7.4 Baustofftechnologie
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Erscheinungsjahr
- 2022 (29) (entfernen)
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- Zeitschriftenartikel (14)
- Beitrag zu einem Tagungsband (7)
- Vortrag (5)
- Beitrag zu einem Sammelband (1)
- Dissertation (1)
- Posterpräsentation (1)
Schlagworte
- Structural build-up (5)
- Cement (3)
- Hydration (3)
- Non-destructive testing (3)
- Rheological properties (3)
- Superplasticizer (3)
- Accelerated testing (2)
- Additive manufacturing of concrete (2)
- Alkali-activated materials (2)
- Angle of repose (2)
- Bingham fluid (2)
- Cement hydration (2)
- Flow properties (2)
- Flowability (2)
- Hausner ratio (2)
- Modelling (2)
- Penetration test (2)
- Polyphosphate (2)
- Powders (2)
- Process monitoring (2)
- Sift-proofness (2)
- Thixotropy (2)
- Abwassersysteme (1)
- Accelerated test (1)
- Acid attack (1)
- Acid resistance (1)
- Admixture (1)
- Alkali silica reaction (1)
- Alkalisch aktivierte Bindemittel (1)
- Alkalische Aktivierung (1)
- Alternative Bindemittel (1)
- BOFS (1)
- Blended cement (1)
- Bodenfilter (1)
- Brick clay (1)
- Calcined clay (1)
- Carbonation (1)
- Compatibility (1)
- Compressive strength (1)
- Concrete (1)
- Concrete Carbonation (1)
- Concrete repair (1)
- Corrosion inhibitor (1)
- Damage analysis (1)
- Dauerhaftigkeit (1)
- Dissolution (1)
- Durability (1)
- Earth block masonry (1)
- FTIR-ATR Measurements (1)
- Gel-bound Colorants (1)
- Hybrid cements (1)
- Hydraulic reactivity (1)
- Illite (1)
- Instandsetzung (1)
- Kalzinierte Tone (1)
- Kinetics (1)
- Leichte Gesteinskörnung (1)
- Lithium aluminosilicates (1)
- Load-bearing behaviour (1)
- MIC (1)
- Mauerwerkbruch (1)
- Microstructure (1)
- Mitigation strategies (1)
- Moisture content (1)
- Papierasche (1)
- Polysaccharides (1)
- Pore solutions (1)
- Portland Cement (1)
- Portland clinker (1)
- Potato starch (1)
- Provenancing (1)
- Raman spectroscopy (1)
- Realkalisierung (1)
- Reinforced concrete (1)
- Reparatursysteme (1)
- Retardation (1)
- Rheological (1)
- Rheology (1)
- Road pavement (1)
- Rohstoffliches Recycling (1)
- Sekundärrohstoff (1)
- Sol-gel (1)
- Sorption isotherm (1)
- Sr isotopes (1)
- Stability (1)
- Steel corrosion (1)
- Stray current (1)
- Strätlingite (1)
- Sulfide oxidation (1)
- Superplasticizers (1)
- Texture analyzer (1)
- Thermal Gravimetric Analysis (1)
- Thermodynamic modelling (1)
- Verbund (1)
- Viscosity modifying agents (1)
- Working mechanism (1)
- XANES (1)
- Zement (1)
- Ziegelton (1)
- pH Indicator (1)
Organisationseinheit der BAM
- 7 Bauwerkssicherheit (29)
- 7.4 Baustofftechnologie (29)
- 3 Gefahrgutumschließungen; Energiespeicher (2)
- 3.1 Sicherheit von Gefahrgutverpackungen und Batterien (2)
- 4 Material und Umwelt (2)
- 4.4 Thermochemische Reststoffbehandlung und Wertstoffrückgewinnung (2)
- 7.1 Baustoffe (2)
- 7.7 Modellierung und Simulation (2)
- 8 Zerstörungsfreie Prüfung (2)
- 8.2 Zerstörungsfreie Prüfmethoden für das Bauwesen (2)
Paper des Monats
- ja (2)
Eingeladener Vortrag
- nein (5)
Influence of the hydroxypropylation of starch on its performance as viscosity modifying agent
(2022)
Synopsis: Starch is a commonly used viscosity modifying agent (VMA). The performance of starch as VMA depends on its origin (e.g. potato, corn, cassava, etc.) and corresponding molecular properties, such as molecular weight, ratio between amylose and amylopectin etc. Depending upon the application, the efficiency of starch can be enhanced by hydroxypropylation. The maximum degree of substitution (DoS) cannot be greater than 3.0, which is the number of hydroxy groups per glucose monomer in the polymer. In the current research three potato starches exhibiting the DoS of 0.4, 0.6 and 0.8 were utilised. The influence of the modified starch on the rheological properties and hydration of cement paste, as well as the viscosity of the pore solution were investigated. Our findings show that the starch with the highest DoS increases the dynamic yield stress the most, while the plastic viscosity is less dependent on the DoS. Additionally, starch with the highest DoS retards hydration to lower degree than other starches.
Synopsis: The paper presents the results of a study on the influence of agitation on the structural build-up of fresh cement pastes using a penetration test. It first presents results about the influence of the penetrating shape’s geometry on the influence on the cement paste specimen. Then, results are shown for the load-deflection curves depending upon time and agitation before testing. Based on the observation of the force required to penetrate the sample, conclusions on the structural build-up can be made. The observations were made over the course of time with samples that were left at rest and partly agitated before testing at different time steps. The setup allows to identify the contribution of the chemical reaction to the structural build-up process. The presence of superplasticizer obviously reduces the load that cement paste can withstand, while the loss of thixotropy is found notably lower than that of neat cement pates
The structural build-up of fresh cement paste is often considered as a purely thixotropic phenomenon in literature even though cementitious materials undergo a non-reversible hydration process that can have an influence on the structuration process. In the current paper a method is proposed to validate the impact of the non-reversible structural build-up. It is shown that fresh cement paste samples lose their structural gain almost completely due to thixotropy while the structural build-up due to hydration can be observed but occurs in a significantly lower order of magnitude over the course of the first hours of hydration. In addition, it is shown, that the chemical component of the structural build-up accelerates with the onset of the acceleration period of hydration, while its contribution in the entire structural build-up remains constant.
Ein zentrales Fundament moderner Gesellschaften ist eine intakte Abwasserinfrastruktur. Schäden infolge biogener Schwefelsäurekorrosion von konventionellen Betonen haben jedoch zu einem erheblichen Sanierungsbedarf geführt. Alkaliaktivierte Mörtel besitzen aufgrund eines hohen Säurewiderstands das Potential, einen Beitrag zur langfristigen Lösung dieses Problems zu leisten. Dazu müssen jedoch zunächst die Faktoren, die den Haftverbund zwischen diesen Mörteln und dem Betonsubstrat bestimmen, besser verstanden werden, um die Eigenschaften der Beschichtungssysteme gezielt anpassen und verbessern zu können. Die vorliegende Arbeit liefert hierzu einen Beitrag und zeigt dadurch Wege zu einer technisch machbaren und nachhaltigen Sanierung von Abwasserbauwerken auf.
Aim of this study is to provide information about moisture dependent material behaviour of unstabilised loadbearing earth blocks and mortars. Compressive strength and Young’s modulus were investigated after conditioning in varying relative humidity reaching from 40 % up to 95 %. The material composition and physical properties were investigated to understand the influence of relative humidity onto the mechanical properties. A normalisation of strength and stiffness by the values obtained at 23 ◦C and 50 % relative humidity reveals a linear dependence of compressive strength and Young’s modulus that is regardless of the material composition.
Thus, it is possible to describe the influence of relative humidity onto the load-bearing behaviour of unstabilised earth masonry materials in a generally valid formulation.
Alkali-silica reaction (ASR) is a chemical reaction within concrete which can lead over time to cracking and spalling. Due to the complexity of the problem, it still causes damage to concrete constructions worldwide.
The publication aims to illustrate the interdisciplinary research of the German Federal Institute for Materials Research and Testing (BAM) within the last 20 years, considering all aspects of ASR topics from the macro to the micro level. First, methods for characterization and assessment of ASR risks and reaction products used at BAM are explained and classified in the international context. Subsequently the added value of the research approach by combining different, preferably nondestructive, methods across all scales is explained using specific examples from a variety of research projects. Aspects covered range from the development of new test-setups to assess aggregate reactivity, to analysis of microstructure and reaction products using microscopical, spectroscopical and X-ray methods, to the development of a testing methodology for existing concrete pavements including in-depth analysis of the visual damage indicator and the de-icing salt input using innovative testing techniques. Finally, research regarding a novel avoidance strategy that makes use of internal hydrophobization of the concrete mix is presented.
In general, pH-sensitive colorants such as phenolphthalein are applied on freshly split surfaces of building structures to determine the state of carbonation. For years, it has been known that the aerosols of phenolphthalein are suspected of being carcinogenic. Hence, more work has currently being done on alternative indicators for the use in research and the use on construction sites. Over the past years, mainly pH indicators from other research areas and natural dyes were investigated for their usability to cementitious systems. This paper presents the experimental results of using phenolphthalein solution bound in agar-agar gel. This gel-bound indicator allows the future use of the already known phenolphthalein dye without the health hazards for the user. To demonstrate the flexibility of the gel-bound colorant, different application forms of the indicator were carried out and assessed. In addition, the results obtained by the different methods were statistically evaluated to ensure validity.
The accuracy of the results was confirmed by thermogravimetric analysis and IR spectroscopic studies as reference methods. It has also succeeded to demonstrate the comparability of the results achieved by the gel-bound colorant with the results of the common sprayed application method. As an additional gain in knowledge, comparative results of indicator tests, TGA analysis, and FTIR investigation are shown.
Introduction of a monitoring system for Bingham fluids in additive manufacturing with concrete
(2022)
Freeform additive manufacturing of concrete structures is a rising technology in civil engineering with several fascinating advantages. Nonetheless, to ensure reliability and structural integrity, standards and quality control are required in the future to bring this technology into the market. As the concrete is manufactured continuously, continuous quality control of the printing process is also required, i.e. comprehensive process monitoring. At BAM, a test rig will be installed, enabling the printing of concrete structures with a maximum size of 2 m x 1 m x 1 m (l x w x h). Here, process monitoring is the focus of the test rig. In this study, we show the results of the first pump tests, including the measurement of several parameters such as temperature and pressure along the supply system, i.e. from the concrete pump to the printer head.
Introduction of a monitoring system for Bingham fluids in additive manufacturing with concrete
(2022)
Freeform additive manufacturing of concrete structures is a rising technology in civil engineering with several fascinating advantages. Nonetheless, to ensure reliability and structural integrity, standards and quality control are required in the future to bring this technology into the market. As the concrete is manufactured continuously, continuous quality control of the printing process is also required, i.e. comprehensive process monitoring. At BAM, a test rig will be installed, enabling the printing of concrete structures with a maximum size of 2 m x 1 m x 1 m (l x w x h). Here, process monitoring is the focus of the test rig. In this study, we show the results of the first pump tests, including the measurement of several parameters such as temperature and pressure along the supply system, i.e. from the concrete pump to the printer head.
Hydrous lithium aluminosilicate (L–A–S–H) and lithium aluminate (L–A–H) gels are candidate precursors for glass-ceramics and ceramics with potential advantages over conventional processing routes. However, their structure before calcination remained largely unknown, despite the importance of precursor structure on the properties of the resulting materials. In the present study, it is demonstrated that L–A–S–H and L–A–H gels with Li/Al ≤ 1 can be produced via an organic steric entrapment route, while higher Li/Al ratios lead to crystallization of gibbsite or nordstrandite. The composition and the structure of the gels was studied by thermogravimetric analysis, X-ray diffraction, 27Al and 29Si magic-angle spinning nuclear magnetic resonance, and Raman spectroscopy. Aluminium was found to be almost exclusively in six-fold coordination in both the L–A–H and the L–A–S–H gels. Silicon in the L–A–S–H gels was mainly in Q4 sites and to a lesser extent in Q3 sites (four-fold coordination with no Si–O–Al bonds). The results thus indicate that silica-rich and aluminium-rich domains formed in these gels.