Search

Your search keyword '"Stutz Hans Henning"' showing total 38 results
Start Over Author "Stutz Hans Henning"
38 results on '"Stutz Hans Henning"'

1. Evolution of excess pore water pressure in undrained claystructure interface shear tests

Author

Martinez Alejandro and Stutz Hans Henning

Subjects
soil-structure interface behaviour, fine-grained soils, excess pore water pressure, Environmental sciences, GE1-350
Abstract

Recent studies focused on the shear behaviour of clay-structure interfaces have shown the importance of the shearing rate on the strength of these interfaces. In normally-consolidated clays, increasing the shearing rate results in a decrease in the interface strength, while the trend is opposite in heavily overconsolidated clays. While analytical and empirical interpretation methods indicate that the generation of shear-induced excess pore pressures are responsible for theaforementioned trends, experiments with pore water pressure measurements at the clay-structure interface are rare. In this paper, we first describe a modified interface shear box testing setup that is equipped with a pore water pressure sensor. For this equipment, the fully rough structural surface was manufactured with a port at the centre of the clay-surface interface to measure the pore water pressure. We present the results of undrained clay-structure interface tests on normally consolidated (NC) and overconsolidated (OC) specimens of kaolin clay. The results agree with the expectations, where the NC specimens generate excess pore pressures with greater magnitudes and heavily OC specimens generate negative excess pore pressures. Measurements of the pore water pressures allow calculating vertical effective stresses, which can be used to investigate the effective stress paths followed by the clay-structure interface during the tests. This paper also provides a comparison of the measured values of beta and adhesion factors with previously published results and relationships used for the design of deep foundations.

Published
2024
Full Text
View/download PDF

4. Finite element modelling of an energy-geomembrane underground pumped hydroelectric energy storage system

Author

Stutz Hans Henning, Norlyk Peter, Sørensen Kenneth, Andersen Lars Vabbersgaard, Sørensen Kenny Kataoka, and Clausen Johan

Subjects
Environmental sciences, GE1-350
Abstract

The increasing need for energy storage technology has led to a massive interest in novel energy storage methods. The energy geomembrane system is such a novel energy storage method. The concept of the system is briefly introduced, and a holistic numerical model of the system is presented. The model uses advanced finite-element techniques to model the energy storage system using fluid cavity elements. The developed geomembrane energy system is modelled with different constitutive models to represent the soil behaviour: a linear elastic model, a nonlinear Mohr-Coulomb model, and a hypoplastic constitutive model. The consequences of these different models on the results are studied. Hereby, the focus is the first inflation and deflation cycle of the system.

Published
2020
Full Text
View/download PDF

5. Modelling and calibration for cyclic soil-structure interface behaviour

Author

Kullolli Borana, Cuéllar Pablo, Baeßler Matthias, and Stutz Hans Henning

Subjects
Environmental sciences, GE1-350
Abstract

The structural performance of many geotechnical systems (e.g. axially-loaded pile foundations), depends on the shearing resistance at the soil interface, which may govern the load bearing capacity of the foundation. Experimental investigations have shown that this interaction is mainly localised within a narrow shear band next to the structure. Under cyclic loading, a contraction of the soil at the interface may arise (net volume loss), possibly leading to a stress relaxation and thus to a reduction of the load bearing capacity (the so-called friction fatigue). Based on the constitutive similarities between soil continua and interfaces, we propose here the adaption of a Generalized Plasticity model for sandy soils for the numerical analysis of interface problems. In this contribution, the results of an experimental campaign for the parameter calibration of the constitutive model are presented. The tests have been conducted with a ring shear device involving different normal stresses, roughness of the steel plates as well as cyclic loading. The new modelling approach shows promising results and has the additional practical advantage that the interface zone and the soil continuum can both be described with the same constitutive model in general boundary value problems.

Published
2019
Full Text
View/download PDF

6. Strength anisotropy at soil-structure interfaces with snake skin inspired structural surfaces

Author

Stutz Hans Henning, Martinez Alejandro, Heepe Lars, Tram Tramsen Halvor, and Gorb Stanislav N.

Subjects
Environmental sciences, GE1-350
Abstract

Typical soil-structure interfaces exhibit a response that is independent of loading direction due to the symmetry of the surfaces' profile. This study presents results from an experimental investigation on the response of sand specimens sheared against three types of surfaces bio-inspired from the skin along the underside of snakes. The results of shear box interface shear tests indicate that all three surfaces exhibit significant anisotropy in response in terms of mobilized shear resistances and corresponding volumetric changes. A discussion on the practical implications and potential benefits of implementation of the snake skin-inspired surfaces in engineering design is provided.

Published
2019
Full Text
View/download PDF

17. Neohypoplasticity Revisited.

Author

Mugele, Luis, Niemunis, Andrzej, and Stutz, Hans Henning

Abstract

This paper presents further improvements to the neohypoplasticity (NHP), a constitutive model for sand, which overcomes some shortcomings of widely used hypoplastic models. The novelties presented in this paper includes a new description of the additional dilatancy due to the structural variable z$\bm {z}$ and the introduction of a new state variable, denoted as hr$\bm {h}^r$, to consider the small strain stiffness in case of a 1D loading reversal. They remove shortcomings of earlier versions of NHP. The new formulations are presented and the performance of NHP is validated with experimental data from Karlsruhe fine sand. Both monotonic and cyclic tests are simulated under drained and undrained conditions. The results demonstrate that the NHP accurately reproduces the observed behaviour in monotonic and cyclic experiments. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

20. Bio-inspired geotechnical engineering: principles, current work, opportunities and challenges

Author

Martinez, Alejandro, primary, Dejong, Jason, additional, Akin, Idil, additional, Aleali, Ali, additional, Arson, Chloe, additional, Atkinson, Jared, additional, Bandini, Paola, additional, Baser, Tugce, additional, Borela, Rodrigo, additional, Boulanger, Ross, additional, Burrall, Matthew, additional, Chen, Yuyan, additional, Collins, Clint, additional, Cortes, Douglas, additional, Dai, Sheng, additional, DeJong, Theodore, additional, Del Dottore, Emanuela, additional, Dorgan, Kelly, additional, Fragaszy, Richard, additional, Frost, J. David, additional, Full, Robert, additional, Ghayoomi, Majid, additional, Goldman, Daniel I., additional, Gravish, Nicholas, additional, Guzman, Ivan L., additional, Hambleton, James, additional, Hawkes, Elliot, additional, Helms, Michael, additional, Hu, David, additional, Huang, Lin, additional, Huang, Sichuan, additional, Hunt, Christopher, additional, Irschick, Duncan, additional, Lin, Hai Thomas, additional, Lingwall, Bret, additional, Marr, Alen, additional, Mazzolai, Barbara, additional, McInroe, Benjamin, additional, Murthy, Tejas, additional, O'Hara, Kyle, additional, Porter, Marianne, additional, Sadek, Salah, additional, Sanchez, Marcelo, additional, Santamarina, Carlos, additional, Shao, Lisheng, additional, Sharp, James, additional, Stuart, Hannah, additional, Stutz, Hans Henning, additional, Summers, Adam, additional, Tao, Julian, additional, Tolley, Michael, additional, Treers, Laura, additional, Turnbull, Kurtis, additional, Valdes, Rogelio, additional, van Paassen, Leon, additional, Viggiani, Gioacchino, additional, Wilson, Daniel, additional, Wu, Wei, additional, Yu, Xiong, additional, and Zheng, Junxing, additional

Published
2022
Full Text
View/download PDF

28. Shearing of clay-structure interfaces at varying deformation rates

Author

Martinez, Alejandro and Stutz, Hans Henning

Abstract

Many types of geotechnical systems rely on the transfer of load acrosssoil-structure interfaces, including deep foundations, earth retaining structures,landfills, and seabed pipelines. The loading applied to these interfaces can inducesoil deformations at widely different strain rates which can control their strength.This paper describes the results from a laboratory study on the interface shearbehavior of clay-structure interfaces at varying deformation/shear rates. The resultsof shear box tests on kaolinite specimens sheared against surfaces of varyingroughness indicate that as the shear rate is increased the drainage conditions at theinterface change from drained to partially drained to undrained. This change indrainage conditions, from drained to undrained, results in a decrease in shearstrength on normally-consolidated clay specimens due to generation of excess porepressures. On the other hand, shearing at faster rates results in an increase in shearstrength in over-consolidated specimens due to generation of negative porepressures. Particle Image Velocimetry (PIV) analyses indicate that soil deformationsat the meso-scale decrease as the shearing rate is increased. The results presentedherein highlight the role of surface roughness on the mobilization of interfacestrength, and provides new evidence that surface roughness can alter the drainageconditions mobilized at the interface.

Published
2019

30. Unfundierte Kritik:Eine Erwiderung Auf Einen Kommentar Zu Schwächen Von Open Access

Author

Fischer, Caroline, Eisentraut, Nikolas, Fischer, Georg, Fecher, Benedikt, Friesilke, Sascha, Goller, Marion, Hamann, Hanjo, Havemann, Johanna, Heck, Tamara, Heimstädt, Maximilian, Hirsbrunner, Simon David, von Lautz, Alexander Horst, Müller-Birn, Claudia, Mayer, Katja, Petzer, Tatjana, Schmalz, Xenia, Schoch, Kerstin, Schubotz, Moritz, Steinhardt, Isabel, Steinhoff, Tobias, Stutz, Hans Henning, Teckentrup, Vanessa, Tikhonov, Aleksej, Wenzel, Tobias, and Wildgans, Julia

Published
2019

31. Modelling and calibration for cyclic soil-structure interface behaviour

Author

Kullolli, Borana, Cuéllar, Pablo, Baessler, Matthias, Stutz, Hans Henning, Ibraim, Erdin, and Tarantino, Alessandro

Abstract

The structural performance of many geotechnical systems (e.g. axially-loaded pile foundations), depends on the shearing resistance at the soil interface, which may govern the load bearing capacity of the foundation. Experimental investigations have shown that this interaction is mainly localised within a narrow shear band next to the structure. Under cyclic loading, a contraction of the soil at the interface may arise (net volume loss), possibly leading to a stress relaxation and thus to a reduction of the load bearing capacity (the so-called friction fatigue). Based on the constitutive similarities between soil continua and interfaces, we propose here the adaption of a Generalized Plasticity model for sandy soils for the numerical analysis of interface problems. In this contribution, the results of an experimental campaign for the parameter calibration of the constitutive model are presented. The tests have been conducted with a ring shear device involving different normal stresses, roughness of the steel plates as well as cyclic loading. The new modelling approach shows promising results and has the additional practical advantage that the interface zone and the soil continuum can both be described with the same constitutive model in general boundary value problems.

Published
2019

32. Strength anisotropy at soil-structure interfaces with snake skin inspired structural surfaces

Author

Stutz, Hans Henning, Martinez, Alejandro, Heepe, Lars, Tramsen, Halvor Tram, Gorb, Stanislav N., Ibraim, Erdin, and Tarantino, Alessandro

Subjects
integumentary system
Abstract

Typical soil-structure interfaces exhibit a response that is independent of loading direction due to the symmetry of the surfaces’ profile. This study presents results from an experimental investigation on the response of sand specimens sheared against three types of surfaces bio-inspired from the skin along the underside of snakes. The results of shear box interface shear tests indicate that all three surfaces exhibit significant anisotropy in response in terms of mobilized shear resistances and corresponding volumetric changes. A discussion on the practical implications and potential benefits of implementation of the snake skin-inspired surfaces in engineering design is provided.

Published
2019

36. Unfundierte Kritik. Eine Erwiderung auf einen Kommentar zu Schwächen von Open Access

Author

Fischer, Caroline, primary, Eisentraut, Nikolas, additional, Fischer, Georg, additional, Fecher, Benedikt, additional, Friesike, Sascha, additional, Goller, Marion, additional, Hamann, Hanjo, additional, Havemann, Johanna, additional, Heck, Tamara, additional, Heimstädt, Maximilian, additional, Hirsbrunner, Simon David, additional, von Lautz, Alexander H., additional, Müller-Birn, Claudia, additional, Mayer, Katja, additional, Petzer, Tatjana, additional, Schmalz, Xenia, additional, Schoch, Kerstin, additional, Schubotz, Moritz, additional, Steinhardt, Isabel, additional, Steinhoff, Tobias, additional, Stutz, Hans Henning, additional, Teckentrup, Vanessa, additional, Tikhonov, Aleksej, additional, Wenzel, Tobias, additional, and Wildgans, Julia, additional

Published
2019
Full Text
View/download PDF

37. Hypoplastische Modelle für Boden-Bauwerkskontakte - Modellierung und Implementierung

Author

Stutz, Hans Henning, Wuttke, Frank, and Herle, Ivo

Subjects
Hypoplastizität, Abschlussarbeit, Numerische Modellierung, Faculty of Mathematics and Natural Sciences, Hypoplasticity, Soil- structure interface, doctoral thesis, Contact mechanics, Boden-Bauwerkskontakt, Hypoplastizität, Kontaktmechanik, Numerische Modellierung, Numerical modelling, Kontaktmechanik, Mathematisch-Naturwissenschaftliche Fakultät, ddc:620, Soil- structure interface, Hypoplasticity, Contact mechanics, Numerical modelling, Boden-Bauwerkskontakt, ddc:6XX
Abstract

The consideration of interfaces is an important issue when modelling the holistic global structural behaviour of geotechnical engineering structures. The most prominent example is the shaft friction of axial loaded piles and anchors. In this thesis, a stochastic assessment scheme was proposed and applied. This scheme was modified to take into account the special considerations for the assessment of interface models. Based on the assessment and a state-of-the-art review, theoretical considerations were used and a novel scheme was developed. This scheme uses reformulated mathematical operators as well as reduced stress and strain rate tensors, based on existing constitutive equations, to model interfaces. Shear stress mobilization and the volumetric behaviour are predicted more accurately, and the bearing behaviour of frictional contacts can be modelled in a better way. By using the novel scheme, an older hypoplastic interface model for granular interfaces was enhanced, and three different hypoplastic clay interface models were proposed. In addition to the theoretical constitutive model formulation, an implementation method was developed. This allowed a user-friendly implementation of advanced constitutive models as interface models using the capabilities of a commercial finite element software package. This concept was exemplary applied to various 3D boundary value problems and the benefits of such advanced hypoplastic interface model are discussed. Das Kontaktverhalten von geotechnischen Strukturen ist wichtig zur Berechnung des ganzheitlichen Strukturverhaltens bei der Berücksichtigung von Boden-Bauwerks-Interaktion. Bekannte Beispiele dafüur sind axial belastete Pfähle und Anker. In dieser Arbeit wurden verschiedene existierende Modelle zur Modellierung von Boden-Bauwerks-Kontakten mit Hilfe eines stochastischen Ansatzes untersucht und bewertet. Anhand dieser Bewertung und dem Stand der Forschung wurde basierend auf theoretischen Überlegungen ein Methode entwickelt. Diese erlaubt es, die Kontaktflächen mittels modifizierter mathematischen Operatoren und reduzierten Spannungs und Dehnungstensoren, basierend auf existierenden Kontinuums-Modelle zu berechnen. Dies führt zu verbesserten Modellierung der Scherspannungs-Mobilisierung und des volumentrischen Verhaltens der Kontaktzone. Basierend auf dem neuen Konzept wurde ein existierendes, hypoplastisches Modell für granulare Kontaktreibung verbessert und drei unterschiedliche hypoplastische Modelle für das Kontaktverhalten von feinkörnigen Böden entwickelt. Alle Modelle wurden verifiziert und mit experimentellen Daten validiert. Zusätzlich zur Formulierung der theoretischen Modelle wurde ein Konzept erarbeitet, mit dem die entwickelten Modelle in eine Finite-Elemente Software implementiert werden konnten. Hierzu werden existierende Boden-Kontinuumsmodelle benutzt. Die Implementierung dieser Modelle wurde mittels unterschiedlicher Randwertprobleme erfolgreich validiert und die Vorteile der Modelle sowie des Implementierungskonzeptes diskutiert. Die theoretischen Überlegungen und das benutzerfreundliche Implementierungsschema wird die Zugänglichkeit dieser zukunftsweisenden Modelle für Ingenieure verbessern. Hierdurch können die Ergebnisse der Modellierungen und die experimentelle Beobachtungen angeglichen werden, was die Aussagefähigkeit von Finite-Elemente Analysen weiter verbessern wird.

Published
2016

38. Untersuchungen zum Verflüssigungswiderstand eines Tagebau‐Kippenbodens bei Anregung durch erdbebentypische Signale.

Author

Knittel, Lukas, Machaček, Jan, Gehring, Sabine, Raabe, Paul, Dahmen, Dieter, Wichtmann, Torsten, and Stutz, Hans Henning

Subjects
*LIGNITE mining, *TORSIONAL load, *SOIL liquefaction, *DEAD loads (Mechanics), *CYCLIC loads, *EMBANKMENTS
Abstract

Translation abstract Investigations on the liquefaction resistance of an open‐cast lignite mine soil under loading by earthquake‐typical signalsFor the embankments of the planned opencast mining lakes in the Rhenish mining area, the proof of the stability under earthquake action must be provided. According to the guideline for the investigation of the stability of slopes in lignite opencast mines (RfS – Richtlinie für Standsicherheitsuntersuchungen [1]), the permanent slopes must be designed and constructed in such a way that a soil liquefaction is not to be expected. For the proof, in which actions and soil resistances are locally compared with each other, the irregular earthquake signal is converted into a regular signal with an equivalent number of cycles and constant amplitude. In this paper, this conversion is investigated for a typical earthquake signal of the Rhenish area, which was obtained from a dynamic finite element calculation. Triaxial tests with vertical cyclic loading and hollow cylinder triaxial tests with cyclic torsional loading are performed to investigate the liquefaction behaviour of an opencast mine soil under the influence of this earthquake signal. The results of these tests are compared with data from further tests with constant amplitude. It can be shown that the factor β for converting irregular to regular signals depends on the type of loading and the magnitude of the static shear or deviatoric stress. On the basis of the experiments, recommendations for the choice of β for the Rhenish mining area are given. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results