[31]
Changes in Residual Stresses induced by High Frequency Mechanical Impact Treatment (HFMI) under cyclic loading and their Influence on Fatigue
[33]
Development of residual stresses induced by deep rolling at an additive structure
[34]
Coverage and Peening Angle Effects in Shot Peening on HCF Performance of Ti-6Al-4V
[35]
Surface Residual Stress Relaxation Of Shot-Peened Induced Stresses On Steel Din 34crnimo6 Under Different Axial Loading
[36]
New Interferometric Technique Enables Hand-Held, 3D Analysis of Machined Surfaces
[37]
Preventing Stress Corrosion Cracking and Enhancing Corrosion-Fatigue Performance of Steel and Aluminum by Laser Peening; deployment on nuclear spent fuel canisters
[38]
Effects of Shot Peening on Surface Layer States and Fatigue Behavior in Experimental Batches of Enhanced Leaf Spring Steels
[39]
Experimental Assessment of the Effects of modified Stress Peening Treatments on Surface Layer States and Fatigue Behavior in Leaf Spring Steel 52CrV4Mo
[40]
Prediction of Residual Stress States after modified Shot Peening Treatments using Strain-Rate and Temperature-dependent Material Data
[41]
Acoustic cavitation peening in inaccessible areas
[42]
Development of a robotic controlled shot peening process for surface nanocrystallisation on Ti-6Al-4V component
[43]
Analytical Characterization of Inner Shot Peening Applied to Tubular Elements for Prediction of Compressive Residual Stress for Fatigue Life Enhancement
[44]
Application of shot peening to enhance precipitation hardening effect in aluminium alloys
[45]
Application of on-sight positron annihilation lifetime spectroscopy system as non-destructively shot peening evaluation technique
[46]
Shot peening and deep cold rolling of a single crystal nickel-based superalloy
[47]
Surface Mechanical Attrition Treatment effect on nitriding treatment of a Z38CDV5 (X37CrMoV5-1) martensitic steel
[48]
Improvement of fatigue property of A7075 aluminum alloy by laser peening with handheld laser device
[49]
Fatigue strength improvement of welded joints by means of shot peening and clean blasting
[50]
Optimization Of Shot Peening Parameters On Beta Titanium Alloy Ti10v-2fe-3al In Order To Improve Fatigue Behavior
[51]
Fatigue performance at 550°C of shot peened Inconel 718 additively manufactured by Laser-Powder Bed Fusion (L-PBF)
[52]
Development of a peening device with a handheld laser on a collaborative robot
[54]
The Nanoindentation Technique To Measure Residual Stress Induced By Laser Shock Peening
[56]
Dry Laser Peening: A New Laser Peening Technique using Femtosecond Laser Pulses
[57]
Application of Deep Learning to Predict Shot Peening Coverage
[58]
Shot Peening on All-solid-state Lithium Metal Battery for High-speed Charging
[59]
Dry Ice Blasting to Increase Fatigue Strength
[60]
Definition and impact on overlapping on the surface state after deep rolling of aluminium and steel alloys
[61]
Laser Shock Peening to enhance stress corrosion cracking and corrosion fatigue resistance in marine aluminium alloys
[62]
Compressive residual stress relaxation behavior of shot peened AISI4140 steel during first cycle of repeated loading
[63]
Microstructure evolution during direct laser peening of metals in femtosecond and picosecond regimes
[65]
Friction stir welds with enhanced fatigue strength and life via laser peening
[66]
Fatigue properties of high strength steel treated by laser peening with handled microchip lasers
[67]
Fatigue property of Shot peened Maraging Steel fabricated by Additive manufacturing
[68]
Influence Of Shot Peening Media And Parameters On Carburized Steel
[70]
Effects of Laser Shock Peening-induced residual stresses on fatigue life of anodized AA 7050-T7451 components
[71]
Bending Fatigue Resistance Of Duplex Peened Austempered Ductile Iron
[72]
Damage Tolerance Improvement of Load Bearing Metallic Structures via Laser Shock Peening
[73]
Using Laser Shock Peening to Enhance Metallic Additive Manufacturing Alloys
[74]
Work Hardening By Laser Shock Peening And Shot Peening On A Nickel-Based Single-Crystal Superalloy CMSX-4
[75]
The Effect Of Shot Peening On Additively Manufactured 316l Stainless Steel For The Marine Transportation Industry
[76]
Overview of Laser Shock Processing Development in South Africa: Building the Foundations
[77]
Application Of Laser Shock Peening On Nitrided Steel For Power Transmission Components
[78]
Fast Laser Shock Peening without coating
[79]
Fine, Hard, and High Density Ceramic Beads for Shot Peening
[80]
[81]
Tailoring laser shock peening induced anisotropic residual stress fields
[82]
Effect of surface treatment on the fatigue strength of additive manufactured Ti6Al4V alloy
[83]
Crystal Plasticity Evaluation of Laser Peening Strengthening Effects on High-Cycle Fatigue Properties of AA2195-T6 Friction Stir Welded Joints
[84]
Distortion Behaviors and Residual Stresses of Ti6Al4V Alloys with Thin Sections in Laser Peening
[85]
Shot Peening 4.0, State of The Art and Prospects of Process and Quality Management for Automated and Digitized Shot Peening
[86]
Bonding of Magnesium Alloy with Ceramics by Shot Peening
[87]
Analysis of the residual stress stability of high frequency mechanical impact (HFMI)-treated transverse stiffeners of mild steel (S355) and high strength steels (S700) under p (1/3) and straight-line shaped spectrum loading
[88]
A SED-based approach to predict the fatigue strength of notched and plain shot-peened parts
[89]
Cavitation Peening Using A Submerged Water Jet And A Pulsed Laser Comparing With Shot Peening
[90]
Analysis of surface integrity generated by hammer peening in Inconel 718
[91]
New Electronic Peening Intensity Sensor Theory and Experimental Validation
[92]
New Electronic Peening Intensity Sensor Comparison with Almen Arc Height Verification
[93]
New Electronic Peening Intensity Sensor for Pneumatic Needle Peening Repair Tools
[94]
Characterization of shot size and shape distributions for Industrial Shot Peening
[95]
A hybrid approach for simultaneous ultrasonic peening and polishing of selective laser melted Inconel 625 components
[96]
Effects of Advanced Mechanical Surface Treatments on Residual Stress, Microstructure and Mechanical Properties of a FeMnCoCrSiCu High Entropy Alloy
[97]
Controlling Surface Roughness Through Shot Media Size Distribution
[98]
Peening Intensity and Coverage Estimated by Simulation for Automotive Coil Spring
[99]
Impact of Vibratory Peening on the Surface Integrity of Cemented Steel E16NCD13
[100]
Shot peen forming pattern optimization to achieve cylindrical and saddle target shapes: the inverse problem
[101]
The effect of temperature and Almen intensity on surface integrity of AA2024-T351 strips during shot peening
[102]
DEM simulation of the movement of media and the velocity between the media and treated parts during the vibratory peening process
[103]
Effects of the vibratory peening parameters on Almen intensity using a machine with a vertical tub movement and spherical steel media
[104]
Novel Applications of Laser Shock Peening for Aerospace Applications
[105]
Rolling contact fatigue simulation considering surface integrities
[107]
Updated Theory Of The X-Ray Diffraction Residual Stress Measurement Comparing Cos-Alpha And Sin2psi Techniques – Biaxial Versus Triaxial Stress Field
[108]
Linking conventional surface roughness parameters and persistence: How Topological Data Analysis can help describe and distinguish shot peened surfaces
[109]
X-Ray Diffraction and Hole-Drilling residual stress measurements of shot peening treatments validated on a calibration bench
[110]
Shot Peening Characterization Using Gelsight 3d Measurement
[111]
Residual Stress Analysis By Contour Method Onto Cold Expansion Hole Assembly– Comparison With Fea
[112]
The Effect Of Shot Peening On Tribo-Corrosion Characteristics Of Additively Manufactured Ti-6Al-4V Used In The Marine Industry
[113]
Improvement of the fatigue life of lattice structures covered by a thin envelope for biomedical applications
[114]
Dry Laser Peening of Magnesium Alloy using Femtosecond Laser-driven Shock Wave
[115]
High cycle fatigue behavior of 316L stainless steel treated by ultrasonic SMAT
[116]
Repeatability of residual stress from shot peening assessed using hole-drilling
[117]
Evolution of the controlled shot peening process in the automotive field
[118]
Characterization Of Blasted Surfaces With Mesh-Based Parameters
[120]
Gradient shot peening for additive manufactured parts
[121]
Hybrid peening based surface treatments to enhance the fatigue performance of AM materials
[122]
S Numerical simulation of sand blasting on polymeric substrates
[123]
Surface patterning using customized shots
[P43]
Development Of Methods For The Predictive Assessment Of Residual Stresses Induced In Metallic Materials By Lsp