Prof. Priv. Doz. Dr.-Ing. habil. Peter Starke
Fachbereich Angewandte Ingenieurwissenschaften, Hochschule Kaiserslautern
Weber, Fabian; Maul, Moritz; Juner, Florian et al.
A nonlinear lifetime prediction method for un‐ and low alloyed steels by damage determination based on non‐destructive measurement techniquesFatigue & Fracture of Engineering Materials & Structures. Bd. 0. Wiley 2024 S. 1 - 18
Weber, Fabian; Wu, Haoran; Starke, Peter
A new short-time procedure for fatigue life evaluation based on the linear damage accumulation by Palmgren–MinerInternational Journal of Fatigue. Bd. 172. Elsevier B.V. 2023 107653
Heckmann, Klaus; Acosta, Ruth; Bill, Tobias et al.
Detection of fatigue degradation in austenitic stainless steel with eddy current probe and machine learningJournal of Materials Research and Technology. Bd. 27. Elsevier B.V. 2023 S. 7336 - 7346
Donnerbauer, Kai; Bill, Tobias; Starke, Peter et al.
Fatigue life evaluation of metastable austenitic stainless steel AISI 347 based on nondestructive testing methods for different environmental conditionsInternational Journal of Fatigue. Bd. 1. Elsevier B.V. 2023 108056
Weber, Fabian; Koziol, Janina; Starke, Peter
StressLife: A Short-Time Approach for the Determination of a Trend S-N Curve in and beyond the HCF Regime for the Steels 20MnMoNi5-5 and SAE 1045Materials. Bd. 16. H. 11. MDPI 2023 3914
Teng, Zhenjie; Wu, H.; Pramanik, S. et al.
Characterization and analysis of plastic instability in an ultrafine‐grained medium Mn TRIP steelAdvanced Engineering Materials. Bd. 1. Wiley 2022 S. 1
Wu, Haoran; Raghuraman, Srinivasa R.; Ziman, Jonas A. et al.
Characterization of the Fatigue Behaviour of Low Carbon Steels by Means of Temperature and Micromagnetic MeasurementsMetals. Bd. 12. H. 11. MDPI 2022 1838
Theis, Martin; Bill, Tobias; Knoll, Heiko et al.
Electrochemical Deposition of CoP and CoNiP as Hard Magnetic Scales in a Position Measurement SystemMetals. Bd. 12. H. 2. MDPI AG 2022 S. 235
Schaefer, Florian; Rosar, Jan; Wu, Haoran et al.
Obtaining a lower estimate of the fatigue limit of metals by a simplified quantitative thermometric approach in a low-cost one-specimen testInternational Journal of Fatigue. Bd. 159. Elsevier BV 2022 106729
Schäfer, Florian; Rosar, Jan; Marx, Michael et al.
Quantitative Thermometry: A Revived Simplified Approach to Fatigue Strength Determination and Deformation MechanismsProcedia Structural Integrity. Bd. 37. Elsevier B.V. 2022 S. 299 - 306
Wu, Haoran; Ziman, Jonas A.; Raghuraman, Srinivasa R. et al.
Short-Time Fatigue Life Estimation for Heat Treated Low Carbon Steels by Applying Electrical Resistance and Magnetic Barkhausen NoiseMaterials. Bd. 16. H. 1. MDPI 2022 S. 32
Hoffmann, Joachim E.; Pawar, Vrushali; Eifler, Dietmar et al.
Surface states by grinding thin strips of electrochemically deposited nanocrystalline nickel-ironMaterials Testing. Bd. 64. H. 7. Walter de Gruyter GmbH 2022 S. 903 - 931
Bill, Tobias; Acosta, Ruth; Boller, Christian et al.
A Short-Time Approach for Fatigue Life Evaluation of AISI 347 Steel for Nuclear Power Energy ApplicationsApplied Sciences. Bd. 11. H. 23. MDPI AG 2021 11405
Heckmann, Klaus; Sievers, Jürgen; Schopf, Tim et al.
Correlation of load drop and crack initiation criteria in fatigue life experiments of metallic materialsEngineering Fracture Mechanics. Bd. 251. Elsevier B.V. 2021 107785
Teng, Zhenjie; Wu, Haoran; Huang, Zhiyong et al.
Effect of mean stress in very high cycle fretting fatigue of a bearing steelInternational Journal of Fatigue. Bd. 149. Elsevier B.V. 2021 106262
Lyamkin, Viktor; Pauly, Christoph; Starke, Peter et al.
Impact of cyclic strain on deformation-induced martensite morphology and magnetic properties of type 347 austenitic stainless steelMaterials Today Communications. Bd. 26. Elsevier B.V. 2021 101803
Acosta, Ruth; Heckmann, Klaus; Sievers, Jürgen et al.
Microstructure-Based Lifetime Assessment of Austenitic Steel AISI 347 in View of Fatigue, Environmental Conditions and NDTApplied Sciences. Bd. 11. H. 23. MDPI AG 2021 11214
Aeran, Ashish; Acosta, Ruth; Siriwardane, Sudath C. et al.
A nonlinear fatigue damage model: Comparison with experimental damage evolution of S355 (SAE 1020) structural steel and application to offshore jacket structuresInternational Journal of Fatigue. Bd. 135. Elsevier Ltd. 2020 S. 105568
Teng, Zhenjie; Wu, Haoran; Boller, Christian et al.
A unified fatigue life calculation based on intrinsic thermal dissipation and microplasticity evolutionInternational Journal of Fatigue. Bd. 131. Elsevier B.V. 2020 S. 105370
Wu, H.; Bill, T.; Teng, Z.J. et al.
Characterization of the fatigue behaviour for SAE 1045 steel without and with load-free sequences based on non-destructive, X-ray diffraction and transmission electron microscopic investigationsMaterials Science and Engineering: A. Bd. 6. Elsevier B.V. 2020 S. 139597
Starke, Peter; Acosta, Ruth; Bill, Tobias et al.
Evaluation of Influences of Materials Processing on the Fatigue Life of Quenched and Tempered SAE 4140Fourth International Conference on Material and Component Performance under Variable Amplitude Loading (VAL4). Darmstadt. 2020
Tenkamp, Jochen; Awd, Mustafa; Siddique, Shafaqat et al.
Fracture–Mechanical Assessment of the Effect of Defects on the Fatigue Lifetime and Limit in Cast and Additively Manufactured Aluminum–Silicon Alloys from HCF to VHCF RegimeMetals. Bd. 10. H. 7. MDPI AG 2020 943
Lyamkin, Viktor; Starke, Peter; Boller, Christian
Magnetic force imaging for spatially resolved assessment of ferromagnetic phase fraction in austenitic stainless steelJournal of Magnetism and Magnetic Materials. Bd. 497. Elsevier BV 2020 S. 165973
Hoffmann, Joachim E.; Schmitt, Martin-T.; Eifler, Dietmar et al.
Mechanical behavior of annealed electrochemically deposited nanocrystalline nickel-iron alloysMaterials Testing. Bd. 62. H. 3. Walter de Gruyter GmbH 2020 S. 225 - 241
Starke, P.; Baak, N.; Nickel, J. et al.
Qualification of an inner surface Barkhausen noise sensor for residual stress measurements of single-lip deep drilled AISI 4140 by means of X-ray diffraction13th International Conference on Barkhausen Noise and Micromagnetic Testing. Prag. 2020 S. 1 - 8