TY - CONF A1 - Deubener, J. A1 - Zietka, S. A1 - Del Gaudio, P. A1 - Behrens, H. A1 - Reinsch, Stefan A1 - Müller, Ralf T1 - Non-linear viscous flow of water-bearing silicate melt T2 - 8. Internationales Otto-Schott-Kolloquium T2 - 8. Internationales Otto-Schott-Kolloquium CY - Jena, Germany DA - 2006-07-23 PY - 2006 AN - OPUS4-14262 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Deubener, J. A1 - Reinsch, Stefan A1 - Müller, Ralf A1 - Behrens, H. T1 - Thermo-mechanical studies on hydrous silicate glasses T2 - XI Int. Conference on Physics of Non-Crystalline Solids T2 - XI Int. Conference on Physics of Non-Crystalline Solids CY - Rhodes, Greece DA - 2006-10-29 PY - 2006 AN - OPUS4-14266 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Deubener, J. A1 - Bauer, Ute A1 - Behrens, H. A1 - Reinsch, Stefan A1 - Müller, Ralf T1 - Flow of hydrous borate and silicate glasses N2 - Hydrous silicate and borate glasses of up to 8 wt% water were prepared using wet condition of melting under external pressure. Rheological experiments were conducted to determine the effect of the total water content on viscous flow and kinetic fragility. The findings indicate that dissolved water acts as a strong fluxing agent in both glass types. Water decreases particularly viscosity at the glass transition range, makes the viscosity-temperature curve "longer" and thus decreases kinetic fragility. Recent IR and NMR data are presented to link the dynamics of hydrous silicate and borate glasses with their structure particularly with regard to changes in the water-, silicon- and boron-speciation. T2 - FFAG 7: 7th International Workshop on Flow and Fracture of Advanced Glasses CY - Aalborg, Denmark DA - 02.07.2017 KW - Hydrous glass KW - Rheology KW - Silicate glass KW - Borate glass PY - 2017 AN - OPUS4-44213 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Deubener, J. A1 - Reinsch, Stefan A1 - Müller, Ralf A1 - Bauer, Ute A1 - Behrens, H. A1 - Rößler, C. T1 - Impact of structure and relaxation on fatigue and micro-mechanical properties of oxide glasses: the role of volatiles and bonding state T2 - Kolloquium des DFG SPP1594 Ultrastrong Glasses T2 - Kolloquium des DFG SPP1594 Ultrastrong Glasses CY - Jena, Germany DA - 2015-09-17 PY - 2015 AN - OPUS4-35200 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Deubener, J. A1 - Müller, Ralf A1 - Waurischk, Tina A1 - Reinsch, Stefan A1 - Behrens, H. A1 - Balzer, R. A1 - Bauer, U. A1 - Kiefer, P. T1 - Micromechanical properties of hydrous oxide glasses N2 - Presentation of the results on structure and mechanical properties of water-bearing oxide glasses, which were found during the project at the locations Clausthal, Hanover and Berlin within the priority program SPP1594. T2 - 9th Otto Schott Colloquium CY - Jena, Germany DA - 09.09.2019 KW - Crack growth KW - Glass KW - Water content KW - Mechanical properties KW - IR PY - 2019 AN - OPUS4-50444 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Müller, Ralf A1 - Behrens, H. A1 - Deubener, J. A1 - Reinsch, Stefan A1 - Bauer, Ute A1 - Rößler, C. T1 - Impact of structure and relaxation on fatigue and micro-mechanical properties of oxide glasses: the role of volatiles and bonding state N2 - As subcritical crack growth (SCCG) can reduce tensile strength of glasses by many orders of magni-tude, the potential for improvement of fatigue behaviour is most intriguing in developing ultra-strong glasses. An essential bottleneck is the basic understanding of the numerous interplaying pressure-, temperature- and water-affected relaxation phenomena at the crack tip and related toughening strat-egies. Therefore, the present project aims to advance the basic understanding of structural relaxa-tion effects and local properties caused by increased water concentration and tensile stresses at the crack tip as they are a key for structural toughening designs to develop SCCG-free glasses and glass surfaces. Our first studies give clear evidence that glass structure and dynamics is strongly modified upon hy-dration of glasses. These changes are highly related to the nature of network formers but are affect-ed as well by the counter ions (network modifier). Results of the 1st project part suggest that struc-tural relaxation below glass transition temperature, i.e. overlapping of short-range (beta) and long-range (alpha) interactions can contribute to SCCG in water-free environments and that structurally dissolved water in the glasses can have decisive impact on this effect. In the 2nd project stage specific glasses compositions will be investigated to gain an improved un-derstanding on the relation of sub-Tg relaxation and inert SCCG as well as to shed light to the relat-ed effects of dissolved water and its speciation. These glasses cover a broader range of different glass topologies and binding partners, whereby the coupling of alpha and beta relaxations is varied systematically by alkali-, alkaline earth ions and water species concentrations. Preparation of hy-drous glasses (up to 8 wt% water) will be performed by high pressure syntheses. Structure will be resolved by NMR, Raman and IR spectroscopy while structural relaxation is accessed in the temper-ature and frequency domain using dynamic mechanical spectroscopy and ultrasonic damping. We will focus on measurements of inert SCCG (region III) conducting experiments in vacuum and dry gas atmospheres using indentation techniques and stressing of glass specimens in DCB geometry. Experimental data on SCCG will be provided to SPP groups, which deals with fatigue in metallic glasses and vice versa we will test theoretical predictions of ab-initio simulations of partner within SPP 1594 in order to quantify the effect of water on the crack tip. In summa topological factors con-trolling the subcritical crack growth with respect to water will be identified from which structural toughening designs for highly fatigue resistant-glasses can be derived. T2 - Kolloquium des DFG-PP 1593 Ultrastrong Glasses CY - Jena, Germany DA - 17.9.2015 KW - Glass KW - Fatigue PY - 2015 AN - OPUS4-38335 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -