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4. Performance of the Cement Grouting Material and Optimization of the Mix Proportion for the Free Section of the Prestressed Anchor Bar.

Author

Wu, Chaoguang, Chen, Zhiya, Zhang, Xuemin, Li, Zikun, Wang, Lichuan, Ouyang, Bin, and Liu, Jin

Subjects
GROUT (Mortar), CEMENT slurry, COMPRESSIVE strength, SLURRY, ANCHORS, GROUTING
Abstract

Increasing the water–cement ratio and water-reducer dosage of cement slurry enhances its fluidity. However, a high water–cement ratio diminishes the beneficial effects of water reducers on fluidity. The stone content of the slurry decreases as the water-reducer dosage increases. Additionally, the water–cement ratio significantly affects stone content. However, when the water–cement ratio exceeds a threshold value, stone content decreases. Furthermore, the threshold value of the water–cement ratio decreases with increasing water-reducer dosage. Without the addition of the water reducer, as the water–cement ratio increases the overall integrity of the grout stone decreases. The addition of the water reducer alters the surface pore distribution, wherein "uniform small pores" change to "localized large pores." Based on the multi-objective optimization of Matlab, the recommended optimal mix composition for a slow-setting cement slurry is a water–cement ratio of 0.25 and water-reducer dosage of 1.5%. With the use of this optimized mix composition, the stone content and compressive strength increase by 7.8% and 145.6%, respectively, compared to those obtained using the recommended mix ratio in the specifications. Additionally, all relevant performance parameters meet the requirements specified by previous standards. [ABSTRACT FROM AUTHOR]

Published
2023
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5. Revealing the aging process of solid electrolyte interphase on SiOx anode.

Author

Qian, Guoyu, Li, Yiwei, Chen, Haibiao, Xie, Lin, Liu, Tongchao, Yang, Ni, Song, Yongli, Lin, Cong, Cheng, Junfang, Nakashima, Naotoshi, Zhang, Meng, Li, Zikun, Zhao, Wenguang, Yang, Xiangjie, Lin, Hai, Lu, Xia, Yang, Luyi, Li, Hong, Amine, Khalil, and Chen, Liquan

Subjects
SOLID electrolytes, ELECTRON energy loss spectroscopy, SUPERIONIC conductors, NEGATIVE electrode, TOMOGRAPHY, ANODES
Abstract

As one of the most promising alternatives to graphite negative electrodes, silicon oxide (SiOx) has been hindered by its fast capacity fading. Solid electrolyte interphase (SEI) aging on silicon SiOx has been recognized as the most critical yet least understood facet. Herein, leveraging 3D focused ion beam-scanning electron microscopy (FIB-SEM) tomographic imaging, we reveal an exceptionally characteristic SEI microstructure with an incompact inner region and a dense outer region, which overturns the prevailing belief that SEIs are homogeneous structure and reveals the SEI evolution process. Through combining nanoprobe and electron energy loss spectroscopy (EELS), it is also discovered that the electronic conductivity of thick SEI relies on the percolation network within composed of conductive agents (e.g., carbon black particles), which are embedded into the SEI upon its growth. Therefore, the free growth of SEI will gradually attenuate this electron percolation network, thereby causing capacity decay of SiOx. Based on these findings, a proof-of-concept strategy is adopted to mechanically restrict the SEI growth via applying a confining layer on top of the electrode. Through shedding light on the fundamental understanding of SEI aging for SiOx anodes, this work could potentially inspire viable improving strategies in the future. Observing the evolution of the solid electrolyte interphase on SiOx-based electrodes in Li-ion batteries is challenging. Here, authors use three-dimensional tomography to visualize the growth of the interphase on single SiOx particles and propose a mechanical confinement strategy to prevent aging. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Practical evaluation of prelithiation strategies for next‐generation lithium‐ion batteries.

Author

Chen, Shiming, Wang, Zhen, Zhang, Meng, Shi, Xiaoze, Wang, Lu, An, Weifeng, Li, Zikun, Pan, Feng, and Yang, Luyi

Abstract

With the increasing market demand for high‐performance lithium‐ion batteries with high‐capacity electrode materials, reducing the irreversible capacity loss in the initial cycle and compensating for the active lithium loss during the cycling process are critical challenges. In recent years, various prelithiation strategies have been developed to overcome these issues. Since these approaches are carried out under a wide range of conditions, it is essential to evaluate their suitability for large‐scale commercial applications. In this review, these strategies are categorized based on different battery assembling stages that they are implemented in, including active material synthesis, the slurry mixing process, electrode pretreatment, and battery fabrication. Furthermore, their advantages and disadvantages in commercial production are discussed from the perspective of thermodynamics and kinetics. This review aims to provide guidance for the future development of prelithiation strategies toward commercialization, which will potentially promote the practical application of next‐generation high‐energy‐density lithium‐ion batteries. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Ground Radioactivity Distribution Reconstruction and Dose Rate Estimation Based on Spectrum Deconvolution.

Author

Xu, Hang, Ai, Xianyun, Wang, Ying, Chen, Wenzhuo, Li, Zikun, Guan, Xian, Wei, Xing, Xie, Jianming, and Chen, Ye

Subjects
DECONVOLUTION (Mathematics), RADIOACTIVE pollution, RADIOISOTOPES, CESIUM isotopes, RADIOACTIVITY, CONTINUOUS distributions, DRONE aircraft, RADIATION measurements
Abstract

Estimating the gamma dose rate at one meter above ground level and determining the distribution of radioactive pollution from aerial radiation monitoring data are the core technical issues of unmanned aerial vehicle nuclear radiation monitoring. In this paper, a reconstruction algorithm of the ground radioactivity distribution based on spectral deconvolution was proposed for the problem of regional surface source radioactivity distribution reconstruction and dose rate estimation. The algorithm estimates unknown radioactive nuclide types and their distributions using spectrum deconvolution and introduces energy windows to improve the accuracy of the deconvolution results, achieving accurate reconstruction of multiple continuous distribution radioactive nuclides and their distributions, as well as dose rate estimation of one meter above ground level. The feasibility and effectiveness of the method were verified through cases of single-nuclide (137Cs) and multi-nuclide (137Cs and 60Co) surface sources by modeling and solving them. The results showed that the cosine similarities between the estimated ground radioactivity distribution and dose rate distribution with the true value were 0.9950 and 0.9965, respectively, which could prove that the proposed reconstruction algorithm would effectively distinguish multiple radioactive nuclides and accurately restore their radioactivity distribution. Finally, the influences of statistical fluctuation levels and the number of energy windows on the deconvolution results were analyzed, showing that the lower the statistical fluctuation level and the more energy window divisions, the better the deconvolution results. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Atomic-Scale Imaging of Organic-Inorganic Hybrid Perovskite Using Transmission Electron Microscope.

Author

Bao, Lixia, Gao, Peifeng, Song, Tinglu, Xu, Fan, Li, Zikun, and Xu, Gu

Subjects
ELECTROSTATIC discharges, PEROVSKITE, ELECTRON beams, LOW temperatures, TRANSMISSION electron microscopy
Abstract

Transmission electron microscope (TEM) is thought as one powerful tool to imaging the atomic-level structure of organic inorganic hybrid perovskite (OIHP) materials, which provides valuable and essential guidance toward high performance OIHP-related devices. However, these OIHPs exhibit poor electron beam stability, severely limiting their practical applications in TEM. Here in this article, the application of TEM to obtain atomic-scale image of OIHPs, main obstacles in identifying the degradation product and future prospects of TEM in the characterization of OIHP materials are reviewed and presented. Three potential strategies (sample protection, low temperature technology, and low-dose technologies) are also proposed to overcome the current drawback of TEM technology. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Hyphantria cunea (Drury) Showed a Stronger Oviposition Preference for Native Plants after Invading the Subtropical Region of China.

Author

Li, Zikun, Yin, Hao, Li, Yue, Wang, Yiping, Yu, Wenxian, Feng, Bojie, and Zhang, Shouke

Subjects
NATIVE plants, PECAN, OVIPARITY, INTRODUCED species, HOST plants, WHITE mulberry
Abstract

Hyphantria cunea (Drury) (Lepidoptera: Erebidae) is an invasive alien species that is widely distributed in northern China. H. cunea now occurs for the first time in the subtropical areas of China. Despite the importance of identifying oviposition host plants to control the spread of H. cunea, it is not clear whether H. cunea has a new oviposition preference for plant hosts in the new habitat after invading the subtropical region. At the same time, whether the presence of new plant volatiles of new hosts in new habitats influences the oviposition host preference of H. cunea has not been studied. In this study, we investigated the oviposition host plant preferences of H. cunea in the subtropical region of China. In the presence of multiple potential host plants, we found, for the first time, that H. cunea preferred Carya illinoinensis, Morus alba, and Carya cathayensis for oviposition. Through the effects on plant volatiles and on the oviposition, ten volatile compounds with significant differences in relative abundance between five plants with different fitness levels were significantly correlated with the oviposition preference of females. Cis-Hex-3-en-1-ol, (E)-3-Hexen-1-ol, cis-3-Hexenyl acetate 1, and 3-Pentadiene,4-methyl, had a significant positive correlation with the adult oviposition preference. Our results provide an important research basis for the study of green prevention and control strategies of subtropical H. cunea in China. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Challenges and Perspectives toward Future Wide‐Bandgap Mixed‐Halide Perovskite Photovoltaics.

Author

Xu, Fan, Zhang, Meng, Li, Zikun, Yang, Xiaoyu, and Zhu, Rui

Subjects
PHOTOVOLTAIC power generation, SCIENTIFIC community, SOLAR cells, PRODUCTION sharing contracts (Oil & gas), PEROVSKITE
Abstract

Wide‐bandgap (WBG) perovskite solar cells (PSCs) are acknowledged as promising candidates for multijunction tandem and building photovoltaics, which attract broad research interest in related research communities. However, the performance of WBG PSCs based on the mixed‐halide perovskites still lags far behind their pure‐iodide counterparts because of the complex compositional evolution, huge photovoltage deficits, and intrinsic spectral losses. Here, by comprehensively understanding the representative WBG PSCs, the main "WBG drawbacks" from the device point of view are discussed in‐depth and three intrinsic critical issues for the growth of high‐quality WBG perovskites are proposed. The prospects for WBG PSCs toward future advancements and commercialization are also presented to guide the coming research hot spots. [ABSTRACT FROM AUTHOR]

Published
2023
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11. A Distributionally Robust Fuzzy Optimization Method for Single-Period Inventory Management Problems.

Author

Guo, Zhaozhuang, Sun, Yuefang, Tian, Shengnan, and Li, Zikun

Subjects
INVENTORY control, ROBUST optimization, DOMAIN decomposition methods, NEWSVENDOR model
Abstract

This paper investigates single-period inventory management problems with uncertain market demand, where the exact possibility distribution of demand is unavailable. In this condition, it is important to order a reliable quantity which can immunize against distribution uncertainty. To model this type of single-period inventory management problem, this paper characterizes the uncertain demand by generalized interval-valued possibility distributions. We present a novel concept about an uncertain distribution set to describe distribution perturbation characterization. First, we introduce a lambda selection of the interval-valued fuzzy variable, and the uncertain distribution set is a collection of all generalized possibility distributions of lambda selection variables. According to the uncertain distribution set, a new distributionally robust fuzzy optimization method is developed for single-period inventory management problems. Under mild assumptions, the robust counterpart of the proposed fuzzy single-period inventory management model is formulated, which is an optimization program with certain linear objectives and infinitely many integral constraints. We discuss the computational issue of integral constraints and reformulate equivalently the robust counterpart as three deterministic inventory submodels under generalized interval-valued trapezoidal possibility distributions. According to the characteristics of three submodels, a domain decomposition method is designed to find the robust optimal solution that can immunize against uncertainty in our single-period inventory management problem. Finally, some computational results demonstrate the efficiency of the proposed distributionally robust fuzzy optimization method. [ABSTRACT FROM AUTHOR]

Published
2023
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12. The Loading of Epigallocatechin Gallate on Bovine Serum Albumin and Pullulan-Based Nanoparticles as Effective Antioxidant.

Author

Li, Zikun, Wang, Xiaohan, Zhang, Man, He, Hongjun, Liang, Bin, Sun, Chanchan, Li, Xiulian, and Ji, Changjian

Subjects
EPIGALLOCATECHIN gallate, SERUM albumin, TRANSMISSION electron microscopes, BOS, OXIDANT status, HYDROGEN bonding
Abstract

Due to its poor stability and rapid metabolism, the biological activity and absorption of epigallocatechin gallate (EGCG) is limited. In this work, EGCG-loaded bovine serum albumin (BSA)/pullulan (PUL) nanoparticles (BPENs) were successfully fabricated via self-assembly. This assembly was driven by hydrogen bonding, which provided the desired EGCG loading efficiency, high stability, and a strong antioxidant capacity. The encapsulation efficiency of the BPENs was above 99.0%. BPENs have high antioxidant activity in vitro, and, in this study, their antioxidant capacity increased with an increase in the EGCG concentration. The in vitro release assays showed that the BPENs were released continuously over 6 h. The Fourier transform infrared spectra (FTIR) analysis indicated the presence of hydrogen bonding, hydrophobic interactions, and electrostatic interactions, which were the driving forces for the formation of the EGCG carrier nanoparticles. Furthermore, the transmission electron microscope (TEM) images demonstrated that the BSA/PUL-based nanoparticles (BPNs) and BPENs both exhibited regular spherical particles. In conclusion, BPENs are good delivery carriers for enhancing the stability and antioxidant activity of EGCG. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Fabrication and Characterization of Chitosan–Pea Protein Isolate Nanoparticles.

Author

Zhang, Man, Li, Zikun, Dai, Mengqi, He, Hongjun, Liang, Bin, Sun, Chanchan, Li, Xiulian, and Ji, Changjian

Subjects
FOURIER transform infrared spectroscopy, TURBIDITY, FLUORESCENCE spectroscopy, PEA proteins
Abstract

Chitosan (CS) and pea protein isolate (PPI) were used as raw materials to prepare nanoparticles. The structures and functional properties of the nanoparticles with three ratios (1:1, 1:2 1:3, CS:PPI) were evaluated. The particle sizes of chitosan–pea protein isolate (CS–PPI) nanoparticles with the ratios of 1:1, 1:2, and 1:3 were 802.95 ± 71.94, 807.10 ± 86.22, and 767.75 ± 110.10 nm, respectively, and there were no significant differences. Through the analysis of turbidity, endogenous fluorescence spectroscopy and Fourier transform infrared spectroscopy, the interaction between CS and PPI was mainly caused by electrostatic mutual attraction and hydrogen bonding. In terms of interface properties, the contact angles of nanoparticles with the ratio of 1:1, 1:2, and 1:3 were 119.2°, 112.3°, and 107.0°, respectively. The emulsifying activity (EAI) of the nanoparticles was related to the proportion of protein. The nanoparticle with the ratio of 1:1 had the highest potential and the best thermal stability. From the observation of their morphology by transmission electron microscopy, it could be seen that the nanoparticles with a ratio of 1:3 were the closest to spherical. This study provides a theoretical basis for the design of CS–PPI nanoparticles and their applications in promoting emulsion stabilization and the delivery of active substances using emulsions. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Mechanical Responses of Slurry Shield Underpassing Existing Bridge Piles in Upper-Soft and Lower-Hard Composite Strata.

Author

Lv, Jianbing, Lin, Dijin, Wu, Weijun, Huang, Juan, Li, Zikun, Fu, Helin, and Li, Hongzhong

Subjects
TUNNEL design & construction, GROUTING, TUNNELS, SLURRY, URBAN growth, URBANIZATION
Abstract

With the development of urban metro systems, shield tunnels that pass through existing bridge pile foundations have become an inevitable engineering problem. Therefore, ensuring the stability of the strata and existing bridge piles during tunnel construction is a common goal in engineering practice. Currently, research on the mechanical responses of strata and existing piles under different conditions of upper-soft and lower-hard composite strata during shield tunneling has not been conducted extensively. This paper presents a numerical simulation of a shield tunnel passing through an existing bridge pile foundation in upper-soft and lower-hard composite strata. Subsequently, the surface subsidence and mechanical responses of a single pile were analyzed and evaluated. Additional stresses generated in the soil by existing bridge piles and the selection of grouting pressure were considered to optimize the driving pressure of the slurry shield. Allowable values were proposed to evaluate the construction disturbances caused by the tunnel excavation. The results show that the disturbance to the soil and existing piles is significantly influenced by the hard-rock height ratio, and the surface subsidence increases when the hard-rock height ratio decreases. The displacement and internal force of a single pile are significantly influenced by the load applied to the pile. This study demonstrates the changes in the mechanical responses of a single pile during shield tunnel boring, and provides in-depth insights into the deformation control caused by shield underpassing structures in upper-soft and lower-hard composite strata. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Soil-derived bacteria endow Camellia weevil with more ability to resist plant chemical defense.

Author

Zhang, Shouke, Li, Zikun, Shu, Jinping, Xue, Huaijun, Guo, Kai, and Zhou, Xudong

Subjects
PLANT chemical defenses, PLANT toxins, CURCULIONIDAE, CAMELLIAS, CAMELLIA oleifera
Abstract

Background: Herbivorous insects acquire their gut microbiota from diverse sources, and these microorganisms play significant roles in insect hosts' tolerance to plant secondary defensive compounds. Camellia weevil (Curculio chinensis) (CW) is an obligate seed parasite of Camellia oleifera plants. Our previous study linked the CW's gut microbiome to the tolerance of the tea saponin (TS) in C. oleifera seeds. However, the source of these gut microbiomes, the key bacteria involved in TS tolerance, and the degradation functions of these bacteria remain unresolved. Results: Our study indicated that CW gut microbiome was more affected by the microbiome from soil than that from fruits. The soil-derived Acinetobacter served as the core bacterial genus, and Acinetobacter sp. was putatively regarded responsible for the saponin-degradation in CW guts. Subsequent experiments using fluorescently labeled cultures verified that the isolate Acinetobacter sp. AS23 can migrate into CW larval guts, and ultimately endow its host with the ability to degrade saponin, thereby allowing CW to subsist as a pest within plant fruits resisting to higher concentration of defensive chemical. Conclusions: The systematic studies of the sources of gut microorganisms, the screening of taxa involved in plant secondary metabolite degradation, and the investigation of bacteria responsible for CW toxicity mitigation provide clarified evidence that the intestinal microorganisms can mediate the tolerance of herbivorous insects against plant toxins. -Wgr99mLieGVt7ZnQrthqj Video Abstract [ABSTRACT FROM AUTHOR]

Published
2022
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17. Bio‐Inspired Binder Design for a Robust Conductive Network in Silicon‐Based Anodes.

Author

Song, Zhibo, Zhang, Taohang, Wang, Lu, Zhao, Yan, Li, Zikun, Zhang, Meng, Wang, Ke, Xue, Shida, Fang, Jianjun, Ji, Yuchen, Pan, Feng, and Yang, Luyi

Subjects
NANOSATELLITES, FLUORENE, ELECTRODES
Abstract

Due to the severe volume variations during electrochemical processes, Si‐based anodes suffer from poor cycling performance as the result of a collapsed conductive network. In this regard, a key strategy for fully exploiting the capacity potential of Si‐based anodes is to construct a robust conductive network through rational binder design. In this work, a bio‐inspired conductive binder (PFPQDA) is designed by introducing dopamine‐functionalized fluorene structure units (DA) into a conductivity enhanced polyfluorene‐typed copolymer (PFPQ) to enhance its mechanical properties. Through constructing hierarchical binding networks and resilient electron transportations within both nano‐sized Si and micro‐sized SiOx electrodes via interweaved interactions, the PFPQDA successfully suppresses the electrode expansion and maintains the integrity of conductive pathways. Consequently, owing to the favorable properties of PFPQDA, Si‐based anodes exhibit improved cycling performance and rate capability with an areal capacity over 2.5 mAh cm–2. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Mechanical Characteristics of Structures and Ground Deformation Caused by Shield Tunneling Under-Passing Highways in Complex Geological Conditions Based on the MJS Method.

Author

Li, Zikun, Lv, Jianbing, Xie, Xiaodong, Fu, Helin, Huang, Juan, and Li, Zhanrong

Subjects
RAILROAD tunnels, CULVERTS, DEFORMATIONS (Mechanics), TUNNEL design & construction, LAND subsidence, EARTHQUAKE resistant design
Abstract

This study defined the height ratio of soft-rock strata and established a numerical model for analyzing shield construction in upper-soft, lower-hard composite strata together with field monitoring data. In this way, the influence of shield tunneling while passing under the pile foundation of the culvert at a short distance (the shortest distance is 1.4 m) in the typical upper-soft, lower-hard composite strata in Guangzhou can be examined. Moreover, the reinforcement effects of the ground, the bridges, and the culverts, using the strata-reinforcing plan dominated by the metro jet system (MJS) in a narrow space, are evaluated. Based on the results, (i) the maximum ground subsidence is found at the position in which the height ratio of the soft rock is 1.0. (ii) However, differential subsidence might be found in the subsequent shield construction when the soft-rock height ratio of the adjacent excavated surface ranges from 0 to 0.2 and from 0.5 to 1. (iii) The concentrated release of stress has a greater impact on the structure than the geological conditions of the shield tunneling face. (iv) Reinforcing with the MJS method contains the concentrated release of stress. This study can provide a reference for controlling the deformation of the under-crossing structure in the shield construction of the upper-soft, lower-hard composite strata. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Segment Stress Characteristics and Ground Deformation Caused by Constructing Closely Spaced Parallel Tunnels under a Complex Geological Condition.

Author

Lv, Jianbing, Li, Zikun, Xie, Xiaodong, Fu, Bing, Fu, Helin, Zhao, Hui, Li, Xulong, Li, Zhanrong, and Tang, Yong

Subjects
TUNNEL design & construction, STRAINS & stresses (Mechanics), TUNNELS, DEFORMATIONS (Mechanics)
Abstract

Ground deformation and additional stress on the segments of the firstly constructed tunnel may change significantly due to the construction of another tunnel, which is closely spaced with the existing one. A poor geotechnical condition possibly leads to the interaction between such closely spaced tunnels even making it harder to build such tunnels. A practical project located in Guangzhou City, China, consists of such two parallel tunnels with the smallest distance of 2.6 m, which sat on an upper-soft and lower-hard stratum. A 3D finite element model has been proposed to numerically investigate the behavior of these two parallel tunnels. The numerical results predicted by the FE model are in close agreement with that obtained from the field monitoring system, indicating the accuracy of the proposed FE model. The FE model was then used to further analyze the effect of reinforcing piles in eliminating the detrimental effect on both ground deformation and additional stress of the segments of the existing tunnel as a result of the construction of the new parallel tunnel. The research results obtained from the present paper can provide technical support and guidance for urban subway construction. [ABSTRACT FROM AUTHOR]

Published
2020
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20. Segment Stress Characteristics and Ground Deformation Caused by Constructing Closely Spaced Parallel Tunnels under a Complex Geological Condition.

Author

Lv, Jianbing, Li, Zikun, Xie, Xiaodong, Fu, Bing, Fu, Helin, Zhao, Hui, Li, Xulong, Li, Zhanrong, and Tang, Yong

Subjects
TUNNEL design & construction, STRAINS & stresses (Mechanics), TUNNELS
Abstract

Ground deformation and additional stress on the segments of the firstly constructed tunnel may change significantly due to the construction of another tunnel, which is closely spaced with the existing one. A poor geotechnical condition possibly leads to the interaction between such closely spaced tunnels even making it harder to build such tunnels. A practical project located in Guangzhou City, China, consists of such two parallel tunnels with the smallest distance of 2.6 m, which sat on an upper-soft and lower-hard stratum. A 3D finite element model has been proposed to numerically investigate the behavior of these two parallel tunnels. The numerical results predicted by the FE model are in close agreement with that obtained from the field monitoring system, indicating the accuracy of the proposed FE model. The FE model was then used to further analyze the effect of reinforcing piles in eliminating the detrimental effect on both ground deformation and additional stress of the segments of the existing tunnel as a result of the construction of the new parallel tunnel. The research results obtained from the present paper can provide technical support and guidance for urban subway construction. [ABSTRACT FROM AUTHOR]

Published
2020
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21. P-Wave Reflection Approximation of a Thin Bed and Its Application.

Author

Yang, Chun, Wang, Yun, Xiong, Shu, Li, Zikun, and Han, Hewei

Subjects
SEISMIC prospecting, APPROXIMATION error, BEDS, REFLECTIONS, RESERVOIRS, SEISMIC waves
Abstract

"Thin-bed" reservoirs have become important targets of seismic exploration and exploitation. However, traditional amplitude versus offset/amplitude versus angle (AVO/AVA) technologies, for example, those based on Zoeppritz equations and their approximations for a single interface, are not sufficiently accurate for thin-bed stratigraphy. Analytic solutions of thin-bed reflectivity may become practical for thin-bed AVO analysis and inversion. Therefore, a linear analytic approximation of thin-bed P-wave reflectivity is developed under small-incidence and thin-bed assumptions. Numerical simulations show that the amplitude approximation errors are usually smaller than 10% for incidence angles less than 20 degrees, and the thin-bed thicknesses are less than one-tenth of the P-wave wavelength. Based on the least-squares approach, the inversion strategy is proposed using the approximate formula. A synthetic data test shows that the proposed inversion method can produce more accurate thin-bed properties than that based on the Zoeppritz equations, which reveals the potential of the inversion method based on the linear analytic approximate formula in the fine characterization of thin reservoirs. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Phase transition of RbHPO and its composite with SiO studied by thermal analysis.

Author

Li, Zikun and Chan, Wingkin

Subjects
RUBIDIUM, SILICA, COMPOSITE materials, PHASE transitions, TEMPERATURE effect, THERMAL analysis, ACTIVATION (Chemistry)
Abstract

The phase transition at T (~109 °C) of RbHPO and its composite with SiO has been investigated by thermal analysis here. In the case of neat RbHPO, there is a linear relationship between endothermic peak temperature ( T) and square root of heating rate ( Φ), from which the onset temperature of phase transition can be determined. Besides, Kissinger method and another calculation method were employed to obtain the activation energy of phase transition. The detailed deduction process was presented in this paper, and the estimated activation energies are E ≈ 126.3 kJ/mol and E ≈ 129.2 kJ/mol, respectively. On the other hand, the heterogeneous doping of RbHPO with SiO as dopant facilitates its proton conduction and leads to the disappearance of jump in conductivity at T. The heats of transition in the composites decrease gradually with increasing the molar fraction of SiO additives. In the cooling process, a new and broad exothermic peak appeared between ~95 and ~110 °C, and its intensity also changes with the SiO amount. These phenomena might be related to the formation of amorphous phase of RbHPO on the surface of SiO particles due to the strong interface interaction. [ABSTRACT FROM AUTHOR]

Published
2011
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