TY - JOUR A1 - Schirmer, Ulrike A1 - Osburg, Andrea T1 - A new method for the quantification of adsorbed styrene acrylate copolymer particles on cementitious surfaces: a critical comparative study JF - SN Applied Sciences N2 - The amount of adsorbed styrene acrylate copolymer (SA) particles on cementitious surfaces at the early stage of hydration was quantitatively determined using three different methodological approaches: the depletion method, the visible spectrophotometry (VIS) and the thermo-gravimetry coupled with mass spectrometry (TG–MS). Considering the advantages and disadvantages of each method, including the respectively required sample preparation, the results for four polymer-modified cement pastes, varying in polymer content and cement fineness, were evaluated. To some extent, significant discrepancies in the adsorption degrees were observed. There is a tendency that significantly lower amounts of adsorbed polymers were identified using TG-MS compared to values determined with the depletion method. Spectrophotometrically generated values were ​​lying in between these extremes. This tendency was found for three of the four cement pastes examined and is originated in sample preparation and methodical limitations. The main influencing factor is the falsification of the polymer concentration in the liquid phase during centrifugation. Interactions in the interface between sediment and supernatant are the cause. The newly developed method, using TG–MS for the quantification of SA particles, proved to be suitable for dealing with these revealed issues. Here, instead of the fluid phase, the sediment is examined with regard to the polymer content, on which the influence of centrifugation is considerably lower. KW - Zement KW - Polymere KW - polymer adsorption KW - cement KW - visible spectrophotometry KW - depletion method KW - mass spectrometry Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20210804-44729 UR - https://link.springer.com/article/10.1007/s42452-020-03825-5 VL - 2020 IS - Volume 2, article 2061 SP - 1 EP - 11 PB - Springer CY - Heidelberg ER - TY - THES A1 - Rößler, Christiane T1 - Hydratation, Fließfähigkeit und Festigkeitsentwicklung von Portlandzement – Einfluss von Fließmitteln, Alkalisulfaten und des Abbindereglers T1 - Hydration, fluidity and strength development in Portland cement – influence of superplasticizers, alkali sulphates and set regulator N2 - Eine zielführende Anwendung von Zusatzmitteln bei der Ausführung anspruchsvoller Betonbauten setzt einen hohen Kenntnisstand bezüglich der Wirkungsmechanismen und Interaktionen der einzelnen Betonkomponenten voraus. In der vorliegenden Arbeit wurden einige Aspekte der Zementhydratation in Abhängigkeit von der Fließmittelzugabe diskutiert. Im Ergebnis liefern die Teile eins und zwei der vorliegenden Arbeit einen Beitrag dazu, Veränderungen der Fließfähigkeit von Zementleim in Abhängigkeit der Zementhydratation und Fließmittelzugabe besser zu verstehen. Es konnte so z.B. gezeigt werden, dass Bildung langprismatischer Kristalle (z.B. Syngenit, Gips) die Fließfähigkeit von Zementleim und Beton vermindert. Infolge anhaltender Scherung von Zementleimen / Betonen mit langprismatischen Kristallen wird ein Zuwachs an Fließfähigkeit erzielt. Elektronenmikroskopische Untersuchungen zeigen, dass dies darauf zurückzuführen ist, dass die Kristalle in eine Vorzugsorientierung relativ zur Scherbewegung rotieren. Weiterhin wurde der Mechanismus einer so genannten Zement-Fließmittel-Inkompatibilität aufgezeigt. Durch diese Erweiterung des Kenntnisstandes zum Einfluss von Fließmitteln auf die Zementhydratation ist es möglich der Zement-Fließmittel-Inkompatibilität durch gezielte Auswahl des Zementes vorzubeugen. Dabei ist besonders darauf zu achten, dass der Zement ein ausgewogenes Verhältnis an zur Reaktion zur Verfügung stehendem C3A und Menge / Löslichkeit des Abbindereglers besitzt. Fließmittel verändern nicht nur die Verarbeitungseigenschaften sondern auch die Festigkeit und Dauerhaftigkeit von Zementstein und Beton. Im dritten Teil der vorliegenden Arbeit wird daher der Einfluss der Fließmittel und deren verflüssigender Wirkung auf die Festigkeitsentwicklung von Zementstein und C3S untersucht. Es konnte gezeigt werden, dass durch die dispergierende Wirkung der Fließmittel auch ohne Verminderung des Wasserzementwertes, eine Verdichtung des Zementsteingefüges erzielt werden kann. Es konnte weiterhin gezeigt werden, dass durch die Erhöhung der Partikelpackungsdichte am Anfang der Hydratation die Ausbildung der festigkeitsgebenden C-S-H Phasen verändert wird. Ein dichteres Verwachsen dieser nanostrukturierten C-S-H Phasen ermöglicht einen zusätzlichen Festigkeitszuwachs. N2 - The construction of sophisticated concrete buildings requires the pinpointed application of concrete additives. This requires a high level of knowledge concerning the interaction and mode of action of individual concrete components. The presented study aims to improve the understanding of the concrete components cement and superplasticizers. Main focus is laid on the influence of superplasticizers on cement hydration reactions and the consequences for cement and concrete performance characteristics (fluidity and strength). Results of parts one and two of the thesis reveal how the fluidity of cement paste is influenced by cement hydration and addition of superplasticizers. It is shown that the formation of long prismatic crystals like syngenite and gypsum decreases the fluidity of cement pastes and concrete. This decrease in fluidity is partly reversible if the suspension is continuously stirred. It was proven by scanning electron microscopy (SEM) that this gain in fluidity is caused by the rotation of long prismatic crystals into a preferred orientation. Furthermore the cause of a cement-superplasticizers-incompatibility was identified. The knowledge of this mechanism is essential for a successful selection of cement type in combination with superplasticizers. Results showed that for an effective selection of polycarboxylate-type superplasticizer and cement, it is essential that the ratio of aluminate clinker phases (C3A) to the amount / solubility of set regulator is appropriate. Superplasticizers improve not only the fluidity but also the compressive strength of cement and concrete. The third part of the thesis shows how the liquefying action of superplasticizers influences the strength development of cement and C3S pastes. Thus it was shown that a densification of the cement microstructure is achieved by the superplasticizers dispersing action. The increased particle packing density caused by superplasticizers in the suspension state of cement pastes increases the intergrowth of strength determining C-S-H phases. This leads to an increase in compressive strength without diminishing the water to cement ratio. KW - Zement KW - Hydratation KW - Mikrostruktur KW - Betonverflüssiger KW - Festigkeit KW - Fließverhalten KW - Alkalisulfate KW - Abbinderegler KW - C-S-H Phasen KW - Fließmittel KW - cement KW - hydration KW - microstructure KW - superplasticizer KW - strength KW - fluidity KW - C-S-H phases KW - set regulator Y1 - 2006 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20070206-8425 N1 - ISBN 978-3-8325-1490-7, Logos Verlag Berlin, 2007 ER - TY - THES A1 - Rickert, Jörg T1 - Zum Einfluss von Langzeitverzögerern auf der Basis von Phosphonsäure auf die Hydratation einzelner Klinkerphasen, Portlandzementklinker und Portlandzemente T1 - About the influence of long-term retarders on the basis of phosphonic acid on the hydration of several clinker phases, portland cement clinkers and portland cements N2 - Neben dem Schwerpunkt der Verflüssigung werden auch Zusatzmittel benötigt, die extrem lange Verarbeitbarkeitszeiten des Betons ermöglichen. Eine neue Wirkungsgruppe, durch die Verarbeitbarkeitszeiten von über 90 Stunden er-reicht werden können, sind Langzeitverzögerer (LVZ) auf der Basis von Phosphonsäure. In systematischen Versuchen wurden grundlegende Erkenntnisse über die Wirkungsmechanismen von LVZ auf die Hydratation gewonnen. Es hat sich gezeigt, dass die verzögernde Wirkung von LVZ auf die Bildung von schwer löslichem Calciumphosphonat zurückzuführen ist, welches die Partikeloberflächen žabdichtetœ. Vom Angebot an gelöstem Calcium hängt es ab, ob sich das žabdichtendeœ Calciumphosphonat direkt bildet oder ob durch den Calciumanspruch des LVZ eine kurzzeitig verstärkte Hydratation reaktiver Klin-kerphasen hervorgerufen wird. Sulfatoptimierte Zemente wiesen aufgrund der Anteile an Sulfatträger genüge! nd Calcium-Ionen für eine sofortige Bildung von Calciumphosphonat auf. In Verbindung mit der Bildung von primärem Ettringit bildet die Sulfatträgeroptimierung die Grundlage für die erwünschte Wirkungsweise des Zusatzmittels. N2 - In addition to the large group of plasticizing admixtures, such kind of admixtures are required which enable a very long time of workability of concrete. The workability of concrete over a period of more than 90 hours can be achieved by long-term retarders. This new type of admixture is based on phosphonic acid. By systematic investigations profound knowledge about the operative mechanisms of long-term retarders could be drawn. The retarding action is due to a formation of sparingly soluble calcium phosphonate which žseal upœ the particle surface. Whether the addition of long-term retarder leads to an immediate formation of calcium phosphonate or to a short termed acceleration of the hydration of reactive clinker phases depends on the supply of solved calcium. Because of the adjusted calcium sulphate content in cement the concentration of calcium is high enough for an immediate formation of sparingly soluble calcium! phosphonate. In combination with the formation of primary ettringite the calcium sulphate agent is the basis for the desired mode of action of the long-term retarder. KW - Beton KW - Recycling KW - Hydratation KW - Klinker KW - Betonzusatzmittel KW - Betonzusatzmittel KW - Langzeitverzögerer KW - Phosphonocarbonsäure (PBTC) KW - Wirkungsmechanismen KW - Zement KW - concrete admixture KW - long-term retarder KW - phosphonocarbon acid (PBTC) KW - operative mechanisms KW - cement Y1 - 2004 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20040211-232 ER - TY - THES A1 - Phung Thi, Thu Ha T1 - Metakaolin as an Additive in Composite Cement N2 - Metakaolin made from kaolin is used around the world but rarely in Vietnam where abundant deposits of kaolin is found. The first studies of producing metakaolin were conducted with high quality Vietnamese kaolins. The results showed the potential to produce metakaolin, and its effect has on strength development of mortars and concretes. However, utilisation of a low quality kaolin for producing Vietnamese metakaolin has not been studied so far. The objectives of this study were to produce a good quality metakaolin made from low quality Vietnamese kaolin and to facilitate the utilisation of Vietnamese metakaolin in composite cements. In order to reach such goals, the optimal thermal conversion of Vietnamese kaolin into metakaolin was carried out by many investigations, and as such the optimal conversion is found using the analysis results of DSC/TGA, XRD and CSI. During the calcination in a range of 500 – 800 oC lasting for 1 – 5 hours, the characterisation of calcinated kaolin was also monitored for mass loss, BET surface, PSD, density as well as the presence of the residual water. It is found to have a well correlation between residual water and BET surface. The pozzolanic activity of metakaolin was tested by various methods regarding to the saturated lime method, mCh and TGA-CaO method. The results of the study showed which method is the most suitable one to characterise the real activity of metakaolin and can reach the greatest agreement with concrete performance. Furthermore, the pozzolanic activity results tested using methods were also analysed and compared to each other with respect to the BET surface. The properties of Vietnam metakaolin was established using investigations on water demand, setting time, spread-flowability, and strength. It is concluded that depending on the intended use of composite cement and weather conditions of cure, each Vietnamese metakaolin can be used appropriately to produce (1) a composite cement with a low water demand (2) a high strength of composite cement (3) a composite cement that aims to reduce CO2 emissions and to improve economics of cement products (4) a high performance mortar. The durability of metakaolin mortar was tested to find the needed metakaolin content against ASR, sulfat and sulfuric acid attacks successfully. KW - metakaolin KW - composite cement KW - durability KW - cement Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20130705-19764 SN - 978-3-00-042655-1 PB - F. A. Finger-Institut für Baustoffkunde CY - Weimar ER - TY - RPRT A1 - Bonhag-De Rosa, Katharina A1 - Boettger, Till A1 - Gynz-Rekowski, Christoph von T1 - The "Stapelhaus": Experimental building project on the campus of the Bauhaus-Universität Weimar N2 - The project is a cooperation between the bauhaus.ifex and MFPA Weimar and is intended to develop step by step as an experimental student village. Special focus is given to sustainability and construction using different building materials. For the construction of the first room module, CemCel was chosen as a new, lightweight and fibre-based building material. KW - Architecture KW - cellulose KW - stacking system KW - papercrete KW - studies in 1:1 scale KW - monolithic KW - cement Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20200325-41139 ER -