Regardless of the excellent properties of glass ionomer cements,their poor mechanical properties limit their applications to non-load bearing areas.This study aimed to investigate the effect of incorporated short,chop...Regardless of the excellent properties of glass ionomer cements,their poor mechanical properties limit their applications to non-load bearing areas.This study aimed to investigate the effect of incorporated short,chopped and randomly distributed flax fibers(0,0.5,1,2.5,5 and 25 wt%) on setting reaction kinetics,and mechanical and morphological properties of glass ionomer cements.Addition of flax fibers did not significantly affect the setting reaction extent.According to their content,flax fibers increased the compressive(from 148 to 250 MPa) and flexure strength(from 20 to 42 MPa).They also changed the brittle behavior of glass ionomer cements to a plastic one.They significantly reduced the compressive(from 3 to 1.3 GPa) and flexure modulus(from 19 to 14 GPa).Accordingly,flax fiber-modified glass ionomer cements could be potentially used in high-stress bearing areas.展开更多
This article contributes to a meaningful interpretation of results gathered by in-situ measurements of sonic velocity, electrical conductivity and the change of temperature during setting and curing of LC refractory c...This article contributes to a meaningful interpretation of results gathered by in-situ measurements of sonic velocity, electrical conductivity and the change of temperature during setting and curing of LC refractory castables. All said monitoring techniques are well known in the refractory community and are well documented in the literature. However, the time dependent changes of the said properties are not well correlated to mineralogical and in consequence technological changes of the material during setting and curing. The basic interest of refractory users of course is to define the time at which the installation or the pre-shape construction element can be demoulded. This is in principle possible with the methods listed above. However, after water addition the time de- pendent changes of sonic velocity, electrical conductivity and temperature are diverse as there are possible combi- nations of cements, microfines and surface-active additives. In further the ambient conditions, temperature and relative humidity have a strong influence on these properties and this does not only mean a simple time-shift. Up to now the results are more confusing than helpful to determine the best time for demoulding pre-shapes and refractory linings. Recent research at Koblenz University of Applied Science contributes to a deeper understanding of the setting behaviour, because besides the physical evolution of the said parameters the time dependent formation of hydrate phases is also investigated by means of gravi-metric method. The proposed presentation will show detailed insights in the evolution of refractory castables during setting and curing.展开更多
文摘Regardless of the excellent properties of glass ionomer cements,their poor mechanical properties limit their applications to non-load bearing areas.This study aimed to investigate the effect of incorporated short,chopped and randomly distributed flax fibers(0,0.5,1,2.5,5 and 25 wt%) on setting reaction kinetics,and mechanical and morphological properties of glass ionomer cements.Addition of flax fibers did not significantly affect the setting reaction extent.According to their content,flax fibers increased the compressive(from 148 to 250 MPa) and flexure strength(from 20 to 42 MPa).They also changed the brittle behavior of glass ionomer cements to a plastic one.They significantly reduced the compressive(from 3 to 1.3 GPa) and flexure modulus(from 19 to 14 GPa).Accordingly,flax fiber-modified glass ionomer cements could be potentially used in high-stress bearing areas.
基金German Federation of Industrial Research Associations ( AiF) for its financial support of the research project IGF-No.119 ENcarried out under the auspices of Ai F and financed within the budget of the Federal Ministry of Economics and Technology ( BMWi) through the program to promote collective industrial research (IGF)
文摘This article contributes to a meaningful interpretation of results gathered by in-situ measurements of sonic velocity, electrical conductivity and the change of temperature during setting and curing of LC refractory castables. All said monitoring techniques are well known in the refractory community and are well documented in the literature. However, the time dependent changes of the said properties are not well correlated to mineralogical and in consequence technological changes of the material during setting and curing. The basic interest of refractory users of course is to define the time at which the installation or the pre-shape construction element can be demoulded. This is in principle possible with the methods listed above. However, after water addition the time de- pendent changes of sonic velocity, electrical conductivity and temperature are diverse as there are possible combi- nations of cements, microfines and surface-active additives. In further the ambient conditions, temperature and relative humidity have a strong influence on these properties and this does not only mean a simple time-shift. Up to now the results are more confusing than helpful to determine the best time for demoulding pre-shapes and refractory linings. Recent research at Koblenz University of Applied Science contributes to a deeper understanding of the setting behaviour, because besides the physical evolution of the said parameters the time dependent formation of hydrate phases is also investigated by means of gravi-metric method. The proposed presentation will show detailed insights in the evolution of refractory castables during setting and curing.
