About us
News
Organisation
Education
AnTs
SEAL
People
Research: Projects (current); Entwicklung einer optischen Inspektionsmethode zur Bewertung des Oberflächenzustands von zu lötenden Metalloberflächen; Membran-App; SFB 1368 „Sauerstofffreie Produktion“; BioICEP; Kooperation Kamax; MS Multi Mat – BioReg; Einstufige Herstellung von Metall-Polymer-Metall-Sandwichstrukturen mit faserverstärktem Kern: Experiment, Modellbildung und Simulation; Tracerdiffusion in protonenausgetauschtem Lithiumniobat; IRmagMat; TUFAST; Einfluss von Drahtelektroden-beschichtungen auf die mechanisch-technologischen Schweißnaht- und Prozesseigenschaften; MS Multi Mat – NanoGlas; GROTESK; Li-diffusion in lithium-silicon compounds; Influence of thermo-mechanical wear on the deposit formation on coated steel surfaces in plastics processing machines; Surface deoxidation mechanisms for the soldering of stainless steels under a silane-contaminated low argon vacuum; Active principles for nano-scale matrix additives for fibre-composite lightweight construction; Projects (concluded)
Facilities
Lower Saxon Material Technology Symposium
Harz Material and Process Technology Forum
CZM publication series
Downloads
Contact
Internes
Data protection

Shortcuts

Clausthal Research Prospectus

Surface Technology and Functionalisation course

Welcome to the Clausthal Centre for Material Technology > Research > Projects (current)

Projects (current)

Third-party funded research projects

Li-diffusion in lithium-silicon compounds
Prof. Harald Schmidt
Funding period: 06/2016 - 05/2018
Influence of thermo-mechanical wear on the deposit formation on coated steel surfaces in plastics processing machines
Prof. W. Maus-Friedrichs, Prof. Dr. V. Wesling
Funding period: 01/2019 - 12/2020
Clarification and use of thermophysical-chemical surface deoxidation mechanisms for the soldering of stainless steels under a silane-contaminated low argon vacuum
Prof. Dr. W. Maus-Friedrichs, Dr. Kai Möhwald (Dr.Eng. habil. IW Hanover)
Funding period: 11/2014 - 09/2019
Active principles for nano-scale matrix additives for fibre-composite lightweight construction:
Sub-project 3: Flow behaviour of nano-particle epoxy resin suspensions
Sub-project 4: Impregnation process for gradually nano-particle-reinforced structures
Prof. G. Ziegmann (Dr.Eng)
Funding period: 05/2017 – 04/2020

Further projects in the CZM's area of expertise, at other member institutes

Contact ▪ Search ▪ Site map ▪ Data Privacy ▪ Imprint Last Changed: 07.12.2020

© TU Clausthal 2021