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3
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kenvlach
Materials
- Apr 12, 2000
- 2,514
ASM Int'l. has free sample chapters on-line from the more recently published ASM Handbooks and other books. Select the ASM Handbook volume or book title at then click on “Preview of a Chapter.”
Biological Corrosion Failures, from ASM Handbook Volume 11: Failure Analysis and Prevention, (2002).
Corrosion Resistance of Magnesium Alloys, from ASM Handbook Volume 13A: Corrosion: Fundamentals, Testing, and Protection (2003),
Corrosion of Hafnium and Hafnium Alloys [note: Hf is chemically similar to Zr] from ASM Handbook Volume 13B, Corrosion: Materials (2005).
Initial Oxidation [chemisorption & initial oxide film formation at either low temperatures or low pressures at high temperatures], from Introduction to High Temperature Oxidation and Corrosion (2004).
Investigation of a Low Voltage PWB CAF Failure from Microelectronic Failure Analysis Desk Reference 2002 Supplement.
“Conductive Anodic Filament (CAF)...metal migration occurred in the presence of moisture, ionic contamination and applied potential, which resulted in an electrical short”
Some Principles of Strength Designing for Turbine-Blade Protective Coatings [coating stresses, thermomechanical fatigue & spalling] from Protective Coatings for Turbine Blades (2002).
Introduction to Thermal Spray Processing from Handbook of Thermal Spray Technology (2004).
Introduction to Surface Engineering for Corrosion and Wear Resistance from Surface Engineering for Corrosion and Wear Resistance (2001).
Dependence of Thermal Sprayed Particle/substrate Interface Microstructure on Substrate Temperature [plasma sprayed Ni-Cr splats & effect of oxidation on surface wetting] from Thermal Spray 2003: Advancing the Science and Applying the Technology.
Introduction to Selection of Titanium Alloys [not a lot on corrosion, but I liked the aircraft alloy info] from Titanium: A Technical Guide, 2nd Edition (2000).
Overview of Biomaterials and Their Use in Medical Devices from Handbook of Materials for Medical Devices (2003).
Biomaterial requirements ideally include
“A biocompatible chemical composition to avoid adverse tissue reactions.
Excellent resistance to degradation (e.g., corrosion resistance for metals or resistance to biological degradation in polymers).
Acceptable strength to sustain cyclic loading endured by the joint.
A low modulus to minimize bone resorption.
High wear resistance to minimize wear debris generation.”
Let's Not Repeat History; Good Examples of Bad Ideas [wear & tissue response, corrosion, fracture from SCC] from Medical Device Materials (Proceedings...2003).
Biological Corrosion Failures, from ASM Handbook Volume 11: Failure Analysis and Prevention, (2002).
Corrosion Resistance of Magnesium Alloys, from ASM Handbook Volume 13A: Corrosion: Fundamentals, Testing, and Protection (2003),
Corrosion of Hafnium and Hafnium Alloys [note: Hf is chemically similar to Zr] from ASM Handbook Volume 13B, Corrosion: Materials (2005).
Initial Oxidation [chemisorption & initial oxide film formation at either low temperatures or low pressures at high temperatures], from Introduction to High Temperature Oxidation and Corrosion (2004).
Investigation of a Low Voltage PWB CAF Failure from Microelectronic Failure Analysis Desk Reference 2002 Supplement.
“Conductive Anodic Filament (CAF)...metal migration occurred in the presence of moisture, ionic contamination and applied potential, which resulted in an electrical short”
Some Principles of Strength Designing for Turbine-Blade Protective Coatings [coating stresses, thermomechanical fatigue & spalling] from Protective Coatings for Turbine Blades (2002).
Introduction to Thermal Spray Processing from Handbook of Thermal Spray Technology (2004).
Introduction to Surface Engineering for Corrosion and Wear Resistance from Surface Engineering for Corrosion and Wear Resistance (2001).
Dependence of Thermal Sprayed Particle/substrate Interface Microstructure on Substrate Temperature [plasma sprayed Ni-Cr splats & effect of oxidation on surface wetting] from Thermal Spray 2003: Advancing the Science and Applying the Technology.
Introduction to Selection of Titanium Alloys [not a lot on corrosion, but I liked the aircraft alloy info] from Titanium: A Technical Guide, 2nd Edition (2000).
Overview of Biomaterials and Their Use in Medical Devices from Handbook of Materials for Medical Devices (2003).
Biomaterial requirements ideally include
“A biocompatible chemical composition to avoid adverse tissue reactions.
Excellent resistance to degradation (e.g., corrosion resistance for metals or resistance to biological degradation in polymers).
Acceptable strength to sustain cyclic loading endured by the joint.
A low modulus to minimize bone resorption.
High wear resistance to minimize wear debris generation.”
Let's Not Repeat History; Good Examples of Bad Ideas [wear & tissue response, corrosion, fracture from SCC] from Medical Device Materials (Proceedings...2003).
