Institution
Chung Yuan Christian University
Education•Taoyuan City, Taiwan•
About: Chung Yuan Christian University is a education organization based out in Taoyuan City, Taiwan. It is known for research contribution in the topics: Membrane & Fuzzy logic. The organization has 9819 authors who have published 11623 publications receiving 213139 citations. The organization is also known as: Tiong-gôan-tāi-ha̍k & CYCU.
Topics: Membrane, Fuzzy logic, Adsorption, Control theory, Photoluminescence
Papers published on a yearly basis
Papers
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TL;DR: It is suggested that sesamin may improve hypertension by its ability to induce NO and inhibit ET-1 production from endothelial cells by inducing eNOS mRNA and protein expressions.
Abstract: ObjectiveSesamin has been proved to be antihypertensive. Nitric oxide (NO) is the most important vascular relaxing factor that is regulated in endothelium. Endothelin-1 (ET-1) is characterized as a potent vasoconstrictor and is also regulated in endothelium. Alterations in the endothelial production
85 citations
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TL;DR: A comparative study of the simulator with paper simulation showed that interns and residents found the simulator to be a useful learning tool, and that visiting doctors could use it effectively for planning verification and rehearsal of operations.
85 citations
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TL;DR: In this article, a constructive overview on the state of the art in mold rapid heating and cooling is provided, with the goal of explaining the working mechanisms and providing unbiased accounts of existing processes and techniques.
Abstract: A heated mold with temperature above the polymer-softening temperature is highly desired in precision injection molding. The elevated mold temperature reduces unwanted freezing during the injection stage, thus improving moldability and enhancing part quality. The resulting advantages include, but are not limited to, longer flow path, improved feature replication and surface transcription, reduced molecular orientations and residual stresses, smoother surfaces of composites, better control of crystallization, stronger weld lines, etc. However, the heated mold needs to be rapidly cooled during the cooling stage to maintain a short cycle time. Despite the large body of available literature, mold rapid heating and cooling does not represent a well-developed area of practice. Development of capable techniques for rapidly heating and cooling a mold with a relatively large mass is technically challenging because of the constraints set by the heat transfer process and the endurance limits set by the material properties. This article attempts to offer a constructive overview on the state of the art in mold rapid heating and cooling, with the goal of explaining the working mechanisms and providing unbiased accounts of the pros and cons of existing processes and techniques. Successful applications of existing processes are highlighted and potential improvements of these processes are suggested. The article further intends to provide a fundamental understanding of the constituent elements and corresponding building blocks needed in a workable mold with a rapid heating and cooling capability. An increased understanding of these elements will facilitate the development of more capable new processes. © 2009 Wiley Periodicals, Inc. Adv Polym Techn 27:233–255, 2008; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/adv.20136
85 citations
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TL;DR: In this article, a transparent soft template with negative patterns of Xanthosoma sagittifolium leaf was fabricated by thermally curing the PDMS pre-polymer in molds at 60 °C for 4 h, followed by detaching the template from the surface of the natural leaf.
84 citations
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TL;DR: The concentrations of PBDEs in fishes reported here are higher than those reported from European countries, but lower than those from the United States, and is postulated to be due to the extensive use of octa-BDE rather than penta-Bs in Taiwan.
84 citations
Authors
Showing all 9844 results
Name | H-index | Papers | Citations |
---|---|---|---|
Simon Lin | 126 | 754 | 69084 |
Xiaodong Li | 104 | 1300 | 49024 |
Yu Wang | 92 | 1687 | 47472 |
Leaf Huang | 92 | 350 | 25867 |
Duu-Jong Lee | 91 | 979 | 37292 |
Yen Wei | 85 | 649 | 25805 |
Ru-Shi Liu | 82 | 738 | 26699 |
Kazuhiko Ishihara | 77 | 713 | 24795 |
Gwo-Hshiung Tzeng | 77 | 465 | 26807 |
Huan-Tsung Chang | 76 | 405 | 21476 |
Hari M. Srivastava | 76 | 1126 | 42635 |
Jianhua Yang | 74 | 554 | 27839 |
Yen Wei | 68 | 309 | 17527 |
Hsisheng Teng | 67 | 213 | 14408 |
Kevin C.-W. Wu | 66 | 278 | 15193 |