8 results on '"Kun Chao"'
Search Results
2. Wear behavior of thermally sprayed Zn/15Al, Al and Inconel 625 coatings on carbon steel
- Author
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Chen, Tai-Cheng, Chou, Chau-Chang, Yung, Tung-Yuan, Tsai, Kun-Chao, and Huang, Jiunn-Yuan
- Published
- 2016
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3. Prevention of delayed cracking of iron based hardfacing welds.
- Author
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Tsai, Kun-Chao, Jeng, Sheng-Long, and Huang, Jiunn-Yuan
- Subjects
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FRACTURE mechanics , *IRON , *WELDING , *SCANNING electron microscopy , *TENSILE strength , *STRAINS & stresses (Mechanics) - Abstract
Longitudinal and transverse cracks were observed to occur on the surface of Norem hardfacing welds for a period of time after welding. The welds were mainly cracked by hot cracking. To prevent the weld from cracking, a hammer peening process was employed to mitigate its tensile stress. A scanning electron microscope (SEM), equipped with the electron backscatter diffraction (EBSD) capability, was used to study the phase and carbide distribution in the weld. The results showed that the hammer peening process could help prevent crack propagation by reducing the welding residual stress and inducing a great number of low angle grain boundaries. The microstructures and micro-hardness of the peening-treated welds are also compared to the as-welded specimens in this paper to demonstrate the efficacy of the peening process to prevent weld from cracking. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
4. A novel Bruch's membrane-mimetic electrospun substrate scaffold for human retinal pigment epithelium cells.
- Author
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Xiang, Ping, Wu, Kun-Chao, Zhu, Ying, Xiang, Lue, Li, Chong, Chen, Deng-Long, Chen, Feng, Xu, Guotong, Wang, Aijun, Li, Min, and Jin, Zi-Bing
- Subjects
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CELL membranes , *EPITHELIUM , *MEMBRANE microdomains , *RHODOPSIN , *ELECTROSPINNING , *POLYCAPROLACTONE - Abstract
Various artificial membranes have been used as scaffolds for retinal pigment epithelium cells (RPE) for monolayer reconstruction, however, long-term cell viability and functionality are still largely unknown. This study aimed to construct an ultrathin porous nanofibrous film to mimic Bruch's membrane, and in particular to investigate human RPE cell responses to the resultant substrates. An ultrathin porous nanofibrous membrane was fabricated by using regenerated wild Antheraea pernyi silk fibroin (RWSF), polycaprolactone (PCL) and gelatin (Gt) and displayed a thickness of 3–5 μm, with a high porosity and an average fiber diameter of 166 ± 85 nm. Human RPE cells seeded on the RWSF/PCL/Gt membranes showed a higher cell growth rate ( p < 0.05), and a typical expression pattern of RPE signature genes, with reduced expression of inflammatory mediators. With long-term cultivation on the substrates, RPE cells exhibited characteristic polygonal morphology and development of apical microvilli. Immunocytochemisty demonstrated RPE-specific expression profiles in cells after 12-weeks of co-culture on RWSF/PCL/Gt membranes. Interestingly, the cells on the RWSF/PCL/Gt membranes functionally secreted polarized PEDF and phagocytosed labeled porcine POS. Furthermore, RWSF/PCL/Gt membranes transplanted subsclerally exhibited excellent biocompatibility without any evidence of inflammation or rejection. In conclusion, we established a novel RWSF-based substrate for growth of RPE cells with excellent cytocompatibility in vitro and biocompatibility in vivo for potential use as a prosthetic Bruch's membrane for RPE transplantation. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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- View/download PDF
5. The impact of porcine circovirus associated diseases on live attenuated classical swine fever vaccine in field farm applications.
- Author
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Chen, Jing-Yuan, Wu, Chi-Ming, Liao, Chih-Ming, Chen, Kun-Chao, You, Chia-Chin, Wang, Yu-Wen, Huang, Chienjin, and Chien, Maw-Sheng
- Subjects
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CIRCOVIRUS diseases , *CLASSICAL swine fever , *DISEASE complications , *CLASSICAL swine fever virus , *SWINE industry , *VACCINES , *VIRAL antigens - Abstract
• A vaccination-challenge animal model was conducted to mimic different statuses of PCVADs. • The impaired efficacy of subunit PCV2 vaccine was demonstrated with a conventional pig model after PCV2 challenge. • The efficacy of live attenuated CSFV vaccine was compromised in PCV2-SI and PCV2-SD pigs. Porcine circovirus associated diseases (PCVADs) are among the most important diseases affecting the worldwide swine industry. Vaccination against porcine circovirus type 2 (PCV2) infection has been utilized for disease control and effectively reduces clinical signs of PCVADs. To evaluate the efficacy of the PCV2 vaccine in field farms, we conducted a trial using conventional pigs immunized with the subunit PCV2 vaccine followed by PCV2 challenge. Immunized pigs demonstrated lower serum viral loads, less viral antigen staining in lymph nodes, and higher average daily weight gain, confirming the protective efficacy of the vaccine. However, low levels of PCV2 infection were still detected in vaccinated pigs after challenge, suggesting that the PCV2 vaccine was unable to eradicate the virus, which could lead to asymptomatic PCV2 subclinical infection (PCV2-SI) in pig farms. Additionally, PCV2 infection is a risk factor for impaired pig immune response development during the weaning to growth stages, which is a crucial period to receive vaccines against classical swine fever (CSF). Therefore, the impact of PCV2-SI or PCV2-systemic disease (PCV2-SD) on live attenuated CSF vaccine was investigated. After PCV2 challenge, there was no difference in levels of classical swine fever virus (CSFV) neutralizing antibodies (NA) between pigs with PCV2-SD and PCV2-SI, suggesting that the efficacy of CSF vaccine was compromised. Moreover, results of long-term monitoring of CSFV NA titers in PCV2-SI pigs with minimized interference by maternally-derived antibodies suggested that serum PCV2 viral loads greater than 102 copies/mL may compromise the efficacy of CSF vaccine. Overall, a conventional pig model was established to demonstrate the impaired efficacy of the subunit PCV2 vaccine and its impact on the CSF vaccine in vaccination-challenge trials. Additionally, the impaired efficacy of the PCV2 vaccine resulted in increased PCV2-SI, eventually leading to compromised the live attenuated CSF vaccine induced NA response in field farm applications. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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6. Stemming retinal regeneration with pluripotent stem cells.
- Author
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Jin, Zi-Bing, Gao, Mei-Ling, Deng, Wen-Li, Wu, Kun-Chao, Sugita, Sunao, Mandai, Michiko, and Takahashi, Masayo
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PLURIPOTENT stem cells , *CELL death , *RETINAL ganglion cells , *GENETIC disorders , *OPTIC nerve injuries , *OPTICAL coherence tomography , *RETINAL degeneration - Abstract
Cell replacement therapy is a promising treatment for irreversible retinal cell death in diverse diseases, such as age-related macular degeneration (AMD), Stargardt's disease, retinitis pigmentosa (RP) and glaucoma. These diseases are all characterized by the degeneration of one or two retinal cell types that cannot regenerate spontaneously in humans. Aberrant retinal pigment epithelial (RPE) cells can be observed through optical coherence tomography (OCT) in AMD patients. In RP patients, the morphological and functional abnormalities of RPE and photoreceptor layers are caused by a genetic abnormality. Stargardt's disease or juvenile macular degeneration, which is characterized by the loss of the RPE and photoreceptors in the macular area, causes central vision loss at an early age. Loss of retinal ganglion cells (RGCs) can be observed in patients with glaucoma. Once the retinal cell degeneration is triggered, no treatments can reverse it. Transplantation-based approaches have been proposed as a universal therapy to target patients with various concomitant diseases. Both the replacement of dead cells and neuroprotection are strategies used to rescue visual function in animal models of retinal degeneration. Diverse retinal cell types derived from pluripotent stem cells, including RPE cells, photoreceptors, RGCs and even retinal organoids with a layered structure, provide unlimited cell sources for transplantation. In addition, mesenchymal stem cells (MSCs) are multifunctional and protect degenerating retinal cells. The aim of this review is to summarize current findings from preclinical and clinical studies. We begin with a brief introduction to retinal degenerative diseases and cell death in diverse diseases, followed by methods for retinal cell generation. Preclinical and clinical studies are discussed, and future concerns about efficacy, safety and immunorejection are also addressed. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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7. The effects of Mn and Nb on the microstructure and mechanical properties of Alloy 152 welds.
- Author
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Sheng-Long Jeng, Hwa-Ten Lee, Tsung-Yuan Kuo, Kun-Chao Tsai, Chia-Lin Chung, and Jiunn-Yuan Huang
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MICROSTRUCTURE , *MECHANICAL behavior of materials , *NICKEL alloy welding , *SHIELDED metal arc welding , *PRECIPITATION (Chemistry) - Abstract
This study was to investigate the synergetic effects of Mn and Nb on the microstructure and mechanical properties of Ni-based welds. The dissimilar weldments of Alloy 690 and SUS 304 L were welded with a manual shielding metal arc welding (SMAW) process. The weld metals were made of a core wire of Alloy 52 coated with fluxes of various Mn and Nb additions. The results showed that an increase in Mn could induce finer grains and smaller Nb-rich phases in the welds, while the dendrites and Mn-oxides became larger. For the welds with 3.99 wt.% Mn and 1.82 wt.% Nb, Nb-rich precipitates and Mn-oxides became smaller, and dendrites grew denser concurrently. The elongation of the welds at room temperature increased with the addition of Mn, but, by contrast, their hardness decreased. High contents of Mn and Nb could improve the notch strength and ductility at 300 °C, while they had little effects on the tensile stress at room temperature. Ductile ridges were the dominant fracture feature of the welds with an addition of Mn. For the welds with 3.99 wt.% Mn and 1.82 wt.% Nb, ridges dotted with small and deep dimples became prevalent. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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8. Effects of dendrite axis and fusion boundary on stress corrosion cracking of ER 308 L/SS 304L welds in a high-temperature water environment.
- Author
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Lu, Wen-Feng, Huang, Jiunn-Yuan, Yung, Tung-Yuan, Chen, Tai-Cheng, and Tsai, Kun-Chao
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STRESS corrosion cracking , *HOT water , *WELDED joints , *DENDRITIC crystals , *FRACTURE mechanics , *BOILING water reactors - Abstract
This study investigated the effects of dendrite axis and fusion boundary (FB) on the stress corrosion cracking (SCC) of 308 L/304 L welds by using an alternating current potential drop (ACPD) technique to measure the SCC growth rates in a simulated boiling water reactor environment. The results show that the ferrite/austenite interfaces are more susceptible to SCC in the SS 308 L welds. Furthermore, the angle between the applied load and the dendrite axis affects the SCC growth rate, and as this angle approached 90°, the SCC crack growth rate increases. The SCC cracks in the heat affected zone (HAZ) are mainly intergranular and some cracks propagate transgranularly. Furthermore, the primary crack in the HAZ propagates along the FB; when reaching FB, some secondary cracks are arrested at the FB. The residual strain caused by weld shrinkage is the crucial factor for the increase in SCC susceptibility in HAZ. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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