@misc{GehlenThiel, author = {Gehlen, Christoph and Thiel, Charlotte}, title = {Schnellpr{\"u}fverfahren zur Bestimmung des Karbonatisierungswiderstandes}, series = {Proceedings, 59. BetonTage : Betone der Zukunft, Neu-Ulm, 24.-26.02.2015}, journal = {Proceedings, 59. BetonTage : Betone der Zukunft, Neu-Ulm, 24.-26.02.2015}, publisher = {Bauverl.}, language = {de} } @article{ThielKratzerGrimmetal., author = {Thiel, Charlotte and Kratzer, Johanna and Grimm, Benedikt and Kr{\"a}nkel, Thomas and Gehlen, Christoph}, title = {Effect of Internal Moisture and Outer Relative Humidity on Concrete Carbonation}, series = {CivilEng}, volume = {4}, journal = {CivilEng}, number = {3}, publisher = {MDPI}, address = {Basel}, doi = {10.3390/civileng3040058}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:898-opus4-56091}, pages = {1039 -- 1052}, abstract = {With steadily rising CO2 concentrations in the ambient air and fast-changing concretecompositions with reduced clinker contents, the availability of reliable and accelerated concrete car-bonation tests is of crucial importance to design durable structures. This paper focuses on the effectsof moisture under accelerated conditions and the effects of different CO2 exposure conditions. Mor-tar prisms incorporating three different cement types were cured and stored at either 50\% or 65\%relative humidity (RH). Afterwards, the prisms were carbonated at different ambient humidities(50, 57 and 65\%), different CO2 concentrations (0.04, 1 and 3 vol.\%) and complemented by a seriesof tests at increased gas pressure (2 barg). High-resolution test methods were used to explain theunderlying carbonation mechanisms. The results show that pre-conditioning for two weeks—ascurrently suggested by the European Standard—seems to be too short because the initial inner mois-ture content severely affects the carbonation rate. Relative humidity during carbonation of 57\% ledto higher carbonation rates compared to 50\% and 65\%. In addition, climate data needs to be period-ically (preferably permanently) recorded in research experiments and in laboratory testing to ensurefair interpretation of experimental results.}, language = {en} } @inproceedings{ThielHaynackGeyeretal., author = {Thiel, Charlotte and Haynack, Alexander and Geyer, Sebastian and Gehlen, Christoph and Braun, Alexander}, title = {CarboDB-Open Access Database for Concrete Carbonation}, series = {Proceedings of the 3rd RILEM Spring Convention and Conference (RSCC 2020), Volume 1: Strategies for a Resilient Built Environment, March 9-14, 2020, Guimar{\~a}es, Portugal}, booktitle = {Proceedings of the 3rd RILEM Spring Convention and Conference (RSCC 2020), Volume 1: Strategies for a Resilient Built Environment, March 9-14, 2020, Guimar{\~a}es, Portugal}, editor = {Pereira, Eduardo B. and Barros, Joaquim A. O. and Figueiredo, Fabio P.}, publisher = {Springer International Publishing}, address = {Cham}, isbn = {978-3-030-76547-7}, doi = {10.1007/978-3-030-76547-7_8}, pages = {79 -- 90}, abstract = {Sustainable service life design of reinforced concrete structures relies on accurate input values. However, in the field of carbonation induced corrosion some input parameters and statistical distributions still need to be validated for worldwide climate conditions. Furthermore, many well-published literature data is not considered due to different storage conditions. At the suggestion of CEN/TC 104/SC1/WG1 the database "CarboDB" was created providing open access to extensive information on concrete carbonation under different storage conditions. The natural carbonation coefficient as well as the minimum concrete cover can be calculated for chosen situations. CarboDB provides reliable data on concrete carbonation in order to increase existing knowledge on concrete carbonation. The database is available online at http://carbodb.bgu.tum.de//. By registration further contribution is possible and appreciated. New insights can be gained by merging several sources. For natural carbonation, testing only up to 140 days underestimates the carbonation progress of concretes with limestone fillers and high amount of ground granulated blast furnace slag.}, language = {en} } @incollection{GehlenMayerThieletal., author = {Gehlen, Christoph and Mayer, Till Felix and Thiel, Charlotte and Fischer, Christian}, title = {Lebensdauerbemessung}, series = {Beton Kalender 2021 : Fertigteile, Integrale Bauwerke}, volume = {110}, booktitle = {Beton Kalender 2021 : Fertigteile, Integrale Bauwerke}, publisher = {Wilhelm Ernst \& Sohn}, doi = {10.1002/9783433610206.ch1}, pages = {1 -- 57}, abstract = {Christoph Gehlen, Till Felix Mayer, Charlotte Thiel und Christian Fischer beschreiben die Lebensdauerbemessung von Beton. Umfassend werden Transport- und Sch{\"a}digungsmodelle vorgestellt, die die Mechanismen der Carbonatisierung, der Chlorideindringung, der Korrosion und der korrosionsinduzierten Rissbildung im Stahlbeton beschreiben. Die damit einhergehende Verbundthematik wird erl{\"a}utert. Auch wird auf alle Mechanismen der Betonkorrosion eingegangen. Die Bemessung in Bezug auf die Dauerhaftigkeit und damit Absch{\"a}tzungen f{\"u}r die Lebensdauer von Beton wird in drei unterschiedlich genauen Formaten gef{\"u}hrt. Neben dem vollprobabilistischen Format wird beschrieben, wie Bemessungen auch auf Grundlage von Nachweisen basierend auf Teilsicherheitsbeiwerten durchgef{\"u}hrt werden k{\"o}nnen. Daran anschließend wird aufgezeigt, welche deskriptiven Bemessungsans{\"a}tze sich daraus ableiten lassen. An einigen exemplarisch herausgegriffenen Objektbeispielen wird die Lebensdauerbemessung konkret vorgef{\"u}hrt.}, language = {de} } @article{HaynackSekandarJithenderetal., author = {Haynack, Alexander and Sekandar, Zadran and Jithender, J. Timothy and Gambarelli, Serena and Kr{\"a}nkel, Thomas and Thiel, Charlotte and Ozbolt, Josko and Gehlen, Christoph}, title = {Can a Hend-Held 3D Scanner Capture Temperature-Induced Strain of Mortar Samples? Comparison between Experimental Measurements and Numerical Simulations}, series = {mathematics}, volume = {11}, journal = {mathematics}, number = {17}, publisher = {MDPI}, address = {Basel}, doi = {10.3390/math11173672}, abstract = {The expected lifespan of cement-based materials, particularly concrete, is at least 50 years. Changes in the pore structure of the material need to be considered due to external influences and associated transport processes. The expansion behaviour of concrete and mortar during freeze-thaw attacks, combined with de-icing salt agents, is crucial for both internal and external damage. It is essential to determine and simulate the expansion behaviour of these materials in the laboratory, as well as detect the slow, long-term expansion in real structures. This study measures the expansion of mortar samples during freeze-thaw loading using a high-resolution hand-held 3D laser scanner. The specimens are prepared with fully or partially saturated pore structures through water storage or drying. During freeze-thaw experiments, the specimens are exposed to pure water or a 3\% sodium chloride solution (NaCl). Results show contraction during freezing and subsequent expansion during thawing. Both test solutions exhibit similar expansion behaviour, with differences primarily due to saturation levels. Further investigations are required to explore the changing expansion behaviour caused by increasing microcracking resulting from continuous freeze-thaw cycles. A numerical analysis using a 3D coupled hygro-thermo-mechanical (HTM) model is conducted to examine the freeze-thaw behaviour of the mortar. The model accurately represents the freezing deformation during the freeze-thaw cycle.}, language = {en} } @inproceedings{ThielGehlen, author = {Thiel, Charlotte and Gehlen, Christoph}, title = {On the determination of carbonation in cementitious materials}, series = {Challenges in Design and Management of Structures. Proceedings of the International Conference on Sustainable Materials Systems and Structures (SMSS2019) Durability, Monitoring and Repair of Structures, 18.-22.03.2019, Rovinja, Croatio}, booktitle = {Challenges in Design and Management of Structures. Proceedings of the International Conference on Sustainable Materials Systems and Structures (SMSS2019) Durability, Monitoring and Repair of Structures, 18.-22.03.2019, Rovinja, Croatio}, publisher = {RILEM}, isbn = {978-2-35158-217-6}, pages = {373 -- 380}, abstract = {For material testing, qualification and subsequent assessment fast, simple, reliable and economic methods are needed. This paper provides an overview of different techniques to determine the depth of carbonation in cementitious materials. The easiest and cheapest way is to remove a core or a fragment of concrete cover and spray a colour indicator on the fresh fractured surface (by splitting). Here, 1 \% phenolphthalein in 70 \% ethanol is most widely used. However, this only indicates in which area the concrete has a pH value below 8.2-10, but not the actual carbonation front which is on average about 20 \% higher. Since phenolphthalein is carcinogenic, alternative colour indicators were investigated in the laboratory. 0.5 \% Curcumin showed similar colour change to phenolphthalein. In addition, 0.1 \% thymolphthalein proved to be an alternative. Scattering within one measurement was lower than for phenolphthalein and the results were closer to the carbonation depths determined by different analytical methods (TGA and LA-ICP-MS). Furthermore, the transition pH-value of thymolphthalein is in the area of 9.3-10.5 which is closer to the actual carbonation front, allowing a more accurate assessment of the risk of reinforcement corrosion.}, language = {en} } @incollection{ThielStengelGehlen, author = {Thiel, Charlotte and Stengel, T. and Gehlen, Christoph}, title = {Life cycle assessment (LCA) of road pavement materials}, series = {Eco-efficient Construction and Building Materials}, booktitle = {Eco-efficient Construction and Building Materials}, publisher = {Woodhead Publishing}, doi = {10.1533/9780857097729.2.368}, pages = {368 -- 403}, abstract = {At present the choice of materials and techniques in road construction is dictated by structural requirements and economic aspects. However, ecological factors have gained in importance due to environmental considerations in politics and society. To evaluate the environmental impact of motorways, a life cycle assessment (LCA) according to ISO 14040 was carried out for different pavement types. By investigating different case scenarios, the reduction potential of environmental impact was quantified. The biggest reduction in air pollution can be achieved by improving pavement properties (e.g., texture, stiffness and flatness) which would significantly reduce the fuel consumption of vehicles.}, language = {en} } @article{ThielGoetzfriedGehlen, author = {Thiel, Charlotte and Goetzfried, Franz Xaver and Gehlen, Christoph}, title = {Physikalische und chemische Auswirkungen von tauenden Chloriden auf Betone von Verkehrsbauwerken}, series = {Straße und Autobahn}, volume = {64}, journal = {Straße und Autobahn}, number = {9}, publisher = {Kirschbaum}, pages = {684 -- 688}, abstract = {Zur Untersuchung des Einflusses von Loesungen der Tausalze Natriumchlorid, Calciumchlorid und Magnesiumchlorid auf die Dauerhaftigkeit von Beton wurden unter praxisnahen Bedingungen im Labor Betonprobekoerper, mit typischen Qualitaeten fuer Verkehrsbauwerke, unterschiedlichen Belastungszyklen unterzogen. Auch bei extremer Belastung durch wiederholte Nass- und Trockenphasen mit anschliessenden zyklischen Frost-Tau-Wechseln waren die physikalischen und chemischen Auswirkungen auf die Betone gering. Die festgestellten Unterschiede der verschiedenen Tausalze im Schaedigungsverhalten sind fuer die Praxis vernachlaessigbar. Fuer die Winterdienstpraxis laesst sich die Schlussfolgerung ziehen, dass zur Herstellung von Feuchtsalz im Hinblick auf die Dauerhaftigkeit von Strassenbeton und XF4-Beton die Loesungen der Chloride von Natrium, Calcium und Magnesium gleichermassen geeignet sind. Auch bei vorbeugender Fluessigstreuung mit NaCl-Sole ist auf Fahrbahnen mit normkonform zusammengesetztem Beton lediglich ein extrem geringer Angriff zu erwarten. (A) ABSTRACT IN ENGLISH: To investigate the influence of solutions of the de-icing salts sodium chloride, calcium chloride and magnesium chloride onto the durability of concrete, concrete specimens, with typical qualities for roads and bridges, were subjected to different load cycles under practical conditions. Also in the case of extreme load through repeated wet and dry phases with subsequent cyclical freeze-thaw-attack the physical and chemical effects on the concrete were low. The found differences of the different de-icing salts in the damage behaviour are negligible for the practice. The results prove that for the generation of pre-wetted salt, the solutions of the chlorides of sodium, calcium and magnesium are equally suitable with regard to the durability of concrete used in road construction and of XF4 concrete. Also in the case of preventive liquid spraying with NaCI-brine only an extremely small attack is to be expected on roads constructed with concrete conform to the current standards.}, language = {de} } @article{KesslerThielGrosseetal., author = {Kessler, Sylvia and Thiel, Charlotte and Grosse, Christian U. and Gehlen, Christoph}, title = {Effect of freeze-thaw damage on chloride ingress into concrete}, series = {Materials and Structures}, volume = {50}, journal = {Materials and Structures}, number = {2}, publisher = {Springer}, doi = {10.1617/s11527-016-0984-4}, abstract = {In cold climates, reinforced concrete structures (RCSs) are frequently and severely damaged by freeze-thaw (FT) and deicing-salt attack during winter periods. FT action can also cause additional water uptake known as frost suction. If a critical degree of water saturation is exceeded, severe deterioration of the microstructure of the concrete is likely, enhancing chloride ingress and increasing the probability of corrosion of its reinforcement. We present herein a test method to characterize the resistance of concrete to FT and chloride ingress. Chloride migration tests were performed on concretes with different degrees of FT deterioration, with and without deicing agents. The performance of RCSs is decisively affected under these combined actions. Quantitative description of the resulting FT damage is achieved using ultrasonic measurements and resonance frequency analysis. The test results confirm that the latter nondestructive test method provides more reliable evaluation of FT damage compared with usual ultrasonic pulse velocity measurements. Different concretes with supplementary cementitious materials and different degrees of FT deterioration with and without deicing agents were tested. While concrete made with air-entraining agents clearly showed the best FT resistance, concrete with ground-granulated blast-furnace slag showed superior resistance to both chloride migration and FT attack, both being positively affected by appropriate curing conditions.}, language = {en} } @article{ThielSkarabisGehlenetal., author = {Thiel, Charlotte and Skarabis, Jens and Gehlen, Christoph and Goetzfried, Franz Xaver}, title = {Einfluss des Sulfatgehalts von Tausalzen auf den Frost-Tausalz-Widerstand von Betonen im Bereich der Bundesfernstraßen}, series = {Straße und Autobahn}, journal = {Straße und Autobahn}, number = {11}, publisher = {Kirschbaum}, pages = {811 -- 815}, language = {de} }