Deformation and failure mechanism of deep cement mixing walls: experimental study using physical model tests

The average overtopping discharge is an important parameter for the design and reinforcement of dikes. Rock armour on the waterside slopes and berms of dikes is widely used to reduce the wave overtopping discharge by introducing slope roughness and dissipation of energy in the permeable armour layer. However, methods for estimating the influence of a rock berm and roughness of rock armour at dikes on the average overtopping discharge still need to be developed and/or validated. Therefore, this study aims to develop empirical equations to quantify the reductive influence of rock armour on wave overtopping at dikes. Empirical equations for estimating the effects of rock berms and roughness are derived based on the analysis of experimental data from new physical model tests. The influence of roughness of the rock armour applied on parts of waterside slopes is estimated by introducing the location weighting coefficients. Results show that the newly derived equations to predict the average overtopping discharge at dikes lead to a significantly better performance within the tested ranges compared to existing empirical equations.

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Determination of failure mechanism of very soft clay behind L-pile wall with physical model tests

Japanese Geotechnical Society Special Publication ◽

10.3208/jgssp.tha-04 ◽

2016 ◽

Vol 2 (8) ◽

pp. 374-377

Author(s):

Pornpot Tanseng ◽

Winit Haema ◽

Warayoot Chaiyasook

Keyword(s):

Physical Model ◽

Failure Mechanism ◽

Soft Clay ◽

Model Tests ◽

Physical Model Tests

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EXPERIMENTAL STUDY ON TSUNAMI FORCES ACTING ON VERTICAL SEAWALLS UNDER OVERFLOW

Coastal Engineering Proceedings ◽

10.9753/icce.v36.papers.37 ◽

2018 ◽

pp. 37

Author(s):

Yukinobu Oda ◽

Takahide Honda ◽

Teppei Omata

Keyword(s):

Experimental Study ◽

Optimal Design ◽

Physical Model ◽

Estimation Method ◽

Model Tests ◽

Tsunami Disaster ◽

Physical Model Tests ◽

Force Characteristics ◽

Estimation Models

For tsunami seawalls installed along coastline, measures for tsunami disaster assuming overflow are required from the viewpoint of failsafe. Therefore, the tsunami force verified under overflow condition is necessary for the optimal design. Some estimation models of the tsunami forces acting on land structures have already been proposed but they were of a non-overflow condition. In this study, physical model tests for the tsunami force acting on vertical seawalls were conducted to examine the tsunami force characteristics under overflow conditions, and an estimation method of the overflowing tsunami force was proposed and verified.

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Deformation Mechanism of Deposit Landslide Induced by Fluctuations of Reservoir Water Level Based on Physical Model Tests

10.21203/rs.3.rs-227583/v1 ◽

2021 ◽

Author(s):

Zihua Jiang ◽

Huanling Wang ◽

Weichau Xie

Keyword(s):

Water Level ◽

Physical Model ◽

Failure Process ◽

Model Tests ◽

Reservoir Water ◽

Reservoir Water Level ◽

Deformation And Failure ◽

Landslide Stability ◽

Level Difference ◽

Physical Model Tests

Abstract Located in reservoir area of Dahuaqiao Hydropower Station in Lancang River, the Dahua ancient deposit landslide exhibits high possibility of reactivation due to reservoir impoundment. In this study, physical model tests are conducted to investigate the variations of groundwater, deformation, and failure process of the landslide under different fluctuation speeds of reservoir water level. Influence of groundwater on landslide stability when reservoir water level fluctuating is analyzed then. Results indicate that the seepage pressure caused by water level difference can increase landslide displacement. During the dropping process of reservoir water level, the relationship between landslide displacement and water level difference can be described by a power function model. Groundwater has negative effects on stability of landslides, and the damage is characterized by traction landslide. More attentions should be paid on the displacement of the front edge of the landslide during the first rise and drop of reservoir water level. The study provides indispensable information for scheduling reservoir water level in the Dahuaqiao and others similar reservoir areas, thus having vital importance.

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High internal pressure induced fracture patterns in rock masses surrounding caverns: Experimental study using physical model tests

Engineering Geology ◽

10.1016/j.enggeo.2015.08.024 ◽

2015 ◽

Vol 197 ◽

pp. 158-171 ◽

Cited By ~ 12

Author(s):

Pornkasem Jongpradist ◽

Jukkrawut Tunsakul ◽

Warat Kongkitkul ◽

Nattapol Fadsiri ◽

Goran Arangelovski ◽

...

Keyword(s):

Experimental Study ◽

Internal Pressure ◽

Physical Model ◽

Model Tests ◽

Rock Masses ◽

Fracture Patterns ◽

Physical Model Tests ◽

High Internal Pressure

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CFD COMPUTATIONS ON FIRE AND SMOKE PROPAGATION WITH PHOENICS2006; VALIDATION OF 6-FLUX RADIATION MODEL AND SIMPLE COMBUSTION MODEL USING PHYSICAL MODEL TESTS

International Symposium on Advances in Computational Heat Transfer ◽

10.1615/ichmt.2008.cht.1770 ◽

2008 ◽

Author(s):

G. M. van Uffelen

Keyword(s):

Physical Model ◽

Model Tests ◽

Combustion Model ◽

Radiation Model ◽

Physical Model Tests

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Physical model test on deformation and failure mechanism of deposit landslide under gradient rainfall

Bulletin of Engineering Geology and the Environment ◽

10.1007/s10064-021-02566-y ◽

2022 ◽

Vol 81 (1) ◽

Author(s):

Huanling Wang ◽

Zihua Jiang ◽

Weiya Xu ◽

Rubin Wang ◽

Weichau Xie

Keyword(s):

Physical Model ◽

Failure Mechanism ◽

Model Test ◽

Physical Model Test ◽

Deformation And Failure

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Site observations and physical model tests of the friction coefficient between concrete-type element and foundation layer for immersed tunnel

Tunnels and Underground Cities: Engineering and Innovation meet Archaeology, Architecture and Art ◽

10.1201/9780429424441-415 ◽

2019 ◽

pp. 3921-3929

Author(s):

M. Lin ◽

W. Lin ◽

X. Wang

Keyword(s):

Friction Coefficient ◽

Physical Model ◽

Model Tests ◽

Physical Model Tests ◽

Immersed Tunnel ◽

Concrete Type

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PORT RESONANCE MITIGATION MODELED INTRODUCING ARJ-R STRUCTURES

Coastal Engineering Proceedings ◽

10.9753/icce.v36v.structures.38 ◽

2020 ◽

pp. 38

Author(s):

Jose A. GONZALEZ-ESCRIVA ◽

Josep R. MEDINA ◽

Joaquin M. GARRIDO

Keyword(s):

Reflection Coefficient ◽

Physical Model ◽

Large Scale ◽

Low Frequency ◽

Model Tests ◽

Wave Interference ◽

Low Frequency Oscillations ◽

Physical Model Tests ◽

Similar Cost ◽

Interference Mechanism

ARJ-R caissons are based on the "long-circuit" concept (Medina et al, 2016) that allows the extension of the destructive wave interference mechanism to mitigate low frequency oscillations without enlarging the width of the caisson. The performance of the ARJ-R caissons is referred to its reflection coefficient (Cr) which was obtained through large-scale physical model tests (Gonzalez-Escriva et al, 2018). In this paper, the effectiveness of Anti-Reflective Jarlan-type structures for Port Resonance mitigation (ARJ-R) has been assessed numerically for the port of Denia (Spain). ARJ-R structures are constructible, with similar dimensions as conventional vertical quay caissons and with a similar cost (15percent more than conventional vertical caisson).Recorded Presentation from the vICCE (YouTube Link): https://youtu.be/LomQEVpvjik

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