Electrical and radio engineering materials / Tareev B.M. . . [et al] , edited by Tareev B.M, translated by Ivanov P.S
Publication details: Moscow: MIR Publishers, c 1980.Description: 390 p. : ill. ; 23cmSubject(s): DDC classification:- 22 620.11 ELE
| Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
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Book Open Access
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Engineering Library | 620.11 ELE 1 (Browse shelf(Opens below)) | 1 | Available | 0027207 | |
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Book Open Access
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Engineering Library | 620.11 ELE 2 (Browse shelf(Opens below)) | 2 | Available | 0027229 | |
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Book Open Access
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Engineering Library | 620.11 ELE 3 (Browse shelf(Opens below)) | 3 | Available | 0027208 |
CONTENT
Part One: Conducting Materials
Chapter 1. Classification and Basic Properties
1.1 General
1.2 Resistivity and Conductivity
1.3 Thermal Conduction in Metals
1.4 Thermal Electromotive Force
1.5 Temperature Coefficient of Length
Etc.
Chapter 2. High-Conductivity Materials
2.1 Copper
2.2 Aluminum
2.3 Iron
2.4 Sodium
Chapter 3. Superconductors and Cry conductors
3.1 Super conductors
3.2 Cry conductors
Chapter 4. Various Materials
4.1 Tungsten
4.2 Molybdenum
4.3 Noble Metals
4.4 Nickel and Cobalt
4.5 Lead
4.6 Tin
Etc.
Chapter 5. Alloys, Solders, And Fluxes
5.1 High-Resistivity Alloys
5.2 Thermocouple Alloys
5.3 Strain-Gauge Alloys
5.4 Contact Materials
5.5 Solders and Fluxes
Chapter 6. Nonmetallic Conductors
6.1 Electrical Carbon Elements
6.2 Conductive and Resistive Pasts
6.3 Conducting Materials Of Extra high Thermal Endurance
Part Two: Semi Conducting Materials
Chapter 7. Principles of the Band Theory Of Solids
7.1 Energy Bands
7.2 Filling of Bands With Electrons. Electrical Properties of Solids
Etc
Chapter 8. Statistics Of Electrons in Semiconductors
8.1 Particle Energy Distribution . Distribution Functions
8.2 Free carrier Density in Degenerate and Nondegenerate Semi conductors
8.3 Free carrier Density Versus Temperature
Etc
Chapter 9. Electric Conduction in Semiconductors
9.1 Intrinsic and Extrinsic Conduction
9.2 Scattering and Mobility of free carriers
9.3 Temperature Dependence of conductivity
9.4 Electric conduction in High Fields
Chapter 10. Contact Phenomena in Semi conductors
10.1 Work function
10.2 Metal-Semiconductor Contact
10.3 Contact Between an n-Type and a p-Type Semiconductor Properties of a p-n Junction
10.4 Hetrojuction
Chapter 11 Electronic processes on the surface of semiconductors
11.1 Surface States
11.2 Near-Surface Space-Change Layer
11.3 Field Effect
Chapter 12 Optical and photoelectric phenomena in semiconductors
12.1 Semiconductor light absorption
12.2 Photoconduction
12.3Luminescence
Chapter 13 Thermoelectricity phenomena in semiconductors hall effect
13.1 Thermoelectric effects
13.2 Hall effect
Chapter 14 Production techniques
14.1 Germanium
14.2 Silicon
14.3 Selenium
14.4 Tellurium
Etc.
Part Three: Dielectric Materials
Chapter 15 Dielectric Polarization
15.1 Basic Definition
15.2 Polar and Nonpolar Dielectrics
15.3 Types of Polarization
15.4 Permittivity as a function of various factors
15.5 Permittivity of Composite Dielectrics
Etc.
Includes Bibliography p. 380-383 and index p. 384- 390
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