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18 results on '"Jungwirth, Jörg"'

1. Reinforcement Strategies for Additively Manufactured Concrete Elements : Exploring the Potential of Different Reinforcement Materials for Selective Cement Activation

Author

Richter, Christiane, Maurer, Christian, Jungwirth, Jörg, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Barros, Joaquim A. O., editor, Cunha, Vítor M. C. F., editor, Sousa, Hélder S., editor, Matos, José C., editor, and Sena-Cruz, José M., editor

Published
2024
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3. 3D Concrete Printing – from Mechanical Properties to Structural Analysis

Author

Richter, Christiane, Jungwirth, Jörg, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Ilki, Alper, editor, Çavunt, Derya, editor, and Çavunt, Yavuz Selim, editor

Published
2023
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4. Crack control for repair and strengthening of reinforced concrete structures using the multi-cracking behaviour of Ultra-high Performance Fibre Reinforced Shotcrete (UHPFRSC)

Author

Strotmann Andre and Jungwirth Jörg

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

Ultra-High Performance Fibre Reinforced Concrete (UHPFRC) is an innovative material for the repair and/or strengthening of reinforced concrete structures. In the field of traffic infrastructure, the outstanding mechanical properties are used as a protective surface layer and to increase the load capacity of the structure. UHPFRC is characterised by a dense granular structure and correspondingly high resistance against chloride attack. The material is typically applied as cast in-situ concrete. To optimise implementation of the strengthening and repair method, the UHPFRC is applied as sprayed concrete, so-called Ultra-High Performance Fibre Reinforced Shotcrete (UHPFRSC). The research aims to increase the service life of damaged and/or overloaded structures. Crack widths in the UHPFRSC layer must be limited to avoid migration of chlorides. The thin UHPFRSC layer provides crack distribution and control of localised macro cracks in the existing reinforced concrete structure. The fibres in the Ultra-High Performance Shotcrete (UHPSC) allows for limiting the crack width to 50 µm. When the UHPFRSC is applied on cracked reinforced concrete, it can be assumed that multi-cracking in the UHPFRSC surface layer will provide a chloride-dense layer equivalent to a coating. Under load, the two layers - UHPFRC and RC - act as a composite. For structural analysis, a particular focus must be placed on the interaction between cementitious materials. In addition, the pre-damage and pre-loading of the existing structure will influence the structural behaviour and crack formation. The paper presents the results of bending tests of UHPFRC - RC composite elements. The investigation shows the outstanding crack control behaviour of UHPFRSC. Based on this investigation, an analytical model will be provided, and a calculation of the crack widths will be derived. The research presents a central aspect of a large interdisciplinary research project at Munich University of Applied Science, called i-SCUP.

Published
2022
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6. Schadensbeispielkatalog zur Zustandsbewertung von Hochbauten: Auf Basis des Schadenskatalogs der RI-EBW-PRÜF, der Checkliste der VDI 6200 und weiterer Normen.

Author

Ziegler, Birga, Eder, Elisabeth, Reim, Sabine, and Jungwirth, Jörg

Abstract

Copyright of Kolloquium Erhaltung von Bauwerken (KEVB) is the property of Narr Francke Attempto Verlag GmbH & Co.KG and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023

8. Zum Tragverhalten von zugbeanspruchten Bauteilen aus Ultra-Hochleistungs-Faserbeton

Author

Jungwirth, Jörg and Muttoni, Aurelio

Subjects
béton de fibres, tie, béton à hautes performances (BHP), fissuration, high performance concrete (HPC), stabilized cracking, crack, réponse statique, structural behaviour, tension, comportement statique, fissuration stabilisée, traction, fiber reinforced concrete, tirant, static response, fissure, crack growth
Abstract

Ultra-High Performance Fiber-Reinforced Concrete (UHPFRC) can be considered, due to its high strength and improved durability, as one of the leading recent innovations in civil engineering. Material scientists have developed a very efficient, high-tech material by optimizing the concrete composition and improving the density of the cement matrix. Its structural behavior and in particular its relatively high ductility, despite the brittle behavior of the cement matrix, is influenced significantly by the crack-bridging behavior of the fibers. This behavior affects not only the tensile behavior, but also the global material behavior, i.e.: bending (tension by bending), compression (transversal tension, confinement), shear, punching, concentrated load introduction, etc. In the presented study, the tensile behavior of UHPFRC is analyzed as a basis for its structural behavior. The investigations extend from the 'micro-scale' behavior of the crack-bridging fibers in one crack to the 'macro-scale' behavior of tension members composed of UHPFRC. To obtain efficient tensile performance, the use of the UHPFRC in combination with reinforcing bars is expedient. The bond between the reinforcing bars and the UHPFRC is investigated, in order to analyze and understand the structural response of reinforced UHPFRC tension members. At each level of investigation, emphasis is placed on comprehension of the mechanical process. The influence of the fiber orientation, creep, shrinkage, and pre-stressing is discussed. Based on the studied mechanical processes, micro- and macro-scale modeling of the structural behavior is carried out. The cracking mechanisms of UHPFRC are examined in the research work. For the structural response of reinforced UHPFRC tension members, the influence of the double multi-cracking behavior is particularly relevant. First, multiple meso-cracks form controlled by the fibers and then multiple macro-cracks form controlled by the bond between the UHPFRC and the reinforcing steel. With a model based on these mechanisms, the structural response of tension members made from different types of UHPFRC can be described. Depending on the configuration of the tension member (i.e.: type of UHPFRC, reinforcement ratio, steel type, pre-stressing), five different failure regimes result for reinforced UHPFRC tension members. For practical applications the following conclusions can be drawn: Tension members composed of UHPFRC show very efficient structural behavior. The resistance of the UHPFRC supplements the steel resistance according to its strain-respective cracking state. The well distributed cracking of the UHPFRC leads to a considerable increase in the rigidity of the tension member (high tension stiffening effect). To obtain an efficient tension member with a large deformation capacity, a relatively high reinforcement ratio is necessary. Due to the associated continuous hardening behavior and significant elastic deformation, the use of high-strength reinforcing steel without a yielding plateau is favorable.

Published
2005
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10. Underspanned Bridge Structures in Reactive Powder Concrete (RPC)

Author

Jungwirth, Jörg and Muttoni, Aurelio

Subjects
béton à hautes performances (BHP), high performance concrete (HPC), pont, béton précontraint, Theory of structures, béton tendu, ductility, size effect, armature, construction hybride, bridge, Innovation, hybrid construction, concrete in tension, reinforcement, armature minimale, prestressed concrete, fissuration, durabilité, minimum rei, analyse des structures, effet d'échelle, minimum reinforcement, concrete, durability, crack growth, béton, ductilité

15. Versuche an Stützen aus ultra hochfestem Beton

Author

Stirnimann, Daniel, Jungwirth, Jörg, and Muttoni, Aurelio

Subjects
béton à hautes performances (BHP), high performance concrete (HPC), colonne, column, structural behaviour, comportement statique

18. Zum Tragverhalten von zugbeanspruchten Bauteilen aus Ultra-Hochleistungs-Faserbeton

Author

Jungwirth, Jörg and Jungwirth, Jörg

Abstract

Ultra-High Performance Fiber-Reinforced Concrete (UHPFRC) can be considered, due to its high strength and improved durability, as one of the leading recent innovations in civil engineering. Material scientists have developed a very efficient, high-tech material by optimizing the concrete composition and improving the density of the cement matrix. Its structural behavior and in particular its relatively high ductility, despite the brittle behavior of the cement matrix, is influenced significantly by the crack-bridging behavior of the fibers. This behavior affects not only the tensile behavior, but also the global material behavior, i.e.: bending (tension by bending), compression (transversal tension, confinement), shear, punching, concentrated load introduction, etc. In the presented study, the tensile behavior of UHPFRC is analyzed as a basis for its structural behavior. The investigations extend from the 'micro-scale' behavior of the crack-bridging fibers in one crack to the 'macro-scale' behavior of tension members composed of UHPFRC. To obtain efficient tensile performance, the use of the UHPFRC in combination with reinforcing bars is expedient. The bond between the reinforcing bars and the UHPFRC is investigated, in order to analyze and understand the structural response of reinforced UHPFRC tension members. At each level of investigation, emphasis is placed on comprehension of the mechanical process. The influence of the fiber orientation, creep, shrinkage, and pre-stressing is discussed. Based on the studied mechanical processes, micro- and macro-scale modeling of the structural behavior is carried out. The cracking mechanisms of UHPFRC are examined in the research work. For the structural response of reinforced UHPFRC tension members, the influence of the double multi-cracking behavior is particularly relevant. First, multiple meso-cracks form controlled by the fibers and then multiple macro-cracks form controlled by the bond between the UHPFRC and the reinfo, Ultra-Hochleistungs-Faserbeton (UHLFB) ist wegen seiner hohen Druckfestigkeit und seiner verbesserten Dauerhaftigkeit als einer der Innovationen der letzten Jahre im Bauingenieurwesen anzusehen. Materialtechnologen haben durch Optimierung der Betonzusammensetzung und Verbesserung der Packungsdichte einen sehr leistungsfähigen "High-Tech" Werkstoff entwickelt. Sein Tragverhalten und insbesondere sein, trotz des spröden Verhaltens der hochfesten Matrix, duktiles Verhalten werden massgebend durch die rissüberbrückende Wirkung der Fasern beeinflusst. Hierdurch wird nicht nur das Zugtragverhalten verbessert, sondern auch die globalen Trageigenschaften des Materials: Biegetragverhalten (Biegezug), Druck (Querzug, Umschnürung), Querkraft, Durchstanzen, konzentrierte Lasteinleitungen, etc... Die vorliegende Arbeit behandelt das Zugtragverhalten des UHLFB als Grundlage für das globale Tragverhalten. Die Untersuchungen erstrecken sich von der ‚microscale’ Betrachtung des Verhaltens der rissüberbrückenden Fasern in einem Riss bis zur ‚macroscale’ Betrachtung von zugbelasteten Bauteilen aus UHLFB. Um ein effizientes Zugtragverhalten zu erhalten, ist es sinnvoll in Kombination mit dem UHLFB Bewehrungselemente einzusetzen. Es wird daher das Verbundverhalten zwischen Bewehrungselementen und UHLFB untersucht, um daraus das Tragverhalten von bewehrten UHLFB Zugelementen zu entwickeln und zu diskutieren. In allen Betrachtungsebenen wird ausführlich auf das Verständnis der mechanischen Vorgänge eingegangen. Es werden die Einflüsse durch die Faserorientierung, durch Schwinden und Kriechen sowie durch Vorspannung diskutiert. Basierend auf den mechanischen Überlegungen wird eine Modellierung des Tragverhaltens in den verschiedenen Betrachtungsebenen durchgeführt. Mit der Arbeit werden die Rissbildungsmechanismen des UHLFB erarbeitet. Für das Tragverhalten bewehrter UHLFB-Zugelemente ist hierbei insbesondere der Effekt der doppelten Multirissbildung relevant. Dabei bilden sich zunächst, b, Le béton fibré à ultra haute performance (BFUHP) constitue, grâce à sa résistance à la compression élevée et à sa durabilité améliorée, une des innovations de ces dernières années dans le domaine de la construction. La science des matériaux a développé un matériau « high-tech » très performant par l'optimisation de la composition du béton et par l'amélioration de la densité de sa matrice cimentaire. Son comportement structural et sa ductilité relativement élevée, malgré le comportement fragile de la matrice, sont principalement influencés par l'effet des fibres qui traversent les fissures formées. Ce phénomène influence non seulement le comportement à la traction, mais aussi le comportement structural des éléments de structure: comportement à la flexion (traction par flexion), compression (traction transversale, confinement), effort tranchant, poinçonnement, introduction ponctuelle des efforts, etc.… La thèse traite le comportement à la traction du BFUHP comme base pour le comportement structural global. L'étude comporte l'analyse à l'échelle microscopique du comportement des fibres traversant une fissure, puis s'élargit vers l'analyse d'un élément de structure en BFUHP soumis à la traction. Pour obtenir un comportement structural efficace à la traction, il est judicieux de disposer une armature dans les éléments structuraux en BFUHP. L'adhérence entre les barres d'armature et le BFUHP est analysée, pour en déduire et comprendre le comportement structural des tirants en BFUHP armé. L'analyse met l'accent sur la compréhension des processus mécaniques. L'influence de l'orientation des fibres, du retrait et du fluage ainsi que de la précontrainte est discutée. La modélisation du comportement structural se fait sur la base de réflexions mécaniques pour chaque niveau d'analyse. Ce travail de recherche décrit les mécanismes de fissuration du BFUHP. Pour le comportement structural de tirants en BFUHP armés, l'effet de la « multi fissuration double » est d'importance primor

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