
9.9
Regular Solutions
240
9.10
A Statistical Model of Solutions
245
9.11
Subregular Solutions
252
9.12
Summary
254
9.13
Numerical Examples
257
Problems
259
10
Gibbs Free Energy Composition and Phase Diagrams
of Binary Systems
263
10.1
Introduction
263
10.2
Gibbs Free Energy and Thermodynamic Activity
264
10.3
The Gibbs Free Energy of Formation
of Regular Solutions
266
10.4
Criteria for Phase Stability in Regular Solutions
268
10.5
Liquid and Solid Standard States
273
10.6
Phase Diagrams, Gibbs Free Energy, and
Thermodynamic Activity
283
10.7
The Phase Diagrams of Binary Systems
That Exhibit Regular Solution Behavior
in the Liquid and Solid States
292
10.8
Summary
298
10.9
Numerical Example
299
Problems
301
11
Reactions Involving Gases
305
11.1
Introduction
305
11.2
Reaction Equilibrium in a Gas Mixture
and the Equilibrium Constant
306
11.3
The Effect of Temperature on the Equilibrium Constant
311
11.4
The Effect of Pressure on the Equilibrium Constant
312
11.5
Reaction Equilibrium as a Compromise
between Enthalpy and Entropy
314
11.6
Reaction Equilibrium in the System
ЅОг^-ЅОз^-Ог^)
316
11.7
Equilibrium in HgO-Hs and CO2-CO Mixtures
321
11.8
Summary
323
11.9
Numerical Examples
324
Problems
335
Contents
I
xi
12
Reactions Involving Pure Condensed Phases
and a Gaseous Phase
337
12.1
Introduction
337
12.2
Reaction Equilibrium in a System Containing
Pure Condensed Phases and a Gas Phase
338
12.3
The Variation of the Standard Gibbs Free Energy
Change with Temperature
343
12.4
Ellingham Diagrams
346
12.5
The Effect of Phase Transformations
353
12.6
The Oxides of Carbon
358
12.7
Graphical Representation of Equilibria
in the System Metal-Carbon-Oxygen
365
12.8
Summary
368
12.9
Numerical Examples
369
Problems
380
13
Reaction Equilibria in Systems Containing Components
in Condensed Solution
383
13.1
Introduction
383
13.2
The Criteria for Reaction Equilibrium in Systems
Containing Components in Condensed Solution
385
13.3
Alternative Standard States
393
13.4
The Gibbs Phase Rule
399
13.5
Binary Systems Containing Compounds
417
13.6
Graphical Representation of Phase Equilibria
429
13.7
The Formation of Oxide Phases
of Variable Composition
437
13.8
The Solubility of Gases in Metals
446
13.9
Solutions Containing Several Dilute Solutes
450
13.10
Summary
460
13.11
Numerical Examples
462
Problems
470
14
Phase Diagrams for Binary Systems in Pressure-Temperature-
Composition Space
475
14.1
Introduction
475
14.2
A Binary System Exhibiting Complete Mutual Solubility
of the Components in the Solid and Liquid States
475
14.3
A Binary System Exhibiting Complete Mutual Solubility
in the Solid and Liquid States and Showing Minima
on the Melting, Boiling, and Sublimation Curves
480
14.4
A Binary System Containing a Eutectic Equilibrium
and Having Complete Mutual Solubility in the Liquid
485
xii
I Contents
14.5
A Binary System Containing a Peritectic Equilibrium
and Having Complete Mutual Solubility
in the Liquid State
493
14.6
Phase Equilibrium in a Binary System Containing
an Intermediate
y
Phase That Melts, Sublimes,
and Boils Congruently
501
14.7
Phase Equilibrium in a Binary System Containing
an Intermediate
y
Phase That Melts and Sublimes
Congruently and Boils Incongruently
508
14.8
Phase Equilibrium in a Binary System with a Eutectic
and One Component That Exhibits Allotropy
513
14.9
A Binary Eutectic System in Which Both
Components Exhibit Allotropy
517
14.10
Phase Equilibrium at Low Pressure:
The Cadmium-Zinc System
524
14.11
Phase Equilibrium at High Pressure:
The
МагОА^Оз-гЅЈОг-ЅЈОг
System
525
14.12
Summary
531
15
Electrochemistry
533
15.1
Introduction
533
15.2
The Relationship between Chemical and
Electrical Driving Forces
535
15.3
The Effect of Concentration on EMF
540
15.4
Formation Cells
541
15.5
Concentration Cells
544
15.6
The Temperature Coefficient of the EMF
549
15.7
Heat Effects
551
15.8
The Thermodynamics of Aqueous Solutions
552
15.9
The Gibbs Free Energy of Formation of Ions and
Standard Reduction Potentials
555
15.10
Pourbaix Diagrams
564
15.11
Summary
574
15.12
Numerical Examples
576
Problems
579
Appendices
A Selected Thermodynamic and Thermochemical Data
581
В
Exact Differential Equations
589
С
The Generation of Auxiliary Functions
as Legendre Transformations
591
Nomenclature
599
Answers
603
Index
615 |
| adam_txt |
Preface
xiii
1
Introduction
and Definition of Terms
1
1.1
Introduction
1
1.2
The Concept of State
1
1.3
Simple Equilibrium
4
1.4
The Equation of State of an Ideal Gas
5
1.5
The Units of Energy and Work
8
1.6
Extensive and Intensive Properties
8
1.7
Phase Diagrams and Thermodynamic Components
9
1.8
Numerical Examples
12
2
The First Law of Thermodynamics
15
2.1
Introduction
15
2.2
The Relationship between Heat and Work
16
2.3
Internal Energy and the First Law of Thermodynamics
17
2.4
Constant-Volume Processes
21
2.5
Constant-Pressure Processes and the Enthalpy
H
21
2.6
Heat Capacity
21
2.7
Reversible Adiabatic Processes
25
2.8
Reversible Isothermal Pressure or Volume Changes
of an Ideal Gas
27
2.9
Summary
28
2.10
Numerical Examples
29
Problems
34
3
The Second Law of Thermodynamics
37
3.1
Introduction
37
3.2
Spontaneous or Natural Processes
38
3.3
Entropy and the Quantification of Irreversibility
39
3.4
Reversible Processes
40
3.5
An Illustration of Irreversible and Reversible Processes
41
3.6
Entropy and Reversible Heat
43
3.7
The Reversible Isothermal Compression of an Ideal Gas
46
3.8
The Reversible Adiabatic Expansion of an Ideal Gas
47
3.9
Summary Statements
48
rii
viii
I Contents
3.10
The Properties of Heat Engines
48
3.11
The Thermodynamic Temperature Scale
51
3.12
The Second Law of Thermodynamics
53
3.13
Maximum Work
55
3.14
Entropy and the Criterion for Equilibrium
57
3.15
The Combined Statement of the First
and Second Laws of Thermodynamics
58
3.16
Summary
59
3.17
Numerical Examples
61
Problems
66
4
The Statistical Interpretation of Entropy
69
4.1
Introduction
69
4.2
Entropy and Disorder on an Atomic Scale
70
4.3
The Concept of
Microstate 71
4.4
Determination of the Most Probable
Microstate 72
4.5
The Influence of Temperature
76
4.6
Thermal Equilibrium and the Boitzmann Equation
78
4.7
Heat Flow and the Production of Entropy
79
4.8
Configurational Entropy and Thermal Entropy
80
4.9
Summary
83
4.10
Numerical Examples
84
Problems
86
5
Auxiliary Functions
87
5.1
Introduction
87
5.2
The Enthalpy
H
88
5.3
The Helmholtz Free Energy A
89
5.4
The Gibbs Free Energy
G
94
5.5
Summary of the Equations for a Closed System
95
5.6
The Variation of the Composition and Size of the System
95
5.7
The Chemical Potential
97
5.8
Thermodynamic Relations
98
5.9
Maxwell's Equations
98
5.10
The Upstairs-Downstairs-Inside-Out Formula
101
5.11
The Gibbs-Helmholtz Equation
102
5.12
Summary
103
5.13
Example of the Use of the Thermodynamic Relations
104
5.14
Numerical Example
105
Problems
107
6
Heat Capacity, Enthalpy, Entropy,
and the Third Law of Thermodynamics
109
6.1
Introduction
109
6.2
Theoretical Calculation of the Heat Capacity
110
6.3
The Empirical Representation of Heat Capacities
114
Contents
I
ix
6.4
Enthalpy as a Function of Temperature
and Composition
115
6.5
The Dependence of Entropy on Temperature and
the Third Law of Thermodynamics
124
6.6
Experimental Verification of the Third Law
127
6.7
The Influence of Pressure on Enthalpy and Entropy
133
6.8
Summary
135
6.9
Numerical Examples
135
Problems
147
7
Phase Equilibrium in a One-Component System
149
7.1
Introduction
149
7.2
The Variation of Gibbs Free Energy
with Temperature at Constant Pressure
150
7.3
The Variation of Gibbs Free Energy
with Pressure at Constant Temperature
157
7.4
Gibbs Free Energy as a Function of Temperature
and Pressure
159
7.5
Equilibrium between the Vapor Phase and
a Condensed Phase
160
7.6
Graphical Representation of Phase Equilibria
in a One-Component System
162
7.7
Solid-Solid Equilibria
168
7.8
Summary
171
Numerical Examples
172
Problems
175
8
The Behavior of Gases
177
8.1
Introduction
177
8.2
The P-V-T Relationships of Gases
177
8.3
Deviations from Ideality and Equations of State
for Real Gases
180
8.4
The van
der Waals
Gas 182
8.5
Other Equations of State for
Nonideal
Gases
191
8.6
The Thermodynamic Properties of Ideal Gases
and Mixtures of Ideal Gases
192
8.7
The Thermodynamic Treatment of
Nonideal
Gases
198
8.8
Summary
204
8.9
Numerical Examples
206
Problems
208
9
The Behavior of Solutions
211
9.1
Introduction
211
9.2
Raoult's Law and Henry's Law
211
9.3
The Thermodynamic Activity of a Component
in Solution
215
I Contents
9.4
The Gibbs-Duhem Equation
216
9.5
The Gibbs Free Energy of Formation of a Solution
218
9.6
The Properties of
Raoultian
Ideal Solutions
221
9.7 Nonideal
Solutions
226
9.8
Application of the Gibbs-Duhem Relation to
the Determination of Activity
229
9.9
Regular Solutions
240
9.10
A Statistical Model of Solutions
245
9.11
Subregular Solutions
252
9.12
Summary
254
9.13
Numerical Examples
257
Problems
259
10
Gibbs Free Energy Composition and Phase Diagrams
of Binary Systems
263
10.1
Introduction
263
10.2
Gibbs Free Energy and Thermodynamic Activity
264
10.3
The Gibbs Free Energy of Formation
of Regular Solutions
266
10.4
Criteria for Phase Stability in Regular Solutions
268
10.5
Liquid and Solid Standard States
273
10.6
Phase Diagrams, Gibbs Free Energy, and
Thermodynamic Activity
283
10.7
The Phase Diagrams of Binary Systems
That Exhibit Regular Solution Behavior
in the Liquid and Solid States
292
10.8
Summary
298
10.9
Numerical Example
299
Problems
301
11
Reactions Involving Gases
305
11.1
Introduction
305
11.2
Reaction Equilibrium in a Gas Mixture
and the Equilibrium Constant
306
11.3
The Effect of Temperature on the Equilibrium Constant
311
11.4
The Effect of Pressure on the Equilibrium Constant
312
11.5
Reaction Equilibrium as a Compromise
between Enthalpy and Entropy
314
11.6
Reaction Equilibrium in the System
ЅОг^-ЅОз^-Ог^)
316
11.7
Equilibrium in HgO-Hs and CO2-CO Mixtures
321
11.8
Summary
323
11.9
Numerical Examples
324
Problems
335
Contents
I
xi
12
Reactions Involving Pure Condensed Phases
and a Gaseous Phase
337
12.1
Introduction
337
12.2
Reaction Equilibrium in a System Containing
Pure Condensed Phases and a Gas Phase
338
12.3
The Variation of the Standard Gibbs Free Energy
Change with Temperature
343
12.4
Ellingham Diagrams
346
12.5
The Effect of Phase Transformations
353
12.6
The Oxides of Carbon
358
12.7
Graphical Representation of Equilibria
in the System Metal-Carbon-Oxygen
365
12.8
Summary
368
12.9
Numerical Examples
369
Problems
380
13
Reaction Equilibria in Systems Containing Components
in Condensed Solution
383
13.1
Introduction
383
13.2
The Criteria for Reaction Equilibrium in Systems
Containing Components in Condensed Solution
385
13.3
Alternative Standard States
393
13.4
The Gibbs Phase Rule
399
13.5
Binary Systems Containing Compounds
417
13.6
Graphical Representation of Phase Equilibria
429
13.7
The Formation of Oxide Phases
of Variable Composition
437
13.8
The Solubility of Gases in Metals
446
13.9
Solutions Containing Several Dilute Solutes
450
13.10
Summary
460
13.11
Numerical Examples
462
Problems
470
14
Phase Diagrams for Binary Systems in Pressure-Temperature-
Composition Space
475
14.1
Introduction
475
14.2
A Binary System Exhibiting Complete Mutual Solubility
of the Components in the Solid and Liquid States
475
14.3
A Binary System Exhibiting Complete Mutual Solubility
in the Solid and Liquid States and Showing Minima
on the Melting, Boiling, and Sublimation Curves
480
14.4
A Binary System Containing a Eutectic Equilibrium
and Having Complete Mutual Solubility in the Liquid
485
xii
I Contents
14.5
A Binary System Containing a Peritectic Equilibrium
and Having Complete Mutual Solubility
in the Liquid State
493
14.6
Phase Equilibrium in a Binary System Containing
an Intermediate
y
Phase That Melts, Sublimes,
and Boils Congruently
501
14.7
Phase Equilibrium in a Binary System Containing
an Intermediate
y
Phase That Melts and Sublimes
Congruently and Boils Incongruently
508
14.8
Phase Equilibrium in a Binary System with a Eutectic
and One Component That Exhibits Allotropy
513
14.9
A Binary Eutectic System in Which Both
Components Exhibit Allotropy
517
14.10
Phase Equilibrium at Low Pressure:
The Cadmium-Zinc System
524
14.11
Phase Equilibrium at High Pressure:
The
МагОА^Оз-гЅЈОг-ЅЈОг
System
525
14.12
Summary
531
15
Electrochemistry
533
15.1
Introduction
533
15.2
The Relationship between Chemical and
Electrical Driving Forces
535
15.3
The Effect of Concentration on EMF
540
15.4
Formation Cells
541
15.5
Concentration Cells
544
15.6
The Temperature Coefficient of the EMF
549
15.7
Heat Effects
551
15.8
The Thermodynamics of Aqueous Solutions
552
15.9
The Gibbs Free Energy of Formation of Ions and
Standard Reduction Potentials
555
15.10
Pourbaix Diagrams
564
15.11
Summary
574
15.12
Numerical Examples
576
Problems
579
Appendices
A Selected Thermodynamic and Thermochemical Data
581
В
Exact Differential Equations
589
С
The Generation of Auxiliary Functions
as Legendre Transformations
591
Nomenclature
599
Answers
603
Index
615 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Gaskell, David R. 1940-2013 |
| author_GND | (DE-588)13844918X |
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| dewey-search | 620.1/1296 |
| dewey-sort | 3620.1 41296 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Physik Werkstoffwissenschaften / Fertigungstechnik |
| edition | 5th ed. |
| format | Book |
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| illustrated | Illustrated |
| index_date | 2024-07-02T21:41:17Z |
| indexdate | 2024-07-20T05:21:15Z |
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| isbn | 9781591690436 1591690439 |
| language | English |
| lccn | 2008001951 |
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| spelling | Gaskell, David R. 1940-2013 Verfasser (DE-588)13844918X aut Introduction to the thermodynamics of materials David R. Gaskell 5th ed. New York, NY [u.a.] Taylor & Francis 2008 XV, 618 S. graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Materiales - Propiedades Térmicas Metallurgy Thermodynamics Materials Thermal properties Werkstoff (DE-588)4065579-9 gnd rswk-swf Thermodynamik (DE-588)4059827-5 gnd rswk-swf Werkstoffkunde (DE-588)4079184-1 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Werkstoff (DE-588)4065579-9 s Thermodynamik (DE-588)4059827-5 s DE-604 Werkstoffkunde (DE-588)4079184-1 s 1\p DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016672878&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Gaskell, David R. 1940-2013 Introduction to the thermodynamics of materials Materiales - Propiedades Térmicas Metallurgy Thermodynamics Materials Thermal properties Werkstoff (DE-588)4065579-9 gnd Thermodynamik (DE-588)4059827-5 gnd Werkstoffkunde (DE-588)4079184-1 gnd |
| subject_GND | (DE-588)4065579-9 (DE-588)4059827-5 (DE-588)4079184-1 (DE-588)4123623-3 |
| title | Introduction to the thermodynamics of materials |
| title_auth | Introduction to the thermodynamics of materials |
| title_exact_search | Introduction to the thermodynamics of materials |
| title_exact_search_txtP | Introduction to the thermodynamics of materials |
| title_full | Introduction to the thermodynamics of materials David R. Gaskell |
| title_fullStr | Introduction to the thermodynamics of materials David R. Gaskell |
| title_full_unstemmed | Introduction to the thermodynamics of materials David R. Gaskell |
| title_short | Introduction to the thermodynamics of materials |
| title_sort | introduction to the thermodynamics of materials |
| topic | Materiales - Propiedades Térmicas Metallurgy Thermodynamics Materials Thermal properties Werkstoff (DE-588)4065579-9 gnd Thermodynamik (DE-588)4059827-5 gnd Werkstoffkunde (DE-588)4079184-1 gnd |
| topic_facet | Materiales - Propiedades Térmicas Metallurgy Thermodynamics Materials Thermal properties Werkstoff Thermodynamik Werkstoffkunde Lehrbuch |
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