Your search keyword '"Zhizhong, Deng"' showing total 10 results

1. Effect of crystalline admixtures on shrinkage and alkali-silica reaction of biochar-cementitious composites

Author

Xuqun Lin, Arnaud Castel, Zhizhong Deng, Biqin Dong, Xuanrui Zhang, Shishun Zhang, and Wengui Li

Subjects

Self-healing, Crystalline admixture, Biochar, Shrinkage, Alkali-silica reaction, Engineering (General). Civil engineering (General), TA1-2040, Building construction, TH1-9745

Abstract

This study investigated effects of crystalline admixture (CA) on shrinkage and alkali-silica reaction behaviours of biochar-cementitious composites. Addition of 1–1.5 wt% superabsorbent polymer (SAP) completely mitigated autogenous shrinkage while slightly increasing the 120-day total shrinkage of the SP-cement composite by 5.7%, resulting in the highest apparent porosity. 1–1.5 wt% CA addition did not affect autogenous shrinkage while slightly reducing the 120-day total shrinkage by 10.1%. The combination of CA and waste wood biochar (WWB) reduced autogenous shrinkage by 24.23% and 120-day total shrinkage by 23.6%, resulting in the lowest apparent porosity. The formation of hydration products in the WWB pores and on WWB surface densified the cementitious matrix, leading to a reduction in water evaporation. Furthermore, for specimens exposed to 1 M NaOH solution at 80 °C, CA addition significantly reduced the 120-day expansion by 50.6%, while the combination of CA and WWB addition reduced the 120-day expansion by 42.9%.

Published

2024

2. Conjoint fascial sheath suspension with levator muscle advancement for severe blepharoptosis

Author

Yucheng Qiu, Rui Jin, Xue Dong, Yirui Shen, Feixue Ding, Zhizhong Deng, Xianyu Zhou, Youcong Ning, Jun Yang, and Fei Liu

Subjects

Surgery

Published

2023

3. Mechanism of elastic energy storage of honey bee abdominal muscles under stress relaxation

Author

Zhizhong Deng, Yuling Zhang, and Shaoze Yan

Subjects

Insect Science, General Medicine

Abstract

Energy storage of passive muscles plays an important part in frequent activities of honey bee abdomens due to the muscle distribution and open circulatory system. However, the elastic energy and mechanical properties of structure in passive muscles remain unclear. In this article, stress relaxation tests on passive muscles from the terga of the honey bee abdomens were performed under different concentrations of blebbistatin and motion parameters. In stress relaxation, the load drop with the rapid and slow stages depending on stretching velocity and stretching length reflects the features of myosin–titin series structure and cross-bridge–actin cyclic connections in muscles. Then a model with 2 parallel modules based on the 2 feature structures in muscles was thus developed. The model described the stress relaxation and stretching of passive muscles from honey bee abdomen well for a good fitting in stress relaxation and verification in loading process. In addition, the stiffness change of cross-bridge under different concentrations of blebbistatin is obtained from the model. We derived the elastic deformation of cross-bridge and the partial derivatives of energy expressions on motion parameters from this model, which accorded the experimental results. This model reveals the mechanism of passive muscles from honey bee abdomens suggesting that the temporary energy storage of cross-bridge in terga muscles under abdomen bending provides potential energy for springback during the periodic abdomen bending of honey bee or other arthropod insects. The finding also provides an experimental and theoretical basis for the novel microstructure and material design of bionic muscle.

Published

2023

4. Design of On-line Monitoring System for Foundation Pit Water Level Based on Raspberry Pi

Author

Dianpeng Zhao, Yeqing Song, Zhizhong Deng, Lei Dai, and Guohua Pan

Published

2022

5. Biomechanical properties of honeybee abdominal muscles during stretch activation

Author

Yuling Zhang, Danni Yin, Xu Pang, Zhizhong Deng, and Shaoze Yan

Subjects

Biomaterials, Mechanics of Materials, Biomedical Engineering

Abstract

The mechanical properties of the honeybee's abdominal muscles endow its abdomen with movement flexibility to perform various activities. However, the biomechanical properties of abdominal muscles during stretch activation remain unclear. To clarify this issue, we observed the microstructures of the abdominal muscles to obtain structural information. The similarity and symmetry of abdominal muscle distribution contribute to the ability to drive abdominal movement. Combined with the segmented structure characteristics, an experimental device to measure muscle stretch measurement of honeybees was developed to investigate the mechanical properties of the abdominal muscles. During measurement, the muscles were kept in a solution to maintain a physiological environment. The mechanical properties of abdominal muscles included phases: the ascending phase with proportional increase, stable phase with slight fluctuation, and decay phase with parabolic decline. These findings indicate that the nonlinear and rate-sensitive mechanical properties of the abdominal muscles enable them to rapidly adapt to environmental changes. The stretch force and stiffness coefficient reached 0.660 ± 0.139 mN and 14.364 ± 2.961 N/m, respectively. A simplified biomechanical model of the muscle fiber considering the hierarchical microstructure was introduced, in which the mechanical properties were consistent with the experimental data. Further analysis of the effects of the activation probability and the effective range of binding sites on the mechanical properties demonstrated the critical role in force generation, revealing the mechanism of underlying muscle stretch activation in the honeybee abdomen. The findings can provide a new reference for studying the biomechanical properties of the muscles of other arthropod insects.

Published

2022

6. A Modified Approach to Transconjunctival Levator Advancement Offering Intraoperative Options

Author

Xianyu Zhou, Zhizhong Deng, Fei Liu, Yucheng Qiu, Jun Yang, Lin Lu, and Rui Jin

Subjects

medicine.medical_specialty, Intra operative, Mattress suture, Skin incision, business.industry, General Medicine, Surgery, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Surgical Manipulation, Ptosis, 030220 oncology & carcinogenesis, 030221 ophthalmology & optometry, medicine, Transconjunctival approach, Aponeurosis, Eyelid, medicine.symptom, business

Abstract

Background The transconjunctival technique is an effective approach to mild to moderate blepharoptosis repair that does not involve skin incision. However, accurate surgical manipulation of this method is greatly restricted by poor intraoperative evaluation. Objectives The aim of this study was to introduce a modified transconjunctival approach with flexible intraoperative adjustments in order to achieve more accurate ptosis correction. Methods Taking a transconjunctival approach, the levator aponeurosis and Müller’s muscle were folded with a square-like mattress suture for flexible adjustment and accurate correction. Results In 18 mild ptosis eyelids, 94.5% (17 eyelids) achieved adequate or normal correction. In 9 eyelids with moderate ptosis, 88.9% (8 eyelids) achieved adequate or normal correction. Of 24 ptosis patients, 23 (95.8%) achieved a good or fair symmetry result. Conclusions This study presents a modified transconjunctival technique for repair of mild to moderate ptosis, which is characterized by flexible intraoperative adjustments that produce satisfying functional and aesthetic outcomes. Level of Evidence: 4

Published

2021

7. Angiogenesis modulation-mediated inhibitory effects of tacrolimus on hypertrophic scar formation

Author

Yirui, Shen, Rui, Jin, Xiao, Liang, Zhizhong, Deng, Jizhou, He, Yi, Ding, Feixue, Ding, Lin, Lu, Fei, Liu, and Jun, Yang

Subjects

Vascular Endothelial Growth Factor A, Cicatrix, Hypertrophic, Neovascularization, Pathologic, Animals, Humans, Endothelial Cells, Angiogenesis Inducing Agents, Rabbits, Cell Biology, Fibroblasts, Cardiology and Cardiovascular Medicine, Biochemistry, Tacrolimus

Abstract

Hypertrophic scar (HS) is a fibroproliferative disorder that causes cosmetic as well as functional problems; however, to our knowledge, there is no satisfactory treatment for HS to date. Previous studies have indicated that angiogenesis plays a crucial role in HS formation; therefore, anti-angiogenetic therapies are considered effective in improving HS. Although tacrolimus (TAC) has been proven effective in preventing HS formation in vivo and in vitro, its underlying mechanism remains controversial and ambiguous. Because of its anti-angiogenic effects in other diseases, we aimed to determine whether TAC reduces HS by suppressing angiogenesis. Using a rabbit ear HS model that we developed, HS was treated once a week with normal saline, dimethyl sulfoxide, or TAC for 3 weeks. Histological evaluation indicated that TAC significantly reduced collagen deposition and microvessel density in scar tissues. Moreover, immunofluorescence staining for CD31 and vascular endothelial growth factor (VEGF)-A revealed that TAC significantly inhibited HS angiogenesis. In vitro analysis showed that TAC inhibited endothelial cell migration and tubulogenesis as well as the viability and proliferation of human umbilical vascular endothelial cells (HUVECs) and HS fibroblasts (HSFBs). Furthermore, TAC significantly downregulated the expression of the human angiogenetic factors VEGF-A, FGF-2, PDGF-β, and TGF-β1 in HUVECs and HSFBs. Additionally, TAC-mediated inhibition of angiogenesis decreased the gene expression of crucial fibrotic markers, including α- smooth muscle actin and collagens 1 and 3, in HSFBs. This is the first study to demonstrate the inhibitory effects of TAC on HS formation mediated by a mechanism involving the suppression of scar angiogenesis.

Published

2023

8. A Child Infected with COVID-19 in China—A Case Report

Author

Xinming Guo, Beilong Zhong, Fangfang Zheng, Chunxia Lin, Chuanxin Zhou, Zhizhong Deng, Yi Guo, and Yangbin Guo

Subjects

Male, medicine.medical_specialty, China, Fever, Case Report, law.invention, fecal–oral transmission, Lesion, children, law, Internal medicine, Throat, medicine, Nucleic Acid Amplification Tests, Humans, Child, Lung, Feces, Transmission (medicine), business.industry, SARS-CoV-2, nucleic acid amplification test, COVID-19, Infant, Diarrhea, Infectious Diseases, medicine.anatomical_structure, Cough, Pediatrics, Perinatology and Child Health, medicine.symptom, Ground glass, business, AcademicSubjects/MED00670

Abstract

A 16-month-old boy was admitted with cough for 2 days and fever for 1 day. Chest computed tomography (CT) scan of the child revealed large areas of ground-glass opacities in both lungs. Nucleic acid amplification tests (NAATs) were performed repeatedly to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), but the results were all negative. On day 13 of hospitalization, no clinical symptoms except diarrhea were present in the patient, and re-examination by chest CT revealed lesion shrinkage, but the NAAT on throat swabs was positive. On day 22 of hospitalization, the NAAT on throat swabs was negative and the fecal samples were positive. Positive fecal samples nucleic acid lasted for 62 days. Suggesting that pediatric patients may be important sources of infection during the recovery phase of clinical symptoms and whether SARS-CoV-2 has fecal–oral transmission needs further study.

Published

2021

9. Study on the hydration mechanism of a hardened slag-based plugging agent activated by alkalis

Author

Hong Yue, Wen Zhou, Xiaoyang Guo, and Zhizhong Deng

Subjects

Materials science, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, Intermediate product, 0201 civil engineering, Degree of substitution, X-ray photoelectron spectroscopy, Chemical engineering, Transmission electron microscopy, Aluminosilicate, 021105 building & construction, Slurry, Hardening (metallurgy), General Materials Science, Civil and Structural Engineering

Abstract

To reduce the amount of time required for the formulation, adjustment, and application of a hardened plugging agent in the field, this study performed an in-depth analysis of the hydration mechanism of a slag-based plugging agent by heat of hydration characterization, transmission electron microscopy, nuclear magnetic resonance, and X-ray photoelectron spectroscopy. The study shows that the NaOH activation of the slag-based plugging agent can produce an intermediate product Ca(OH)2 that is dissolved continuously to produce OH−, allowing the reaction to proceed continuously. Slag hardening occurs as follows: after the structure is destroyed, the recombination of groups changes their mutual spatial positions, thereby increasing the force between the groups and hardening the slurry. During the hydration process, a certain degree of substitution of Si by nonskeletal-element Al atoms in the slag occurs to form aluminosilicate, promoting the strength development of the slurry structure. The study results reveal a theoretical basis for shortening the time for the formulation and adjustment of the hardened slag-based plugging agent and provide new ideas for the development of new activators.

Published

2019

10. Analysis of hydration process of smelter slag plugging fluid activated with alkalis

Author

Hucheng Deng, Hong Yue, Zhizhong Deng, Wen Zhou, Hongqiong Fu, Youzhi Zheng, and Hao Zhang

Subjects

Cement, Materials science, Metallurgy, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, Microstructure, Chemical reaction, 0201 civil engineering, 021105 building & construction, Smelting, Hydration reaction, Slurry, Hardening (metallurgy), General Materials Science, Water binding, Civil and Structural Engineering

Abstract

The improper treatment of smelter slag is a prominent issue regarding environmental protection. To resolve this issue, we explored the possible application of a slag plugging fluid in the field of oil and gas field development. Specifically, the thermal effect during the hydration process, the microstructure, the water function mechanism, and the mechanical characteristics of a hardened body of the slag plugging fluid were investigated using a combination of characterization equipment including a hydration heat calorimeter, nuclear magnetic resonance (NMR) spectrometer, scanning electron microscope, NMR crosslink density meter, and medium-sized NMR analysis and imaging system. The results of this study show that the degree of polymerization of Si increases during the hydration process, accompanied by the generation of a large amount of 6-coordinated Al. At the same time, the spacing between particles is reduced by the physical and chemical reactions in the hydration product formed through the hydration reaction of the slag. This behavior causes the slurry to cement and harden. During the hardening process of the slurry, the water binding force, the water form, and the pore structure are all affected and changed by the components in the slurry. These combined effects further cause the T2 spectrum curve of water to change during the hydration process. Finally, a hardened slurry can form a slug that effectively seals the leaking channel. The theoretical results obtained from this study can help guide the recycling utilization of slag in the area of oil and gas field development. Such a direction will provide an effective means of resolving the slag treatment issue.

Published

2021