288 research outputs found
Study of Deformation Behavior of Nanocrystalline Nickel using Nanoindentation Techniques
Nanocrystalline materials with grain size less than 100 nm have been receiving much attention because of their unparallel properties compared with their microcrystalline counterparts. Because of its high hardness, nanocrystalline nickel has been used for MEMS. Long term thermomechnical properties and deformation mechanism at both ambient and elevated temperatures need to be evaluated which is vital for reliability of its applications as structural material.
In this thesis, nanoindentation creep of nanocrystalline nickel with an as-deposited grain size of 14 nm was characterized at elevated temperatures. The nanoindentation creep rate was observed to scale with temperature and applied load (or stress), and could be expressed by an empirical power-law equation for describing conventional crystalline solids. Creep activation energy was found to be close to that for grain boundary self-diffusion in nickel. The activation volume was also evaluated using a stress relaxation technique. The creep results were compared with those for fine-grained nickel in the literature. Possible mechanisms were discussed in light of the creep rate and temperature ranges.
To provide a direct comparison, uniaxial creep tests were conducted on nanocrystalline nickel with an as-deposited grain size of 14 nm at 398 K. It was found that stress exponents under the two test conditions are almost the same, indicating a similar creep mechanism. However, the strain rate measured by nanoindentation creep was about 100 times faster than that by uniaxial creep. The rate difference was discussed in terms of stress states and the appropriate selection of Tabor factor.
To further explore the time-dependent plastic behavior, multiple unload-reload tests were conducted on electrodeposited nanocrystalline nickel in both compression and tension. A hysteresis was observed during each unload-reload cycle, indicating irreversible energy dissipation. The dissipated energy was evaluated and the energy dissipation rate was found to increase with the flow stress to the third power and sensitive to the stress state (tension or compression). A mechanistic model based on grain boundary sliding was proposed to describe the unload-reload behavior. Experimental results were found to be in good agreement with the model predictions, suggesting the observed hysteresis was indeed caused by grain boundary sliding
La mort dans la tradition chinoise selon le taoïsme, le bouddhisme et le confucianisme :des conceptions complémentaires
La mort est ici examinée du point de vue de l’éthique traditionnelle. Nous présentons d’abord de manière générale les différentes conceptions de la mort dans la tradition chinoise, selon le confucianisme, le taoïsme et le bouddhisme ainsi que leurs origines en lien avec l’organisation sociale. Dans le cadre de cet article, nous nous bornons à montrer de quelles manières, avec quels outils théoriques et pratiques ces traditions tentent de répondre à l’angoisse de la mort dans la Chine ancienne et moderne.Death is examined here from the point of view of traditional ethics. We first present in a general way the different conceptions of death in the Chinese tradition, according to Confucianism, Taoism and Buddhism as well as their origins in connection with social organization. Within the framework of this communication, we limit ourselves to showing in which ways, with which theoretical and practical tools these traditions try to respond to the anxiety of death in ancient and modern China
Data-driven and machine-learning based prediction of wave propagation behavior in dam-break flood
The computational prediction of wave propagation in dam-break floods is a
long-standing problem in hydrodynamics and hydrology. Until now, conventional
numerical models based on Saint-Venant equations are the dominant approaches.
Here we show that a machine learning model that is well-trained on a minimal
amount of data, can help predict the long-term dynamic behavior of a
one-dimensional dam-break flood with satisfactory accuracy. For this purpose,
we solve the Saint-Venant equations for a one-dimensional dam-break flood
scenario using the Lax-Wendroff numerical scheme and train the reservoir
computing echo state network (RC-ESN) with the dataset by the simulation
results consisting of time-sequence flow depths. We demonstrate a good
prediction ability of the RC-ESN model, which ahead predicts wave propagation
behavior 286 time-steps in the dam-break flood with a root mean square error
(RMSE) smaller than 0.01, outperforming the conventional long short-term memory
(LSTM) model which reaches a comparable RMSE of only 81 time-steps ahead. To
show the performance of the RC-ESN model, we also provide a sensitivity
analysis of the prediction accuracy concerning the key parameters including
training set size, reservoir size, and spectral radius. Results indicate that
the RC-ESN are less dependent on the training set size, a medium reservoir size
K=1200~2600 is sufficient. We confirm that the spectral radius \r{ho} shows a
complex influence on the prediction accuracy and suggest a smaller spectral
radius \r{ho} currently. By changing the initial flow depth of the dam break,
we also obtained the conclusion that the prediction horizon of RC-ESN is larger
than that of LSTM
An Novel Six-Segment Modulation Strategy for Three-Phase Isolated PFC Converter
A three-phase isolated rectifier features bidirectional power conversion and galvanic isolation, and is attractive as a high-efficiency energy conversion system. However, when a conventional modulation is applied to this rectifier, the excessive DC-link current ripple will result in increasing switching losses or the size of DC-link inductance, which is not cost-effective. In order to effectively reduce the current ripple, this paper proposes a “six segment” PWM (Pulse Width Modulation) strategy. It can significantly reduce the current ripple compared with the existing “eight segment” PWM strategy. Meanwhile, the current quality of the grid is improved. Finally, the experimental tests were carried out. The experimental results reveal that, compared to the traditional “eight segment” PWM, the dc-side current ripple significantly reduced from 2 A to 0.8 A, the total harmonic distortion significantly reduced from 5.69% to 2.41%, and the power factor increased from 0.87 to 0.99, verifying the effectiveness of the proposed method
Nano rare-earth oxides induced size-dependent vacuolization: an independent pathway from autophagy
Four rare earth oxides have been shown to induce autophagy. Interestingly, we often noticed plentiful vacuolization, which was not always involved in this autophagic process. In this study, we investigated three other rare-earth elements, including Yttrium (Y), Ytterbium (Yb), and Lanthanum (La). Autophagic effect could be induced by all of them but only Y2O3 and Yb2O3 could cause massive vacuolization. Y2O3 and Yb2O3 treated by sonication or centrifugation to reduce particle size were used to test vacuolization level in HeLa cell lines. The results showed that rare earth oxides-induced vacuolization is size-dependent and differs from autophagic pathway. To further clarify the characteristics of this autophagic process, we used MEF Atg-5 (autophagy associated gene 5) knockout cell line, and the result showed that the autophagic process induced by rare earth oxides is Atg-5-dependent and the observed vacuolization was independent from autophagy. Similar results could also be observed in our tests on 3-methyladenine(3-MA), a well-known autophagy inhibitor. In conclusion, for the first time, we clarified the relationship between massive vacuolization and autophagic process induced by rare earth oxides and pointed out the size effect of rare earth oxides on the formation of vacuoles, which give clues to further investigation on the mechanisms underlying their biological effects
The Role of Postoperative Radiotherapy on Stage N2 Non-small Cell Lung Cancer
Background and objective The clinical value of postoperative radiotherapy (PORT) in stage N2 nonsmall-cell lung cancer (NSCLC) is controversy. The aim of this study is to analyze the efficacy of PORT in subgroup of stage N2 NSCLC, which can help clinicians to choose proper patients for PORT. Methods Clinical data of 359 patients with stage N2 NSCLC treated with radical surgery between Mar. 2000 and Jul. 2005 were retrospectively reviewed. Two hundred and seven patients received adjuvant chemotherapy and one hundred and four patients received adjuvant radiotherapy. First, the group of patients were analyzed to evaluate the factors affecting the overall survival. The all patients were divided based on tumor size and the number of lymph node metastasis station (single station or multiple station) so as to evaluate the role of PORT. The endpoint was overall survival (OS) and local recurrence-free survival (LRFS). Kaplan-Meier method was used to calculate the OS, LRFS and Log-rank was used to compare the difference in OS and LRFS between different groups. Results The median duration of follow-up was 2.3 years. 224 patients died. The median survival was 1.5 years and 1, 3, 5-year survival were 78%, 38% and 26%. Univariate analysis showed tumor size, the number of lymph node metastasis station and PORT were correlated with OS. Among patients, 5-year survival rates in PORT and non-PORT were 29% and 24% (P=0.047) respectively. In subgroups, PORT was related with high survival in patients with multiple station N2 compared to non-PORT: 36% vs 20% (P=0.013) and 33% vs 15% (P=0.002) in patients in patients with tumor size > 3 cm. Also, it was related with low local recurrence compared to non-PORT: 65% vs 48% (P=0.006) and 62% vs 48% (P=0.033). Conclusion PORT can improve overall survival for N2 NSCLC, especially the patients with the factors as follows: tumor size > 3 cm and multiple station N2 can benefit from PORT more or less
Tissue factor pathway inhibitor-2 induced hepatocellular carcinoma cell differentiation
AbstractTo investigate the effect of over-expression of tissue factor pathway inhibitor-2 (TFPI-2) on the differentiation of hepatocellular carcinoma (HCC) cells (Hep3B and HepG2). The TFPI-2 recombinant adenovirus (pAd-TFPI-2) was constructed using the pAdeasy-1 vector system. Transfected by pAd-TFPI-2, the cell proliferation of HCC cells was evaluated by CCK-8 assay, flow cytometry was used to detect cell apoptosis and CD133 expression. Real-time PCR and Western blot were used to detect the expression levels of markers of hepatocellular cancer stem cells (CSC) and hepatocytes. The over-expression of TFPI-2 significantly suppressed cell proliferation, induced apoptosis, and dramatically decreased the percentage of CD133 cells, which was considered as CSC in HCC. Real-time PCR and Western blot showed that the expression of markers of CSC in Hep3BcellsandHepG2 cells infected with pAd-TFPI-2 was markedly lower than those of the control group (P<0.05), while the expression of markers of hepatocytes was significantly increased (P<0.05). Hence, TFPI-2 could induce the differentiation of hepatocellular carcinoma cells into hepatocytes, and is expected to serve as a novel way for the treatment of HCC
Fabrication and ultraviolet photoresponse characteristics of ordered SnOx (x ≈ 0.87, 1.45, 2) nanopore films
Based on the porous anodic aluminum oxide templates, ordered SnOx nanopore films (approximately 150 nm thickness) with different x (x ≈ 0.87, 1.45, 2) have been successfully fabricated by direct current magnetron sputtering and oxidizing annealing. Due to the high specific surface area, this ordered nanopore films exhibit a great improvement in recovery time compared to thin films for ultraviolet (UV) detection. Especially, the ordered SnOx nanopore films with lower x reveal higher UV light sensitivity and shorter current recovery time, which was explained by the higher concentration of the oxygen vacancies in this SnOx films. This work presents a potential candidate material for UV light detector
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