Suchergebnisse - University of Applied Science Kaiserslautern

2241.

Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading

Date: 13.08.2020

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2242.

Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading

Date: 13.08.2020

Within the investigations on the unalloyed and low-alloyed carbon steels C22R (SAE 1023) and 20MnCrS5 (SAE 5120), the magnetic property-stress-microstructure relationship is to be developed and made usable for the evaluation by means of magnetic measuring procedures. The two materials intended for the investigations have comparable chemical compo

2243.

Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading

Date: 22.09.2023

back Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading In order to achieve the goal of a (residual) fatigue life calculation for metallic materials or structures, it is necessary that comprehensive information is determined and made available. This information descri

2244.

Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading - Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading

Date: 13.08.2020

Use of µmagnetic test methods for the evaluation of the damage evolution in metallic materials subjected to cyclic loading In order to achieve the goal of a (residual) fatigue life calculation for metallic materials or structures, it is necessary that comprehensive information is determined and made available. This information describes the micr

2245.

Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens using the example of unalloyed steels

Date: 19.08.2024

Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens using the example of unalloyed steels The construction of dynamically loaded metallic materials and components is usually based on the relation between the stress amplitude and the number of cycles to failure, which is displayed in S-N cu

2246.

Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens using the example of unalloyed steels - Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens

Date: 19.08.2024

Utilisation of statistical approaches within the scope of lifetime prediction methods for notched specimens using the example of unalloyed steels The construction of dynamically loaded metallic materials and components is usually based on the relation between the stress amplitude and the number of cycles to failure, which is displayed in S-N curve

2247.

Vanessa Hayna

Date: 21.11.2024

Research Assistant Function at the University of Applied Sciences

2248.

Vanessa Hayna

Date: 21.11.2024

2024 - heute Research Assistant Materials Science Laboratory, University of Applied Sciences Kaiserslautern 2023 - today Master's Degree, Study of Mechanical Engineering/Mechatronics, University of Applied Sciences Kaiserslautern 2022 - today Student Research Assistant Materials Science Lab

2249.

Vanessa Hayna

Date: 18.04.2023

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2250.

Vanessa Hayna

Date: 26.10.2023

B. Eng. Vanessa Hayna e-mail: vanessa.hayna@hs-kl.de Research Assistant 2024 - heute Research Assistant Materials Science Laboratory, University of Applied Sciences Kaiserslautern 2023 - today Master's Degree, Study of Mechanical Engineering/Mechatronics, University of Applied Sciences Kaiserslauter