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Exploring the Significance and Interpretation of Animal Motifs in Rock Art: A Systematic Review
Tie Zhao(Tie Zhao),Daorina(Daorina ),Guofeng Chen(Guofeng Chen),M. Omer(M. Omer ) 아시아사회과학학회 2023 Jornal of Asia Social Science Vol.10 No.1
Rock art has been a subject of fascination for scholars, archaeologists, and enthusiasts for centuries due to its unique aesthetic qualities and cultural significance. This systematic review paper provides an overview of the significance of rock art motifs and their interpretations. Through a comprehensive analysis of the literature, we identified common rock art motifs and themes, as well as various interpretative approaches and theoretical frameworks used to understand the meanings and contexts of these motifs. The review also explores variations in interpretations across time and space and discusses the implications of these findings for rock art studies. The results reveal that rock art motifs and their interpretations are shaped by diverse cultural, social, and historical contexts, and that interdisciplinary and community-engaged research is needed to better understand, preserve, and appreciate this unique cultural heritage. The limitations and recommendations for future research are also discussed. This review contributes to our understanding of the cultural, symbolic, and aesthetic significance of rock art and highlights the importance of interdisciplinary perspectives and engagement with local communities in the study and conservation of rock art sites and cultural heritage.
Tie-cheng Wang,Xiao Liu,Hai-long Zhao 대한토목학회 2015 KSCE JOURNAL OF CIVIL ENGINEERING Vol.19 No.4
500MPa steel bar is a new type of high-strength reinforcing bar applied in China. To investigate the feasibility of using this type of reinforcement in specially shaped column structure, six +-shaped column specimens varying in axial compression ratio and stirrup spacing were tested under cyclic loading. Behaviors in failure mode, shear crack width, bearing capacity, displacement ductility and energy dissipating capacity are studied to evaluate the seismic resistance performance of the columns. Test results show that 500 MPa steel bars can be effectively used as longitudinal reinforcement and provide more significant confinement to core concrete as transverse reinforcement. It is demonstrated by the observed results that expected oversize flexure-shear crack width can be prevented through an appropriate design procedure following the current building codes in China. Reducing stirrup spacing provides better performance in member ductility, crack behavior, cumulative damage and energy dissipation capacity, but has little influence on the bearing capacity; high axial load can offer advantages in bearing capacity, energy dissipating capacity and shear crack behavior, but reduce the member ductility. To predict the behavior of test specimens under cyclic loading, analytical model are implemented in program OpenSees using flexural fiber beam-column element with the consideration of the shear effect. Analytical results have an acceptable agreement with the test results.
Zhao, Xinyu,Song, Sung-Jin,Kim, Hak-Joon,Gang, Tie,Kang, Suk-Chull,Choi, Yong-Hwan,Kim, Kyung-Cho,Kang, Sung-Sik The Korean Society for Nondestructive Testing 2007 한국비파괴검사학회지 Vol.27 No.3
Ultrasonic inspection of austenitic steel weldments is a truly difficult task due to complicated wave propagation phenomena such as beam skewing, splitting and distortion. In order to understand these phenomena and design proper inspection procedures, simulation is increasingly paid more attention to. This article addresses a ray tracing based approach to determine incident angle and position of optimal wave mode ultrasonic beam for flaw detection in anisotropic and inhomogeneous austenitic steel weldments. Specially, the optimal mode of ultrasonic wave wave is selected by ray tracing simulation, and an optimization approach based on ray tracing and bi-section search is proposed in order to find the ray path connecting two given points in weldments. With help of this approach, the optimal incident angle and position of ultrasonic beam can be determined for a given flaw position.
Shaking table tests on seismic response of backdrop metal ceilings
Tie G. Zhou,Shuai S. Wei,Xiang Zhao,Le W. Ma,Yi M. Yuan,Zheng Luo 국제구조공학회 2019 Steel and Composite Structures, An International J Vol.32 No.6
In recent earthquakes, the failure of ceiling systems has been one of the most widely reported damage and the major cause of functionality interruption in some buildings. In an effort to mitigate this damage, some scholars have studied a series of ceiling systems including plaster ceilings and mineral wool ceilings. But few studies have involved the backdrop metal ceiling used in some important constructions with higher rigidity and frequency such as the main control area of nuclear power plants. Therefore, in order to evaluate its seismic performance, a full-scale backdrop metal ceiling system, including steel runners and metal panels, was designed, fabricated and installed in a steel frame in this study. And the backdrop metal ceiling system with two perimeter attachments variants was tested: (i) the ends of the runners were connected with the angle steel to form an effective lateral constraint around the backdrop metal ceiling, (ii) the perimeter attachments of the main runner were retained, but the perimeter attachments of the cross runner were removed. In the experiments, different damage of the backdrop metal ceiling system was observed in detail under various earthquakes. Results showed that the backdrop metal ceiling had good integrity and excellent seismic performance. And the perimeter attachments of the cross runner had an adverse effect on the seismic performance of the backdrop metal ceiling under earthquakes. Meanwhile, a series of seismic construction measures and several suggestions that need to be paid attention were proposed in the text so that the backdrop metal ceiling can be better applied in the main control area of nuclear power plants and other important engineering projects.
Video-assisted Thoracic Surgery Versus Thoracotomy for Non-small-cell Lung Cancer
Pan, Tie-Wen,Wu, Bin,Xu, Zhi-Fei,Zhao, Xue-Wei,Zhong, Lei Asian Pacific Journal of Cancer Prevention 2012 Asian Pacific journal of cancer prevention Vol.13 No.2
Video-assisted thoracic surgery (VATS) has been recommended as more optimal surgical technique than traditional thoracotomy for lobectomy in lung cancer, but it is not well defined. Here, we compared VATS and traditional thoracotomy based on clinical data. From November 2008 to November 2010, 180 patients underwent lobectomy for non-small-cell lung cancer (NSCL) identified by computerized tomography. Of them, 83 cases were performed with VATS and 97 by thoracotomy. Clinical parameters, consisting of blood loss, operating time, number of lymph node dissection, days of pleural cavity drainage, and length of stay were recorded and evaluated with t test. No significant difference was observed between the VATS and thoracotomy groups in the average intraoperative blood loss, number of lymph node dissections, and days of pleural cavity drainage. While the average operating time in the VATS group was significantly longer than that in thoracotomy group, recurrence was only present in one case, as opposed to 7 cases in the thoracotomy group In conclusion, similar therapeutic effects were demonstrated in VATS and thoracotomy for NSCL. However, VATS lobectomy was associated with fewer complications, recurrence and shorter length of stay.
( Jie Zhao ),( Cong Qian Cheng ),( Tie Shan Cao ) 한국부식방식학회 2015 Corrosion Science and Technology Vol.14 No.6
Effects of passive film quality by chemical passivation and solution flow on the corrosion behavior of 304 stainless steel in HCl solution were investigated using a coloration indicator, and by corrosion weight loss, electrochemical polarization and element dissolution measurements. A high redness degree suggests a low passive-film integrity for 304 stainless steel following air exposure, while the minimum redness degree for the samples after chemical passivation suggests a high passive-film integrity. In the static condition,samples subjected to air exposure exhibited a high corrosion rate and preferential dissolution of Fe. Chemical passivation inhibited the corrosion rate due to the intrinsically high structural integrity of the passive film and high concentrations of Cr-rich oxides and hydroxide. Solution flow accelerated corrosion by promoting both the anodic dissolution reaction and the cathodic reaction. Solution flow also altered the preferential dissolution to fast uniform dissolution of metal elements.
Xinyu Zhao,송성진,김학준,Tie Gang,Suk-Chull Kang,Yong Hwan Choi,Kyungcho Kim,Sung-Sik Kang 한국비파괴검사학회 2007 한국비파괴검사학회지 Vol.27 No.3
Ultrasonic inspection of austenitic steel weldments is a truly difficult task due to complicated wave propagation phenomena such as beam skewing, splitting and distortion. In order to understand these phenomena and design proper inspection procedures, simulation is increasingly paid more attention to. This article addresses a ray tracing based approach to determine incident angle and position of optimal wave mode ultrasonic beam for flaw detection in anisotropic and inhomogeneous austenitic steel weldments. Specially, the optimal mode of ultrasonic wave wave is selected by ray tracing simulation, and an optimization approach based on ray tracing and bi-section search is proposed in order to find the ray path connecting two given points in weldments. With help of this approach, the optimal incident angle and position of ultrasonic beam can be determined for a given flaw position.
Transcription Regulation Network Analysis of MCF7 Breast Cancer Cells Exposed to Estradiol
Wu, Jun-Zhao,Lu, Peng,Liu, Rong,Yang, Tie-Jian Asian Pacific Journal of Cancer Prevention 2012 Asian Pacific journal of cancer prevention Vol.13 No.8
Background: In breast cancer, estrogen receptors have been demonstrated to interact with transcription factors to regulate target gene expression. However, high-throughput identification of the transcription regulation relationship between transcription factors and their target genes in response to estradiol is still in its infancy. Purpose: Thus, the objective of our study was to interpret the transcription regulation network of MCF7 breast cancer cells exposed to estradiol. Methods: In this work, GSE11352 microarray data were used to identify differentially expressed genes (DEGs). Results: Our results showed that the MYB (v-myb myeloblastosis viral oncogene homolog [avian]), PGR (progesterone receptor), and MYC (v-myc myelocytomatosis viral oncogene homolog [avian]) were hub nodes in our transcriptome network, which may interact with ER and, in turn, regulate target gene expression. MYB can up-regulate MCM3 (minichromosome maintenance 3) and MCM7 expression; PGR can suppress BCL2 (B-cell lymphoma 2) expression; MYC can inhibit TGFB2 (transforming growth factor, beta 2) expression. These genes are associated with breast cancer progression via cell cycling and the $TGF{\beta}$ signaling pathway. Conclusion: Analysis of transcriptional regulation may provide a better understanding of molecular mechanisms and clues to potential therapeutic targets in the treatment of breast cancer.