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Mechanism and Experimental Investigation of Ultra High Pressure Water Jet on Rubber Cutting
Yi Hu,Yong Kang,Xiao-Chuan Wang,Xiao-Hong Li,Xinping LONG,Guang-Yao Zhai,Man Huang 한국정밀공학회 2014 International Journal of Precision Engineering and Vol. No.
The recycle and reuse of rubber materials has become a global environment problem with the fast increasing amount of waste rubber. Compared to traditional recycle methods, ultra high pressure water jet, as a fast developing tool of cool cutting, can be used inrecycling rubber materials without damaging the internal organization structure of materials. This paper investigates ultra highpressure jet cutting rubber in mechanism and experiment. Different from metallic materials and brittle materials, rubber materialsare cut by the force of shear and tensile under the impinging of ultra high pressure water jet and the erosion of high speed waterflow with rubber powder. The overall structure of kerf is Y shape. The upper section of Y shape is caused by shear, the middle sectionis resulted from both shear and tensile, and the bottom section is a result of the erosion and the tensile. The results of experimentshow: (1) a significant linear correlation between cutting depth and pump pressure;(2) 2.0 mm/s is the optimal transverse velocityunder the current experiment condition;(3) the cutting depth has a decreasing tendency with the stand-off distance increased. It canbe concluded from orthogonal analysis that pump pressure has a signification effect on cutting depth, nozzle transverse velocity isnot remarkable, and the effect of stand-off distance is not obvious.
Huang, Jietao,Park, Jin Hyuk,Back, Seung Hyuk,Feng, Yuhui,Cui, Chunzhi,Jin, Long Yi,Ahn, Dong June The Royal Society of Chemistry 2018 Nanoscale Vol.10 No.37
<P>DNA strands have been recently found to play a role in crystallizing organic semiconductors as a substitute for conventional surfactants. Such DNA-guided organic semiconductor particles possessed the recognition ability to complementary target DNAs, resulting in “enhanced luminescence” due to the lesser degree of non-radiative dissipation. Apart from this, in this study we developed selective recognition of mercury ions by utilizing DNA probes having ion-specific thymine-rich motifs. Strikingly, the specific ion-DNA interaction triggered rather distinctive “depressed luminescence” emitting from the particles. The mercury ions were found to be present both at the surface and the inner regions, which were discovered to relate to the drastic morphological distortion of the particles as evidenced by elemental, electron microscopy, and confocal fluorescence microscopy analyses. This novel phenomenon discovered would expand the technological values of organic semiconductors conjugated with oligonucleotides toward a wider range of target-specific applications.</P>
Hai-Long Li,Yi-Hua An,Han Zhang,Hua Huang,Zhen-Qiang Liu,Yan-Bing Li,Hao Yu 한국분자세포생물학회 2013 Molecules and cells Vol.35 No.5
Artificial extracellular matrices play important roles in the regulation of stem cell behavior. To generate materials for tissue engineering, active functional groups, such as amino, carboxyl, and hydroxyl, are often introduced to change the properties of the biomaterial surface. In this study, we chemically modified coverslips to create sur-faces with different amino densities and investigated the adhesion, migration, and differentiation of neural stem cells (NSCs) under serum-free culture conditions. We observed that a higher amino density significantly promoted NSCs attach-ment, enhanced neuronal differentiation and promoted excitatory synapse formation in vitro. These results indicate that the amino density significantly affected the biological behavior of NSCs. Thus, the density and impact of functional groups in extracellular matrices should be considered in the research and development of materials for tissue engineering.
Zu Hao Huang,Nai Fa Liu,Li Xun Zhang,Yi An Xiao,Jin Long 한국유전학회 2008 Genes & Genomics Vol.30 No.3
The taxonomic status of the subspecies Alectoris chukar remains unclear since 1830. To obtain more information on phylogenetic relationships within the species, the entire mitochondrial DNA (mtDNA) control-region sequences of eleven subspecies were analyzed to construct the phylogenetic tree among the subspecies of chukar partridge. There was a significant genetic differentiation among the subspecies with little gene flow. The phylogenetic tree grouped all the eleven subspecies into a monophyletic cluster, which included two deeply divergent phylogroups. Haplotype network was observed within A. chukar, and gene flow estimates suggest isolation among the subspecies. Our data confirmed a locality of origin (central Asia) for chukar partridge, and have clarified the relationships among the subspecies. A conventional calibration of mtDNA sequence divergence indicated an early to middle Pleistocene evolution of the main clades in A. chukar, which could have diversified in allopatry in the lowland of continental Asia. Cyclic changes in Pleistocene climate and landscape might result in subspecific divergence of chukar partridge.
Ma Weihua,Long Denglong,Wang Yi,Li Xinyu,Huang Jiaxing,Shen Jinshan,Su Wenting,Jiang Yusuo,Li Jie 한국응용곤충학회 2021 Journal of Asia-Pacific Entomology Vol.24 No.1
Honeybee pollination behavior is influenced by flower volatiles, which honeybees sense via olfactory receptors. Honeybees are only weakly attracted to pear flowers. To investigate the potential reasons, we extracted and determined the floral volatile compounds from three pear cultivars (Su, Ya, and Xuehua) using headspace solidphase micro-extraction (HS-SPME) and gas chromatography-mass spectrometry (GC–MS). The effects of pear flower volatiles on the Asian honeybee (Apis cerana cerana Fabricius) and the European honeybee (Apis mellifera ligustica Spinola) were determined by electroantennogram (EAG) assays and behavioral tests in a three-arm olfactometer. Among the 76 flower volatiles detected with GC–MS, 21 were found in all three pear cultivars, accounting for approximately 70% of the total volatile content. 3-Methyl-1-butanol and (+)-limonene volatiles had the highest relative content. Five compounds elicited strong EAG responses in both bee species: 2-methylbu tyraldehyde, 1-nonanal, 6-methyl-5-hepten-2-one, 3-methyl-1-butanol, and (+)-limonene. Neither bee species showed positive taxis to these volatiles. In behavioral tests, A. mellifera ligustica showed a low preference for 6-methyl-5-hepten-2-one (20%, 400 µg/µL) and 2-phenethyl alcohol (16.7%, 400 µg/µL). Apis cerana cerana showed a low preference for 6-methyl-5-hepten-2-one (6.7%, 400 µg/µL) and 1-nonanal (10%, 400 µg/µL), whereas its preferences for 3-methyl-1-butanol (43.3%, 400 µg/µL) and α-farnesene (40%, 400 µg/µL) were similar to that for the control. Therefore, a lack of attractive volatile compounds could explain why honeybees are only weakly attracted to pear flowers. Therefore, to achieve acceptable pollination in pear orchards, we suggest using flower-scent sugar syrup feeding and a saturation pollination strategy.
L1 cell adhesion molecule as a novel independent poor prognostic factor in gallbladder carcinoma
Choi, Song-Yi,Jo, Young Suk,Huang, Song-Mei,Liang, Zhe Long,Min, Jeong-Ki,Hong, Hyo Jeong,Kim, Jin-Man Elsevier 2011 Human pathology Vol.42 No.10
<P><B>Summary</B></P><P>Gallbladder carcinoma is a lethal malignancy and is hard to cure by current treatment. Thus, identification of molecular prognostic markers to predict gallbladder carcinoma as therapeutic targets is urgently needed. Recent studies have demonstrated that L1 cell adhesion molecule is associated with the prognosis of variable malignancy. Here, we investigated L1 cell adhesion molecule expression in gallbladder carcinoma and its prognostic significance. In this study, we examined L1 cell adhesion molecule expression in tumor specimens from 69 patients with gallbladder carcinoma by immunohistochemistry and analyzed the correlation between L1 cell adhesion molecule expression and clinicopathologic factors or survival. L1 cell adhesion molecule was not expressed in the normal epithelium of the gallbladder but in 63.8% of gallbladder carcinomas, remarkably at the invasive front of the tumors. In addition, L1 cell adhesion molecule expression was significantly associated with high histologic grade, advanced pathologic T stage and clinical stage, and positive venous/lymphatic invasion. Multivariate analyses showed that L1 cell adhesion molecule expression (hazard ratio, 3.503; <I>P</I> = .028) and clinical stage (hazard ratio, 3.091; <I>P</I> = .042) were independent risk factor for disease-free survival. L1 cell adhesion molecule expression in gallbladder carcinoma was significantly correlated with tumor progression and unfavorable clinicopathologic features. L1 cell adhesion molecule expression was an independent poor prognostic factor for disease-free survival in patients with gallbladder carcinoma. Taken together, our findings suggest that L1 cell adhesion molecule expression could be used as a novel prognostic factor for patient survival and might be a potential therapeutic target in gallbladder carcinomas.</P>
Jingfang Luo,Yi Long,Guofeng Ren,Yahui Zhang,Jihua Chen,Ruixue Huang,Lina Yang 한국식품영양과학회 2019 Journal of medicinal food Vol.22 No.12
Hepatic injury is significant in the pathogenesis and development of many types of liver diseases. Punicalagin (PU) is a bioactive antioxidant polyphenol found in pomegranates. To explore its protective effect against carbon tetrachloride (CCl4)-induced liver injury and the mechanism, Institute of Cancer Research (ICR) mice and L02 cells were used to observe the changes of serum biochemical indicators, histopathological liver structure, cell viability, antioxidative indices, and autophagy-related proteins were assessed. In ICR mice, PU ameliorated the CCl4-induced increase of the serum aspartate aminotransferase, alanine aminotransferase, the activity of liver lactate dehydrogenase, and the damage of histopathological structure, and exhibited a hepatoprotective effect against CCl4. PU attenuated oxidative stress by decreasing the liver malondialdehyde level and increasing the activities of liver superoxide dismutase, glutathione peroxidase, and the expression of the liver nuclear factor E2-related factor (Nrf2) protein. Furthermore, according to the vivo and vitro experiments, PU might activate autophagy through the mediation of the Akt/FOXO3a and P62/Nrf2 signaling pathway. Taken together, these results suggest that PU may protect against CCl4-induced liver injury through the upregulation of antioxidative activities and autophagy.