Diffraction Notes
Lambda Research, the materials laboratory portion of Lambda Technologies Group, has been publishing Diffraction Notes since 1987. Each issue details research and valuable information coming from our materials lab. If you want to learn details about residual stress measurement, crystallographic texture determination, fatigue strength, phase analysis or retained austenite, Diffraction Notes are a great educational resource. Sign up for our newsletter at the bottom of the page to be one of the first to know about our research.
Diffraction Note Number | Topic |
Simultaneous Determination of Residual Stress and Hardness in Steels | |
X-Ray Diffraction Determination of Subsurface Cold Work Distributions | |
Principal Residual Stress Determination | |
Retained Austenite Measurement | |
Residual Stress Distributions in Inconel 600 Tubing | |
Pole Figure Determination | |
Application of X-ray Diffraction Residual Stress Measurement to Shot Peened Surfaces | |
Problems with Non-Destructive Surface X-ray Diffraction Residual Stress Measurement, Part 1 | |
Problems with Non-Destructive Surface X-ray Diffraction Residual Stress Measurement, Part 2 | |
Problems with Non-Destructive Surface X-ray Diffraction Residual Stress Measurement, Part 3 | |
Relocation of Lambda Research Corporate Headquarters and Expansion of Facilities | |
Quantitative Phase Analysis of Ceramic Coatings | |
Quantitative Analysis of Trace Amounts of Quartz and Cristobalite | |
Analysis of Radially Symmetric Textures Using Partial Pole Figures | |
Effect of Prior Machining on Residual Stress in Welds | |
The Identification of Crystalline Phases in Boiler Scale Deposits by X-Ray Diffraction | |
Finite Element Correction for Stress Relaxation in Complex Geometries | |
Customized Literature Search Services for X-ray Diffraction Applications & MaterialsTechnology | |
Residual Stress Contour Mapping | |
Automated Measurement of Subsurface Residual Stress Distributions | |
Lambda’s Year in Review | |
Qualitative Phase Analysis of Nitrided Steels | |
Lambda’s Year in Review, 1998 | |
Minimizing Distortion in Machining | |
Efficiently Optimizing Manufacturing Processes Using Iterative Taguchi Analysis | |
Effect of Low Plasticity Burnishing (LPB®) on the HCF Life of IN718 | |
Automated Surface and Subsurface Residual Stress Measurement for Quality Assurance of Shot Peening | |
The Effect of Prior Cold Working on the Development of Tensile Residual Stress Following Bulk Deformation | |
Characterization of Tensile Residual Stresses in 7050-T7651 Aluminum Friction Stir Welds | |
Fatigue Life Improvement and Mitigation of Pitting Corrosion Damage of Friction Stir Welded 2219-T8751 Aluminum Alloy by Low Plasticity Burnishing | |
Measurement of Residual Stresses Using Ring-Core Technique | |
Characterization of the residual stress, corrosion fatigue strength and stress corrosion cracking behavior in shot peened and low plasticity burnished 300M landing gear steel | |
Determination of Volume Percent Retained Austenite by X-Ray Diffraction | |
Use of Residual Compression by Design | |
Incremental Ring-core Determination of the Principal Residual Stress in a Duplex Stainless Steel Centrifuge | |
Residual Stress and Corrosion Fatigue Testing of 7076-T6 Propeller Blades | |
Residual Stress and Stress Corrosion Cracking Characterization of LPB® Treated 316L Stainless Steel Weldments | |
Fatigue Strength Restoration Using Compressive Residual Stress on High Strength Stainless Steel | |
The Influence of Compressive Residual Stress on the Corrosion Fatigue Performance of Stainless Steels | |
Use of Engineered Compressive Residual Stresses to Mitigate Stress Corrosion Cracking and Corrosion Fatigue in Sensitized 5xxx Series Aluminum Alloy | |
Using LPB to Inhibit Stress Corrosion Cracking of Welded Stainless Steel Components | |
Mitigating SCC and Corrosion Fatigue of Sensitized 5083 Aluminum with Engineered Compressive Residual Stress | |
LPB for the Improvement of Crack Initiation Resistance, Damage Tolerance, and Fatigue Performance of Case Hardened Steels | |
Residual Stress and Retained Austenite in Carburized 8620H Steel Components (Part 1 of 2) | |
Using LPB to Inhibit Welded Stress Corrosion Cracking of Welded Stainless Steel Components | |
Optimizing Carburization of 8620H Steel Components (Part 2 of 2) | |
Improving the Fatigue Life of Ductile Cast Iron via Surface Enhancement | |
Improving the Fatigue Life of Threaded Fasteners via Surface Enhancement | |
Thermal Stability of Residual Stress in Titanium Nitride Coated Titanium | |
An Investigation of the Formation of Crack-like Intergranular Fissures in 7000 Series Aluminum by Grain Boundary Galvanic Corrosion | |
Fatigue Life Extension of Steam Turbine Alloy 450 Using Low Plasticity Burnishing | |
Fatigue Life Improvement of Additively Manufactured Superalloy Components |
