Experimental and Numerical Investigations of Mixing Performance of Mixing Agitators of Deep Cement Mixing Ships

Chen, Pingshan; Teng, Chao; Wang, Haiyang; Wan, Yuyang; Chen, Shunhua; Cao, Dingfeng; Zang, Mengyan

doi:10.3390/buildings14061809

Buildings

2024

DOI: 10.3390/buildings14061809

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Experimental and Numerical Investigations of Mixing Performance of Mixing Agitators of Deep Cement Mixing Ships

Pingshan Chen,

Chao Teng,

Haiyang Wang

et al.

Abstract: Recent decades have witnessed the increasing usage of deep cement mixing (DCM) mixers in the field of marine infrastructure construction. The mixing performance, including the torque history, can be helpful for structural safety evaluation, design, and the optimization of agitators, which is of engineering significance. However, to the best of the authors’ knowledge, there are no related publications that have reported the mixing behaviors of deep cement mixing agitators. In light of this, the present work con… Show more

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Cited by 3 publications

References 25 publications

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Laboratory Investigation of Deep Soil Mixing for the Improvement of Salt-Cemented Soils

Hammad,

Mohamedzein,

Al-Aghbari

et al. 2024

Geotech Geol Eng

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Laboratory Investigation of Deep Soil Mixing for the Improvement of Salt-Cemented Soils

Hammad,

Mohamedzein,

Al-Aghbari

et al. 2024

Geotech Geol Eng

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Classification of soil layers in Deep Cement Mixing using optimized random forest integrated with AB-SMOTE for imbalance data

Zhao,

Teng

2025

Computers and Geotechnics

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The Effect of Protective Barriers on the Dynamic Response of Underground Structures

Mobaraki,

Vaghefi

2024

Buildings

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Engineers have dedicated considerable attention over the past ten years to studying the influences of dynamic loads caused by both intentional and unintentional events on infrastructures. As a result, determining how buried structures react to explosions and enhancing their security against blast loads have become crucial subjects in defensive engineering. To achieve this goal, constructing a protective barrier, which is known as a blast wall, in front of structures can be an effective measure. This research focused on examining the impact of a protective barrier on the response of a box-shaped tunnel located in Kobe, Japan, using a comprehensive numerical approach. The results revealed that incorporating a barrier with widths of either 1 m or 2 m resulted in a significant reduction in peak pressure. Specifically, the use of a 1 m wide barrier resulted in a 77% decrease, while a 2 m wide barrier achieved an even greater reduction of 84%. Additionally, it was observed that minimizing the distance between the barrier and the explosion point, as well as increasing the width of the barrier, resulted in reduced peak pressure throughout all sections of the tunnel.

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Experimental and Numerical Investigations of Mixing Performance of Mixing Agitators of Deep Cement Mixing Ships

Cited by 3 publications

References 25 publications

Laboratory Investigation of Deep Soil Mixing for the Improvement of Salt-Cemented Soils

Laboratory Investigation of Deep Soil Mixing for the Improvement of Salt-Cemented Soils

Classification of soil layers in Deep Cement Mixing using optimized random forest integrated with AB-SMOTE for imbalance data

The Effect of Protective Barriers on the Dynamic Response of Underground Structures

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