Papers presented at ICSP-14 in Milan, Italy in 2022
The articles below are archived in the shotpeener.com LIBRARY.
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Total articles: 61
Title | Author | Doc No. |
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| | | Further enhancing fatigue properties with HFMI by customized edge treatment |
J. Schubnell1, S. Fliegener1 and M. Farajian2 |
2022045 | Development of Residual Stresses Induced by Deep Rolling at an Additive Structure |
E. Mueller |
2022046 | Coverage and Peening Angle Effects in Shot Peening on HCF Performance of Ti-6Al-4V |
A. Jochen P. Fuhr1 B. Mahmoud Basha2, C. Manfred Wollmann2, D. Lothar Wagner2 1 Curtiss-Wright Surface Technologies/Metal Improvement Company, Germany 2 Institute of Materials Science and Engineering, TU Clausthal, Germany |
2022047 | Shot-peened induced residual stresses relaxation on steel DIN 34CrNiMo6 under different axial loading |
N. Leguinagoicoa1, J. Albizuri1 1 Mechanical Dept., Faculty of Engineering of Bilbao, University of the Basque Country |
2022048 | A New 3D Surface Characterization Method Is More Quantitative and Reproducible Than Traditional Peening Metrology |
J. Wheeler, K. Brown, and E. Novak 4D Technology Corporation, 3280 E. Hemisphere Loop, Tucson, AZ 85706, USA |
2022049 | Preventing Stress Corrosion Cracking and Enhancing Corrosion- Fatigue Performance of Steel and Aluminum by Laser Peening; deployment on nuclear spent fuel canisters. |
A Lloyd Hackel1, B. Jon Rankin1, C Matt Walter1, D Brent Dane1 1 Curtiss-Wright Surface Technologies, 222 Mountain Vista Parkway, Livermore, California, 94551, USA |
2022051 | Effects of Shot Peening on Surface Layer States and Fatigue Behavior in Experimental Batches of Enhanced Leaf Spring Steels |
A. Klumpp1, R. Elvira2, D. Dapprich3, S. Dietrich1, V. Schulze1 1 Institute for Applied Materials (IAM-WK), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 2 Sidenor I+D, S.A., Basauri, Spain 3 Stresstech GmbH, Rennerod, Germany |
2022052 | Experimental Assessment of the Effects of modified Stress Peening Treatments on Surface Layer States and Fatigue Behavior in Leaf Spring Steel 52CrV4Mo |
A. Klumpp1, C. Grau1, R. Rößler1, D. Dapprich2, S. Dietrich1, V. Schulze1 1 Institute for Applied Materials (IAM-WK), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany 2 Stresstech GmbH, Rennerod, Germany |
2022053 | Prediction of Residual Stress States after modified Shot Peening Treatments using Strain-Rate and Temperature-dependent Material Data |
A. Klumpp1, S. Klaus1, S. Dietrich1, V. Schulze1 1 Institute for Applied Materials (IAM-WK), Karlsruhe Institute of Technology (KIT), Karlsruhe, Germany |
2022054 | Surface nanocrystallisation on Ti-6Al-4V component with a robotic controlled shot peening process |
Yijun Liu1, David Wimpenny1, Ben Mcgrory2, Colin Mcgrory2 1. Manufacturing Technology Centre, Pilot Way, Coventry, CV7 9JU, UK, 2. Sandwell UK Ltd., 2 Foundry Place, Towcester, Northamptonshire, NN12 6FP, UK, |
2022055 | Analytical-Numerical Model to predict CRS created by Inner Shot Peening Applied on Small ID Tubes |
F. Martinez-Guerrero1, M.G. Ortiz-Lopez2 1 CIATEQ, Postgraduate Advanced Manufacturing, San Luis Potosí, Mexico 2 U. Politécnica SLP, San Luis Potosí, México |
2022056 | Application of shot peening to enhance precipitation hardening effect in aluminium alloys |
Libor Trškoa, Michal Jamborb, Ivo Šulákb, Sara Bagherifardc, Mario Guaglianoc, Otakar Bokůvkaa a Research Centre of the University of Zilina, www.researchcentre.sk, Zilina, Slovak Republic – [email protected], [email protected] b Institute |
2022057 | Application of on-site positron annihilation lifetime spectroscopy system as non-destructively shot peening evaluation technique |
N. Uesugi1, M. Yamawaki2, K. Hattori1, Y. Watanabe1* 1. Toyo Seiko Co., Ltd., Japan 2 National Institute of Advanced Industrial Science and Technology, Japan |
2022058 | Shot peening and deep cold rolling of a single crystal nickel superalloy |
I. Bogachev1, K.M. Knowles1, G. Gibson2 1 University of Cambridge, Department of Materials Science and Metallurgy, 27 Charles Babbage Road, Cambridge, CB3 0FS, UK – [email protected], [email protected] 2 Rolls-Royce plc, PO Box 31, Derby, DE24 8BJ, UK – grant |
2022059 | Improvement of fatigue property of A7075 aluminum alloy by laser peening with handheld laser device |
K. Masaki1, Y. Sano2,3,4, Y. Mizuta3 and S. Tamaki4 1 Okinawa College, National Institute of Technology, JAPAN 2 Institute for Molecular Science, Okazaki, JAPAN 3 SANKEN, Osaka University, JAPAN 4 LAcubed Co. Ltd., Yokohama, JAPAN |
2022060 | Fatigue strength improvement of welded joints by means of shot peening and clean blasting |
Thomas Nitschke-Pagel, Klaus Dilger, Hamdollah Eslami Institut für Füge- und Schweißtechnik, Technische Universität Braunschweig,Germany |
2022061 | Optimization of shot peening parameters on beta titanium alloy Ti10V-2Fe-3Al in order to improve fatigue behaviour |
M.R. Chinia, C. Didesb, T. Billot c, N. Guillemot d a, b IRT M2P, 4 rue Augustin Fresnel, 57070 Metz, France - [email protected], c SAFRAN LANDING SYSTEMS, 9 Rue Guynemer, 64400 Bidos, France - [email protected] d AIRBUS HELICOPTERS, |
2022062 | Fatigue performance at 550°C of shot peened and oxidized Inconel 718 additively manufactured by Laser-Powder Bed Fusion (L-PBF) |
Charles Bianchettia, Pascale Kanouté a, Louise Toualbia a DMAS, ONERA, Université Paris Saclay, F92322, Chatillon, France – [email protected] |
2022063 | Development of a peening device with a handheld laser on a collaborative robot |
Y. Sano1,2,3, Y. Mizuta1, S. Tamaki3, K. Yokofujita4, K. Masaki5, T. Hosokai1 and T. Taira2 1 SANKEN, Osaka University, Ibaraki, Japan 2 Institute for Molecular Science, National Institutes of National Sciences, Okazaki, Japan 3 LAcubed Co. Ltd., Yokohama |
2022064 | Effect of Soft Particle Peening Treatment on Fatigue Strength of Copper Alloy |
Koichiro NAMBU a) and Ryuji KUNIMATSU a) a) Osaka Sangyo University, Department of Mechanical Engineering, 3-1-1, Nakagaito, Daito, Osaka, Japan Email : [email protected] |
2022065 | Application of Deep Learning to Predict Shot Peening Coverage |
Y.H.A Chua1, Z.B. Wang1, H.C. Ang1, and A. Shukri1 1. Advanced Remanufacturing and Technology Centre, 3 Cleantech Loop, #01/01 CleanTech Two, Singapore 637143 |
2022066 | Shot Peening on All-solid-state Lithium Metal Battery for High-speed Charging |
M. Kodama1, K. Takashima1 and S. Hirai1 1 School of Engineering, Tokyo Institute of Technology, Japan |
2022067 | Dry Ice Blasting to Increase Fatigue Strength |
J. Hoffmeister1, E. Schuch1, M. Siedler1 and T. Harter1 1 Esslingen University, Faculty of Mechanical and Systems Engineering, Kanalstr. 33, 73728 Esslingen, Germany |
2022068 | Definition and impact of overlap on the surface state after deep rolling of aluminum and steel alloys |
J. Schubnell, M. Jung, A. Sarmast and E. Cari Fraunhofer lnstitute for Mechanics of Materials (IWM), Freiburg, Germany |
2022069 | Laser Shock Peening to enhance stress corrosion cracking and corrosion fatigue resistance in marine aluminium alloys |
J. Kaufman1,2, M. A. Steiner3, S. R. Mannava3, V. K. Vasudevan4, J. Brajer2, J. Pilař2, L. Pína1, T. Mocek2 1 Faculty of Nuclear Sciences and Physical Engineering, CTU in Prague, Czechia 2 HiLASE Centre, Institute of Physics of the Czech Academy of Scienc |
2022070 | Compressive residual stress relaxation behavior of shot peened AISI4140 steel during first cycle of repeated loading |
Motoaki Hayama1 and Jun Komotori2 1 Graduate School of Science and Technology, Keio University, Japan 2 Department of Mechanical Engineering, Keio University, Kanagawa, Japan |
2022071 | Fatigue properties of high strength steel treated by laser peening with handheld microchip lasers |
Y. Mizuta1, S. Tamaki2, T. Kato3, Y. Sakino3, T. Hosokai1 and Y. Sano1 1 SANKEN, Osaka University, Ibaraki, Japan 2 LAcubed Co. Ltd., Yokohama, Japan 3 Kindai University, Higashi-Hirochima, Japan 4 Institute for Molecular Science, National Institutes of N |
2022072 | Fatigue property of Shot peened Maraging Steel fabricated by Additive manufacturing |
Toshiya Tsujia1, Yuji Kobayashia1, Kiyotaka Masaki 2 1 SINTOKOGIO, LTD., Development group, 180-1 Komaki Ohgi-cho Toyokawa, Aichi, Japan 2 Okinawa College, National Institute of Technology, 905 Henoko Nago, Okinawa, Japan |
2022073 | INFLUENCE OF SHOT PEENING MEDIA AND PARAMETERS ON CARBURIZED STEEL |
M.R. Chinia, F.Wagnera, S. Benalia, C. Didesa, D. Bouttesb, L. Besnault c, M. Courteauxd, C. Grentee, M.Millotf. C. Berthodg, G. Bal-Fontaineg, P. Picardh a IRT M2P, 4 rue Augustin Fresnel, 57070 Metz, France - [email protected], b Saint-Gobain |
2022074 | Bending Fatigue Resistance of Duplex Shot Peened Austempered Ductile Iron |
W. Abela1, G. Cassar1, A. Steuwer2, A. Zammit1 1 Department of Metallurgy and Materials Engineering, University of Malta, Msida MSD 2080, Malta 2 Research Support Services Directorate, University of Malta, Msida MSD 2080, Malta |
2022075 | Using Laser Shock Peening to Enhance Metallic Additive Manufacturing |
Sanin Zulića, Sunil Pathaka, Michael Fitzmireb, Ebrahim Asadib, Jan Kaufmana, Vojislav Petrovićc, Fernando Gustavo Warchomickad, Marek Boehma, Ondrej Stranskya, Benjamin, Meierc, Jan Brajera a HiLASE Centre, Institute of Physics of the Czech Academy of Sc |
2022076 | The Effect of Shot Peening on Additively Manufactured 316L Stainless Steel for the Marine Transportation Industry |
L. Bonnici1, J. Buhagiar1, G. Cassar1, K. A. Vella1, J. Chen2, X.Y. Zhang2, M.Y. Liu2, Z.Q. Huang2, A. Zammit1 1 Department of Metallurgy and Materials Engineering, University of Malta, Msida, Malta 2 School of Materials Science and Engineering, Southeast |
2022077 | Application of Laser Shock Peening on Nitrided Steel for Power Transmission Components |
1: Laboratoire PIMM, Arts et Metiers Institute of Technology, ENSAM, CNRS, CNAM, HESAM Université, 151 Boulevard de l’Hôpital, 75013 Paris, France, 2 : Institut de Recherche Technologique Matériaux, Métallurgie et Procédés, 4 Rue Augustin Fresnel, 57070 M |
2022078 | Fine, Hard, and High Density Ceramic Beads for Shot Peening |
D. Bouttes1, L. Zhou2, F. Wiss3 and A.-L. Beaudonnet3 1 Saint-Gobain Research Provence, Cavaillon, France 2 Saint-Gobain Research Shanghai, Shanghai, China 2 Saint-Gobain SEPR, Le Pontet, France |
2022079 | Overview of Laser Shock Processing Development in South Africa: Industrial Applications |
D. Glaser1,2, M. Newby2, C. Polese3, R. Scheepers4 1 Council for Scientific and Industrial Research (CSIR), Photonics Centre, Meiring Naudé Road Brummeria, Pretoria, South Africa 2 Nelson Mandela University, Mechanical Engineering, University Way, Summers |
2022080 | Effect of surface treatment on the fatigue strength of additive manufactured Ti6Al4V alloy |
Carlos Navarroa, Jesús Vázqueza, Jaime Domíngueza, Antonio Periñánb, Marta Herrera Garcíab, Fernando Lasagnib, Simon Bernardingc, Sebastian Slawikc, Frank Mücklichc, Francisco Bobyd, Lloyd Hackeld , aUniversity of Seville, Spain bAdvanced Center for Aeros |
2022081 | Laser Peening Effects on High-Cycle Fatigue Properties of Al-Li Friction Stir Welded Joints: Crystal Plasticity Modeling & Quantitative Evaluation |
Maziar Toursangsaraki and Yongxiang Hu* State Key Laboratory of Mechanical System and Vibration, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China |
2022082 | Localized indentation and its relationship with overall deformation of thin metal sheets induced by laser peen forming |
Ruoyu Yang and Yongxiang Hu* State Key Laboratory of Mechanical System and Vibration, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China |
2022083 | Bonding of Magnesium Alloy with Ceramics by Shot Peening |
Yasunori Harada1 and Kenta Sugihara2 1 Graduate School of Engineering, University of Hyogo, Japan 2 Graduate Student, University of Hyogo, Japan |
2022084 | 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 |
Paul Diekhoff1, Th. Nitschke-Pagel1, K. Dilger1 D.Löschner2, R. Schiller2,I. Engelhardt2 1 Institut für Füge- und Schweißtechnik, Technische Universität Braunschweig 2 Laboratory for Steel and Lightweight Structures, Institute for Material and Building Re |
2022085 | A SED-based approach to predict the fatigue strength of notched and plain shot-peened parts |
M. Benedetti1, M. Bandini2, S. Raghavendra1, V. Fontanari1, and F. Berto3 1 Department of Industrial Engineering, University of Trento, Italy 2 PeenService, Bologna, Italy 3 Dep. of Mechanical and Industrial Engineering, Norwegian University of Science an |
2022086 | Cavitation Peening Using a Submerged Water Jet and a Pulsed Laser Comparing with Shot Peening |
H. Soyama1 1 Department of Finemechanics, Tohoku University, Japan |
2022087 | New Electronic Peening Intensity Sensor: Theory and Experimental Validation |
Sylvain A. Forgues1, Brigitte Labelle1, Ramzi Ben Moussa1, Adel Alouani1 1 Shockform Aeronautique Inc., Canada, [email protected] |
2022088 | New Electronic Peening Intensity Sensor: Comparison with Almen Arc Height Verification |
Sylvain A. Forgues 1, Brigitte Labelle1, Adel Alouani1, Ramzi Ben Moussa1 1Shockform Aeronautique Inc., Canada, [email protected] |
2022089 | New Electronic Peening Intensity Sensor for Pneumatic Needle Peening Repair Tools |
Adel Alouani1, Sylvain A. Forgues 1, Brigitte Labelle1, Ramzi Ben Moussa1 1Shockform Aeronautique Inc., Canada, [email protected] Keywords: Rotary Flapper Peening, Pneumatic Needle Peening, Portable Tools, Repair |
2022090 | Size and Shape Characterization for Shot-Peening Impingement Models |
Paul Mort, Langdon Feltner, Mark Gruninger and David Bahr Purdue University Department of Materials Engineering, Center for Surface Engineering Enhancement (CSEE) |
2022091 | CONTROLING SURFACE ROUGHNESS THROUGH SHOT MEDIA SIZE DISTRIBUTION |
David Bahr1 and Siavash Ghanbari1 1 Center for Surface Engineering and Enhancement, School of Materials Engineering, Purdue University, West Lafayette IN USA |
2022092 | Peening Intensity and Coverage Estimated by Simulation for Automotive Coil Spring |
J. Shin1, Y. Yoon2 1 R&D Center, Youngwire, Chungcheongnam-do, Republic of Korea 2 Solution Lab, Daejon-si, Republic of Korea |
2022093 | Impact of Vibratory Peening on the Surface Integrity of Cemented Steel E16NCD13 |
A. Dasa, K. Chouchanea, H.Y. Miaoa, B. Changeuxb, J. Badreddineb, S. Turennea, M. Lévesquea, E. Martina a Département de Génie Mécanique, École Polytechnique de Montréal, C.P. 6079, Succ. Centre- Ville, Montréal, Québec, H3C 3A7 Canada b Safran Tech, Mate |
2022094 | Experimental investigation of controlled single and repeated impact testing of shot peening on Ti-6Al-4V, 300M and AA7050-T7451 |
H. Y. Miao, M. Singhal, M. Lévesque and E. Martin Département de Génie Mécanique, École Polytechnique de Montréal, C.P. 6079, Succ. Centre-Ville, Montréal, Québec, H3C 3A7 Canada |
2022095 | The effect of high temperature shot peening on the surface integrity of 2024-T351 aluminum alloy. |
A. Sadallah1, J. Badreddine2, B. Changeux2, S. Turenne1, H. Y. Miao1, M. Lévesque1, and E. Martin1 1 Département de Génie Mécanique, École Polytechnique de Montréal, C.P. 6079, Succ. Centre-ville, Montréal, Québec, H3C 3A7, Canada. 2 Safran Tech, Material |
2022096 | Discrete elements method simulation of the movement of media and the velocity between the media and treated parts during the vibratory peening process |
L. De La Torre a, H. Y. Miao a, B. Changeux b, J. Badreddine b, S. Turenne a, M. Lévesque a a. Département de Génie Mécanique, École Polytechnique de Montréal, C.P. 6079, Succ. Centre-Ville, Montréal, Québec, H3C 3A7 Canada b. Safran Tech, Materials & Pro |
2022097 | Control of the vibratory peening machine using the Almen intensity procedure |
M. Paques1, K. Chouchane1, B. Changeux2, L. De La Torre1, J. Badreddine2, H. Y. Miao1, M. Levesque1, S. Turenne1 and E. Martin1 1 Département de Génie Mécanique, École Polytechnique de Montréal, C.P. 6079, Succ. Centre-Ville, Montréal, Québec, H3C 3A7, Ca |
2022098 | Rolling Contact Fatigue Simulation Considering Surface Integrity |
B. Zhang1, G. Xiang1, H. Liu1*, P. Wei1, J. Wu1 1 State Key Laboratory of Mechanical Transmissions, Chongqing University, China |
2022099 | UPDATED THEORY OF THE X-RAY DIFFRACTION RESIDUAL STRESS MEASUREMENT COMPARING COS-ALPHA AND SIN²PSI TECHNIQUES – BIAXIAL VERSUS TRIAXIAL |
Mohammed Belassel1, James Pineault1, Michael Brauss2 1 PROTO MANUFACTURING LIMITED, Canada 2 PROTO MANUFACTURING INC, USA |
2022100 | X-Ray Diffraction and Hole-Drilling residual stress measurements of shot peening treatments validated on a calibration bench |
M. Beghini1, T. Grossi1*, C. Santus1, A. Torboli2, A. Benincasa3 and M. Bandini4 1 Dipartimento di Ingegneria Civile e Industriale, Università di Pisa, Pisa, Italy 2 GNR Srl, Novara, Italy 3 SINT Technology Srl, Firenze, Italy 4 Peen Service Srl, Bologna, |
2022101 | RESIDUAL STRESS ANALYSIS BY CONTOUR METHOD ONTO COLD EXPANDED HOLE ASSEMBLY– COMPARISON WITH FEA |
Vincent DELAGE 1, Jean-Michel DUCHAZEAUBENEIX 1, Laurence BESNAULT 1 1 Meliad, www.Meliad-sas.com, 6, rue des Orfèvres 44840 Les Sorinières, France [email protected], [email protected], l.besnault@Meliadsas. com |
2022102 | THE EFFECT OF SHOT PEENING ON TRIBO-CORROSION CHARACTERISTICS OF ADDITIVELY MANUFACTURED Ti-6Al-4V USED IN THE MARINE INDUSTRY |
K.A. Vellaa, J. Buhagiara, G. Cassara, L. Bonnicia, M.M. Pizzutoa, J. Chenb, X.Y. Zhangb, M.Y. Liub, Z.Q. Huangb, A. Zammita a Department of Metallurgy and Materials Engineering, University of Malta, Msida, Malta – [email protected] b School of Materia |
2022103 | Improvement of the fatigue life of lattice structures covered by a thin envelope for biomedical applications |
A. T. Sola1, L. Weiss1, P. Laheurte1 and E. Fleury1 1 LEM3, Université Lorraine, 7 Rue Félix Savart, Metz, France |
2022104 | Evolution of the controlled shot peening process in the automotive field |
E. Morgano SILCO - Rivalta TO |
2022105 | Characterization of blasted surfaces with mesh-based parameters |
Stefanie Stöckel1, Sophie Gröger1, Frank Segel1 1Professorship of Production Measuring Technology, Chemnitz University of Technology, Germany |
2022106 |
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