ADVANCED MATERIALS & PROCESSES | APRIL 2025 23 GET ENGAGED, GET INVOLVED, GET CONNECTED The ASM Residual Stress Technical Committee is an active group of ASM members from the materials and manufacturing community who are involved in researching and understanding residual stresses and addressing their impact. Committee projects include developing an ASM Handbook, producing a quarterly newsletter, and organizing conference programming. Members with similar interests are welcome to join. For more information, contact staff liaison Scott Henry, scott.henry@asminternational.org. method to new materials and geometries; and of course there is the possibility of using AI tools, trained on existing, high-quality data, for easier and cheaper prediction of LSP outcomes and benefits[9]. ~AM&P For more information: Niall Smyth, research fellow, Coventry University, Priory St., Coventry CV1 5FB, UK, +44.24.7688.7688, niall.smyth@coventry. ac.uk, www.coventry.ac.uk. References 1. R.M. White, Elastic Wave Generation by Electron Bombardment or Electromagnetic Wave Absorption, Journal of Applied Physics, 34(7), p 21232124, 1963, doi.org/10.1063/1.1729762. 2. P.J. Mallozi and B.P. Fairand, Altering Material Properties, U.S. Patent 3,850,698, 1974. 3. K. Langer, T.J. Spradlin, and M.E. Fitzpatrick, Finite Element Analysis of Laser Peening of Thin Aluminum Structures, Metals, 10(1), p 93, 2020, doi.org/10.3390/met10010093. 4. K. Langer, et al., High Strain-Rate Material Model Validation for Laser Peening Simulation, Journal of Engineering, 2015(13), p 97-160, 2015, doi.org/10.1049/joe.2015.0118. 5. S. Coratella, et al., Application of the Eigenstrain Approach to Predict the Residual Stress Distribution in Laser Shock Peened AA7050-T7451 Samples, Surface and Coatings Technology, 273(1), p 39-49, 2015, doi.org/10.1016/ j.surfcoat.2015.03.026. 6. S. Coratella, Evaluation of Residual Stress Fields after Laser Shock Peening Treatment of Aerospace Components, [Doctoral thesis, Coventry University, 2014], Pure Portal, https://pureportal. coventry.ac.uk/en/studentTheses/evaluation-of-residual-stress-fields-afterlaser-shock-peening-tr. 7. M. Pavan, et al., Fatigue Crack Growth in a Laser Shock Peened Residual Stress Field, International Journal of Fatigue, 123, p 157-167, 2019, doi.org/10.1016/j.ijfatigue.2019.01.020. 8. M. Leering, Mechanisms of Laser Shock Peening Residual Stress and the Influence on Life Enhancement, [Doctoral thesis, Coventry University, 2019], Pure Portal, https://pureportal.coventry.ac.uk/en/studentTheses/ mechanisms-of-laser-shock-peeningresidual-stress-and-the-influen. 9. J. Mathew, et al., Machine Learningbased Prediction and Optimisation System for Laser Shock Peening, Applied Sciences, 11(7), p 2888, 2021, doi.org/10.3390/app11072888. Simplify Your Search for Vendors Find the right solutions for your business. Search for products, research companies, connect with suppliers, and make confident purchasing decisions all in one place. To appear in the listings, visit AMPdirectory.com/addyourcompany
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