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Structural Analysis of Printed Circuit Board Systems - Peter A. Engel
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Structural Analysis of Printed Circuit Board Systems - new book

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Structural Analysis of Printed Circuit Board Systems - Peter A. Engel
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Structural Analysis of Printed Circuit Board Systems - new book

ISBN: 9781461209157

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Structural Analysis of Printed Circuit Board Systems - new book

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Structural Analysis of Printed Circuit Board Systems - new book

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Structural Analysis of Printed Circuit Board Systems - Peter A. Engel
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Peter A. Engel:
Structural Analysis of Printed Circuit Board Systems - new book

2012, ISBN: 9781461209157

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Details of the book - Structural Analysis of Printed Circuit Board Systems


EAN (ISBN-13): 9781461209157
Publishing year: 2012
Publisher: Springer New York

Book in our database since 2017-01-09T08:25:41-05:00 (New York)
Detail page last modified on 2023-09-13T10:40:41-04:00 (New York)
ISBN/EAN: 9781461209157

ISBN - alternate spelling:
978-1-4612-0915-7
Alternate spelling and related search-keywords:
Book author: engel peter
Book title: circuit analysis, structural analysis, system board


Information from Publisher

Author: Peter A. Engel
Title: Mechanical Engineering Series; Structural Analysis of Printed Circuit Board Systems
Publisher: Springer; Springer US
291 Pages
Publishing year: 2012-12-06
New York; NY; US
Language: English
149,79 € (DE)
154,00 € (AT)
177,00 CHF (CH)
Available
XIX, 291 p.

EA; E107; eBook; Nonbooks, PBS / Physik, Astronomie/Mechanik, Akustik; Klassische Mechanik; Verstehen; Sensor; deformation; elasticity; fatigue; interferometry; material; modeling; structural analysis; testing; transistor; C; Classical Mechanics; Characterization and Evaluation of Materials; Electronics and Microelectronics, Instrumentation; Classical Mechanics; Characterization and Analytical Technique; Electronics and Microelectronics, Instrumentation; Engineering; Werkstoffprüfung; Elektronik; BB

1. Elements of Structural Analysis.- 1. Rods.- 2. Beams.- 2.1. Flexure.- 2.2. Beams on Elastic Foundation.- 2.3. Torsion.- 2.4. Frames.- 3. Plates.- 3.1. Cylindrical Bending.- 3.2. Pure Bending.- 3.3. Circular Plates.- 3.4. Rectangular Plates in Flexure.- 4. Thermal Stress.- 4.1. One-Dimensional Treatment: Bimaterial Rods.- 4.2. Timoshenko’s Formula for Thermal Bending of Bimaterial Circular Plates.- 5. Plastic Beam Deformation.- 6. Energy Methods in Structural Analysis.- 7. Experimental Methods of Analysis.- 7.1. Load Testers.- 7.2. Strain Gauges.- 7.3. Capacitance Measurement.- 7.4. Fiberoptic Probe/Photodiode Measurement.- 7.5. Photoelasticity.- 7.6. Holographic Interferometry.- 7.7. Piezo-electric Stress Sensors.- 7.8. Moire Interferometry.- 7.9. Electrical Resistance Method.- References.- 2. Finite Element Analysis.- 1. Preliminaries.- 2. Direct Stiffness Matrix Approach.- 3. The Principle of Minimum Potential Energy.- 4. Element Types.- 5. Finite Element Dynamic Analysis.- 6. Stress and Strain Calculations.- 7. Structural Codes.- 8. Steps in the Use of Finite Element Analysis.- References.- 3. Components, Data, and Testing.- 1. Modules.- 2. Circuit Cards and Boards.- 2.1. General Description.- 2.2. Properties of Laminated Construction.- 3. Pin Leads of PGA Modules.- 4. Strength of Compliant Leads in Surface-Mount Construction.- 5. Stiffness of Compliant Leads.- 6. Solder Strength.- References.- 4. Leadless Chip Carriers.- 1. Loads and Materials.- 2. Thermal Stress Analysis.- 3. The Influence of Solder Joint Shape.- 4. Constitutive Equation for Solder Mount.- 5. Conclusions.- 6. Exercises and Questions.- References.- 5. Thermal Stress in Pin-Grid Arrays: Primary Analysis of Pins.- 1. Introduction.- 2. Elastic Foundation Modulus of a Soldered Pin.- 3. Elastic Foundation Treatment for the Embedded Pin.- 4. Solder Pressure Calculation.- 5. Plastic Analysis of the Pin.- 6. Axial Pin Force Due to Flexure.- 7. A Magnified-Scale Experiment.- 8. Conclusions.- 9. Exercises and Questions.- References.- 6. Thermal Stress in Pin-Grid Arrays: Interaction Between Module and Circuit Card.- 1. Pin Force Analysis Due to Module and Card Bending.- 2. Influence of Pin-End Moments.- 3. Influence of the Primary Axial Pin Forces.- 4. Influence of Secondary Axial Pin Forces.- 5. Solution of the System of Equations.- 6. Module and Card Stretch Due to Pin Shear.- 7. System Reduction Factor.- 8. Conclusions.- 9. Exercises and Questions.- References.- 7. Compliant Leaded Systems: The Local Assembly.- 1. Experimental Studies.- 2. Analytical Model.- 3. Properties of Simple Local Assemblies.- 4. Discrete Local Assembly.- 5. Built-up (Multiple-Module) Local Assemblies.- 5.1. Stacked-Module Arrangement.- 5.2. Double-Sided Module Assemblies.- 5.3. Card Longer Than Module.- 5.4. Experimental Results.- 6. Orthotropy of Local Assemblies.- 7. Module Group Assemblies.- 8. Conclusions.- 9. Exercises and Questions.- References.- 8. Bending in Compliant Leaded Systems.- 1. The Role of Leads.- 2. Application of the Finite Element Method.- 3. Strip Method.- 4. Building Block Method.- 5. Hybrid Experimental/Analytical Method.- 6. Conclusions.- 7. Exercises and Questions.- References.- 9. Approximate Engineering Theory for the Twisting of Compliant Leaded Circuit Card/Module Systems.- 1. Fundamental Approach.- 2. Torsional Stiffness Calculation.- 3. Rectangular Cards with a Module.- 4. Module Clusters.- 5. Finite Element Check of the Approximate Theory.- 6. Conclusions.- 7. Exercises and Questions.- References.- 10. Analytical Theory and Experimental Work in Compliant Leaded Systems Subjected to Twisting.- 1. Analytical Theory.- 2. Torsional Stiffness.- 3. Experimental Study.- 4. Large Displacements.- 5. Approximate Large Displacement Analysis of a Square Card.- 6. Torsional Fatigue.- 7. Conclusions.- 8. Exercises and Questions.- References.- 11. Thermal Stresses in Compliant Leaded Systems.- 1. Motivation for Analysis.- 2. Analytical Lead Stress Computation.- 2.1. Plane Frame Analysis.- 2.2. Three-Dimensional Frame Analysis.- 3. Finite Element Thermal Stress Analysis.- 4. Stress Reduction in Compliant Leaded Solder Joints.- 5. Thermal Fatigue in Solder Joints of Compliant Leads.- 6. Thermal Cycling Reliability.- 7. Exercises and Questions.- References.- 12. Dynamic Response of Circuit Card Systems.- 1. General Considerations.- 2. Dynamic Load Levels and Measurement.- 3. Vibration Analysis in Circuit Card Systems.- 4. Transient Vibration and Shock Response.- 5. Fatigue Considerations.- 6. Conclusions.- 7. Exercises and Questions.- References.- 13. Plated Holes in Cards and Boards.- 1. Introduction.- 2. Thermal Stress from Module-to-Card Mismatch.- 3. Thermal Stress from Barrel-to-Board Mismatch.- 3.1. Failure Mechanisms.- 3.2. Structural Modeling.- 3.3. Finite Element Models.- 3.4. Copper Inner-Plane Bending.- 4. Experimental Methods.- 5. Vias.- 6. Conclusions.- 7. Exercises and Questions.- References.- 14. Assembly of Cards and Boards.- 1. Physical Description.- 2. ZIF Connector Actuation.- 3. Connector Contact.- 3.1. Contact Forces and Friction Regimes.- 3.2. Electrical Contact Resistance.- 3.3. Plating Ductility.- 3.4. Friction and Wear (Tribology).- 3.5. Contact Temperature.- 4. Dynamic Response.- 5. Thermal Stress.- 6. A Combined Permanent and Separable Connector System.- 7. Conclusions.- 8. Exercises and Questions.- References.- Author Index.

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