PD Dr.-Ing. Heinz Werner Höppel



Organisationseinheit


Lehrstuhl für Werkstoffwissenschaften (Allgemeine Werkstoffeigenschaften)



Projektleitung


ReguLus: Defekt- und Mikrostrukturen, mechanische Eigenschaften und optimierte Wärmebehandlungsstrategien additiv gefertigter Titanlegierungen für großvolumige Luftfahrtstrukturkomponenten (ReguLus)
Prof. Dr. Mathias Göken; PD Dr.-Ing. Heinz Werner Höppel
(01.01.2018 - 31.12.2021)

(SLM-PROP: Verbundvorhaben TARES 2020):
SLM-PROP: Selective laser melting alloys - Auslegungsrichtlinien und prozessbedingte Werkstoffeigenschaften
Dr.-Ing. Steffen Neumeier; Prof. Dr. Mathias Göken; PD Dr.-Ing. Heinz Werner Höppel
(01.02.2017 - 21.01.2023)

(Kolbenbolzen für Leichtbau-Design):
KoBoLD: Kolbenbolzen für Leichtbau-Design
PD Dr.-Ing. Heinz Werner Höppel
(01.01.2017 - 31.12.2019)


Publikationen (Download BibTeX)

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Kümmel, F., Diepold, B., Prakash, A., Höppel, H.W., & Göken, M. (2018). Enhanced monotonic and cyclic mechanical properties of ultrafine-grained laminated metal composites with strong and stiff interlayers. International Journal of Fatigue, 116, 379-387. https://dx.doi.org/10.1016/j.ijfatigue.2018.06.043
Kümmel, F., Diepold, B., Sauer, K.F., Schunk, C., Prakash, A., Höppel, H.W., & Göken, M. (2018). High Lightweight Potential of Ultrafine-Grained Aluminum/Steel Laminated Metal Composites Produced by Accumulative Roll Bonding. Advanced Engineering Materials. https://dx.doi.org/10.1002/adem.201800286
Huang, C.X., Wang, Y.F., Ma, X.L., Yin, S., Höppel, H.W., Göken, M.,... Zhu, Y.T. (2018). Interface affected zone for optimal strength and ductility in heterogeneous laminate. Materials Today, 21(7), 713-719. https://dx.doi.org/10.1016/j.mattod.2018.03.006
Merle, B., & Höppel, H.W. (2018). Microscale High-Cycle Fatigue Testing by Dynamic Micropillar Compression Using Continuous Stiffness Measurement. Experimental Mechanics, 58(3), 465-474. https://dx.doi.org/10.1007/s11340-017-0362-3
Medvedev, A.E., Lapovok, R., Koch, E., Höppel, H.W., & Göken, M. (2018). Optimisation of interface formation by shear inclination: Example of aluminium-cooper hybrid produced by ECAP with back-pressure. Materials & Design, 146, 142-151. https://dx.doi.org/10.1016/j.matdes.2018.03.021
Medvedev, A.E., Lapovok, R., Koch, E., Höppel, H.W., & Göken, M. (2018). Optimisation of interface formation by shear inclination: Example of aluminium-copper hybrid produced by ECAP with back-pressure. Materials and Design, 146, 142-151. https://dx.doi.org/10.1016/j.matdes.2018.03.021
Schunk, C., Nitschky, M., Höppel, H.W., & Göken, M. (2018). Superior Mechanical Properties of Aluminum–Titanium Laminates in Terms of Local Hardness and Strength. Advanced Engineering Materials. https://dx.doi.org/10.1002/adem.201800546
Höppel, H.W., Goik, P., Krechel, C., & Göken, M. (2017). Ex and in situ investigations on the role of persistent slip bands and grain boundaries in fatigue crack initiation. Journal of Materials Research, 32(23), 4276-4286. https://dx.doi.org/10.1557/jmr.2017.313
Gulden, F., Höppel, H.W., Göken, M., Stich, A., & Gramstat, S. (2017). Fundamental Investigations of Aluminium Matrix Composite Brake Rotors for the Use in Passenger Cars. In EuroBreak 2017 (EB2017-MDS-026).
Freund, L., Giese, S., Schwimmer, D., Höppel, H.W., Neumeier, S., & Göken, M. (2017). High temperature properties and fatigue strength of novel wrought gamma/gamma' Co-base superalloys. Journal of Materials Research, 32(24), 4475-4482. https://dx.doi.org/10.1557/jmr.2017.315

Zuletzt aktualisiert 2016-28-08 um 03:36

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