PhD Theses
Responsible: Bernhard Wunderle, Prof. Dr.
Currently supervised PhD Students
Mehrdad Shaygi
![](../professur/photos/mehrdad_shaygi.png)
Reliability and constitutive modelling of sollders for Power-LED assemblies.
TU Chemnitz in cooperation with OSRAM GmbH, since 2019
Kaushal Pareek
![](../professur/photos/kaushal_pareek.png)
Full field thermal imaging methods for inline testing of electronic compoments.
TU Chemnitz in cooperation with Berliner Nanotest & Design GmbH, since 2019
Maofen Zhang
![](../professur/photos/maofen_zhang.png)
Constitutive modelling of Sn-based solders for the prediction of thermo-mechanical reliability.
TU Chemnitz in cooperation with Infineon Technologies AG, Munich, since 2019
Marco Schaal
![](../professur/photos/marco_schaal.png)
Reliability evaluation of sintered Ag interconnect layers and determination of failure mechanisms for different process and load parameters in power electronics.
TU Chemnitz in cooperation with Robert Bosch GmbH, Reutlingen, since 2017
E Liu
![](../professur/photos/e_liu.png)
Development and validation of a transient electro-thermal simulation model for failure analysis in high power LEDs.
TU Chemnitz in cooperation with Technische Hochschule Ingolstadt, since 2015
Nadine Pflügler
![](../professur/photos/nadine_pfluegler.png)
Temperature dependent adhesion of layer compositions considering thermally induced and intrinsic mechanical stress.
TU Chemnitz in cooperation with Infineon Technologies AG, Munich, since 2015
Clemence Vernier
![](../professur/photos/clemence_vernier.png)
Influence of the curing parameters on the mechanical and physical properties of adhesives.
TU Chemnitz in in cooperation with Robert Bosch GmbH, StutSchwieberdingentgart, since 2014
Emad Poshtan
![](../professur/photos/emad_poshtan.png)
Evaluation of mode-mix loaded bi-material interfaces in electronic packages under automotive testing conditions.
TU Chemnitz in in cooperation with Robert Bosch GmbH, Reutlingen, since 2011
Finished Phd theses
Freerik Forndran
![](../professur/photos/no_photo.png)
Physics-of-Failure Based Lifetime Modelling of Silver Sintered Power Modules for Electric Vehicles by Experiment and Simulation.
TU Chemnitz in cooperation with Vitesco Technologies GmbH, 2024
Erkan Bektas
![](../professur/photos/no_photo.png)
Robustness Estimation Methods for Automotive IC Packages.
TU Chemnitz in cooperation with Robert Bosch GmbH, Reutlingen, 2022
Alexander Otto
![](../professur/photos/no_photo.png)
Development of novel reliability tests based on combined load factors for electronics and power electronics.
TU Chemnitz in cooperation with Fraunhofer ENAS, 2020
Mohamad Abo Ras
![](../professur/photos/no_photo.png)
Entwicklung von Charakterisierungsmethoden für Thermische Interface-Materialien.
TU Chemnitz in cooperation with Berliner Nanotest und Design GmbH, 2020
Jens Heilmann
![](../professur/photos/jens_heilmann.png)
Lebensdauermodellierung für gesinterte Silberschichten in der leistungselektronischen Aufbau- und Verbindungstechnik durch isotherme Biegeversuche als beschleunigte Erm�dungstests
TU Chemnitz, 2019
John Brückner
![](../professur/photos/no_photo.png)
Elastizitätsmodul und Bruchfestigkeit von Poly-Silizium-Membranen kommerzieller MEMS-Mikrofone.
TU Chemnitz in cooperation with Fraunhofer ENAS, 2018
Steffen Hartmann
![](../professur/photos/no_photo.png)
Thermo-Mechanical Characterisation of Interfaces between Single-Walled CNTs and Metals by Pull-Out Testing.
TU Chemnitz, 2016
Daniel May
![](../professur/photos/daniel_may.png)
Transiente Methoden der Infrarot-Thermografie zur zerstörungsfreien Fehleranalytik in der mikroelektronischen Aufbau- und Verbindungstechnik.
TU Chemnitz, 2015
Uwe Zschenderlein
![](../professur/photos/uwe_zschenderlein.png)
Zerstörungsfreie Eigenspannungsbestimmung für die Zuverlässigkeitsbewertung von 3D-integrierten Kontaktstrukturen in Silizium.
TU Chemnitz, 2013
Open topics
Currently there are no topics listed.
If You are interested in writing a PhD thesis at my chair, please get in touch via e-mail or phone. I'm glad giving You further information in an one-on-one interview.
Prof. Dr. Bernhard Wunderle