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Eingeladener Vortrag
- nein (22)
The Micro Structure of Traditional Brazilian Lime Plasters - The Custom House of Florianopolis
(2005)
A sustainable approach for the conservation of the Timur Shah Mausoleum in Kabul, Afghanistan
(2005)
Nanotechnologie im Bauwesen
(2008)
Zu den Zielen der Nanotechnologie gehört die Entwicklung, Produktion und Anwendung von Materialien und Werkstoffen mit völlig neuartigen Leistungsspektren. Für die Baupraxis und die Materialforschung lassen sich über den Einsatz der Nanotechnologie Ziele wie die Optimierung von Baustoffeigenschaften, Vermeidung von Schäden und neue Funktionalitäten definieren. Der vorliegende Beitrag gibt einen Überblick über mögliche Anwendungsbereiche der Nanotechnologie im Bausektor, wie z. B. zementgebundene Baustoffe, Außen- und Dachfassaden, Fenster und Verglasungen, Brandschutz, Inneneinrichtung und Infrastrukturbau. Zudem werden aktuelle Forschungsarbeiten mit nanowissenschaftlichem und nanotechnologischem Schwerpunkt im Bereich baustoffbezogener Materialien der Bundesanstalt für Materialforschung und -prüfung (BAM) in Berlin vorgestellt. Die Forschungstätigkeiten beziehen sich zum einen auf die Modifikation der Hydratphasen in Ultra-Hochleistungsbeton (UHPC) und zum anderen auf die Weiterentwicklung von Anti-Graffiti-Systemen.
Los contaminantes atmosféricos son con frecuencia responsables
de la aceleración de la degradación de la piedra
en los edificios y monumentos históricos de las zonas
urbanas. Son muchos los factores que influyen de manera
decisiva en el comportamiento de las piedras naturales
ante los contaminantes gaseosos. Dos de esos factores
son la composición de la atmósfera y el tipo de piedra.
Las areniscas en particular son propensas al ataque de
los contaminantes atmosféricos debido a su naturaleza
porosa, pero muchas de las reacciones de las areniscas
no carbonatadas con estos gases no se conocen bien. El
estudio presentado tiene por objeto comprender los procesos
y factores que controlan el distinto comportamiento
de las areniscas respecto al dióxido de azufre. Para el
estudio se investigaron siete areniscas distintas procedentes
del sur y del este de Alemania. Las areniscas mostraban
una diferencia significativa en la composición de
su aglomerado. Por lo que respecta a la absorción de
SO2, las distintas variedades de arenisca mostraron un
comportamiento completamente diferente. Curiosamente,
la cantidad de SO2 depositada no estaba relacionada con
la superficie específica de las areniscas, este parámetro
está relacionado con el contenido en óxidos de hierro.
Air pollutants often accelerate stone deterioration in historical
buildings and monuments in urban areas. Many factors
condition natural stone behaviour with respect to
gaseous pollutants. Two of the more prominent of such
factors are the composition of the atmosphere and the
type of stone. Due to their porosity, sandstones are particularly
vulnerable to air pollutant attack. Many of the reactions
between noncarbonaceous sandstones and these
gases are not well understood, however. The present
study aimed to acquire an understanding of the processes
and factors governing sandstone behaviour when exposed
to sulphur dioxide. Seven different sandstones from southern
and eastern Germany were analyzed for the study.
The binder composition of the stones varied significantly.
They also exhibited completely different behaviour in connection
with SO2 deposition. Interestingly, while the
amount of SO2 deposited was unrelated to the specific surface
area of the sandstones, this parameter was closely
correlated to the iron oxide content.
Deterioration of cementitious materials by sulfate ions is a concern for concrete in contact with ground water (and in a lesser extent sea water) in many parts of Europe, and is an important issue for underground construction identified as a major area for progress in the construction industry. Sulfate resistance relates closely to testing and standardization and therefore to prescriptive approaches. The lack of feed back on the durability of structures made of blended cements makes it difficult to fit these new concretes with existing test methods and performance criteria. This paper concerns the microstructural study of field samples and structures made of blended concretes available across Europe. This concerns several materials exposed to various climate regimes, ranging from Southern to Northern Europe (Spain, Germany, United Kingdom, Denmark and Norway). Complementary techniques such as SEM, micro-XRF, XRD and PIXE are used to evaluate the microstructural performance and stability of the phase assemblage of those blended concretes in the case of sulfate (and chloride in some instances) ingress, compare to pure Portland concrete.
Standardization of a sustainable and eco-efficient building material: Earth - a german perspective
(2010)
Graffiti on concrete structures is an ongoing, costly and increasing problem. A number of various anti-graffiti agents available on the market are intended to be resistant to graffiti attack or provide a treatment that aids the removal of graffiti. In several European countries the testing of anti-graffiti agents on concrete structures is following the EN 1504-2. This method is not appropriate for the aimed result. The method tests if an anti-graffiti agent damages a concrete structure and focuses on drying index and frost resistance in comparison with untreated samples. The aspects of the efficacy against graffiti attack, other types of dirt and aesthetic changes due to anti-graffiti protection are not evaluated by the present method. Therefore a validation and improvement of the current method is proposed.