9 resultados para MMC
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
For metal-matrix composites (MMCs), interfacial debonding between the ductile matrix and the reinforcing hard inclusions is an important failure mode. A fundamental approach to improving the properties of MMCs is to optimize their microstructure to achieve maximum strength and toughness. Here, we investigate the flow stress of a MMC with a nanoscale microstructure similar to that of bone. Such a 'biomorphous' MMC would be made of staggered hard and slender nanoparticles embedded in a ductile matrix. We show that the large aspect ratio and the nanometer size of inclusions in the biomorphous MMC lead to significantly improved properties with increased tolerance of interfacial damage. In this case, the partially debonded inclusions continue to carry mechanical load transferred via longitudinal shearing of the matrix material between neighboring inclusions. The larger the inclusion aspect ratio, the larger is the flow stress and work hardening rate for the composite. Increasing the volume concentration of inclusion also makes the biomorphous MMC more tolerant of interfacial damage.
Resumo:
The mechanical behaviors of 2124, Al-5Cu, Al-Li and 6061 alloys reinforced by silicon carbide particulates, together with 15%SiCw/6061 alloy, were studied under the quasi-static and impact loading conditions, using the split Hopkinson tension/compression bars and Instron universal testing machine. The effect of strain rate on the ultra tensile strength (UTS), the hardening modulus and the failure strain was investigated. At the same time, the SEM observations of dynamic fracture surfaces of various MMC materials showed some distinguished microstructures and patterns. Some new characteristics of asymmetry of mechanical behaviors of MMCs under tension and compression loading were also presented and explained in details, and they could be considered as marks to indicate, to some degree, the mechanism of controlling damage and failure of MMCs under impact loading. The development of new constitutive laws about MMCs under impact loading should benefit from these experimental results and theoretical analysis.
Resumo:
研究了颗粒增强金属基复合材料(MMC)在激光热冲击与机械载荷耦合作用下的损伤阈值和断裂阈值。并把剪切滞后模型推广应用到MMC的热-力耦合分析中,从而在理论上估算出了损伤阈值和断裂阈值,计算结果与试验结果基本一致。
Resumo:
AIM: To identify the anti-human immunodeficiency virus type 1 (HIV-1) activities of alpha-momorcharin ( alpha-MMC) from Momordica charantia in acutely and chronically infected lymphocytes. METHODS: The anti-HIV activities of alpha-MMC were examined by 1) the inhibition of syncytia formation induced by HIV-1 III B; 2) reduction of p24 core antigen expression level and decrease in numbers of HIV antigen positive cells in acutely and chronically infected cultures. The cytotoxic effects of alpha-MMC was tested by trypan blue dye exclusion or colorimetric MTT assay. RESULTS: alpha-MMC was found to obviously inhibit HIV-1 III B-inducing C8166 syncytia formation and markedly reduced both expression of p24 core antigen and the numbers of HIV antigen positive cells in acutely but not chronically HTV-1-infected culture. The median effective concentration (EC50) in these assays were 0.016, 0.07, and 0.32 mg.L-1, respectively. CONCLUSION: alpha-MMC is a unique component of momorcharin with anti-HIV activity, and markedly inhibited HIV-1 replication in acutely but not chronically HIV-1-infected T-lymphocytes.
Resumo:
本文确立了一个以草鱼体内肾细胞姐妹染色单体交换频率为指标的检测环境诱变或致癌物质的短期试验系统。采用硫堇-UV-Giemsa染色法,分析了草鱼体内肾细胞的SCD-2(注射BrdU后第二个细胞周期的中期分裂相的SCD)频率和SCE频率。用500微克/克体重BrdU体内标记5天,草鱼肾细胞SCD-2频率为8.58±0.22%;SCE频率为3.05±2.523 SCE_5/细胞。以丝裂霉素C(Mitomycin C,MMC)作为阳性对照,分析了化合物亚硝基胍(N-methyl-N~1-nitro-N-nitro
Resumo:
本论文的研究方向是通过密度泛函理论研究各种材料的物理化学性质。近年来相关理论和数值算法的飞速发展,使得基于密度泛函理论的第一性原理方法成为凝聚态物理、量子化学和材料科学中的常规计算研究手段。本论文对无机材料进行第一性原理研究,研究涉及材料物性包括几何构型、电子结构、磁性能、和力学性质等等。 第一章简要地介绍了密度泛函理论的基本框架和近年来的理论发展。密度泛函理论的发展以及寻找合适的交换相关能量泛函为主线。从最初的局域密度近似(LDA)、广义梯度近似(GGA)到现在的非局域泛函、自相互作用修正,多种泛函形式的出现使得密度泛函理论可以提供越来越精确的计算结果。除了改进交换相关泛函,近年来密度泛函理论向动力学平均场和含时理论等方面扩展也很活跃。这些扩展式的密度泛函理论的应用领域不断扩大。在本章的最后,我们介绍一些密度泛函理论的应用程序。 第二章我们通过第一性原理从头算系统的研究了5d过渡金属二硼化物TMB2 (TM = Hf, Ta, W, Re, Os and Ir, Pt)在假想的Pmmn空间群中的结合能、生成焓、力学常数和电子能带结构。我们的计算结果表明在力学常数和价电子浓度之间存在一种关系:即当价电子浓度在6.8到7.2之间时,体模量和剪切模量达到最大值。再者,这种力学常数与价电子浓度之间的关系可以通过电子能带结构分析,如费米面附近价电子的占据情况,决定了体系的结合能和力学性能。最大的体模量和剪切模量的获得归因于TM d-B p成键态的几乎完全占据和反键态的未占据。依据上述这种关系,我们预测了在正交结构OsB2合金化W和Re将比合金化Ir元素更容易和更硬。事实上,我们的进一步计算证实了我们的期望。 通过第一性原理计算研究了ReB2和WB2的结构、弹性力学,和电子性质。计算结果表明:ReB2的平衡态结构参数和报导的实验结构一致。在常温常压下,WB2在P63/mmc空间群比在P6/mmm更稳定。依据我们计算的多晶聚集体的体模量、剪切模量,ReB2和WB2可以被看作是具有前景的低压缩率和硬材料。再者,化合物的力学各项异性通过计算得到的弹性力学常数来详细的分析讨论。态密度和电子密度分析揭示过渡金属和硼原子之间的共价键是材料具有高的体模量、剪切模量和小的Poisson比率的原因。 第四章,采用WIEN2k程序包中的缀加平面波+局域轨道方法的第一性原理计算,研究了层状钙钛矿化合物Cs2AgF4的结构、电子结构和磁性等性质。我们的计算结果表明Cs2AgF4的基态为正交相,能量比四方相低。我们同时发现Cs2AgF4应该表现出一种强的二维铁磁性,铁磁层之间为弱的反铁磁性耦合,这一结果与实验观察相一致。更主要的是,通过分析态密度图和自旋电子密度等密度面的分析,可以清楚地看出体系中存在 和 轨道的反铁电弹性有序现象。 第五章中,采用WIEN2k程序包中的缀加平面波+局域轨道方法的第一性原理计算,研究了YBaFe2O5的晶体结构、电子和磁性等方面的物理性能,特别是有关电荷和轨道有序的情况。尽管总的3d电荷不均衡程度很小,以Fe2+ 和Fe3+阳离子t2g轨道占据数的差别所定义的轨道有序序参量相当大(0.73),无可非议的显示YBaFe2O5中存在电荷和轨道有序。O 2p和Fe eg轨道之间的强的杂化作用使得Fe2+ 和Fe3+阳离子之间总电荷差别几乎完全消失。此外,我们讨论了轨道有序和电荷有序以及磁有序之间的关系。dxz轨道有序决定了G型反铁磁性自旋有序的稳定性和电荷有序模式。
Resumo:
本文叙述了影响甲烷氧化细菌沼气甲基产孢弧菌81Z菌株生长和甲烷单加氧酶(MMO)活性的若干因素。沼气甲基产孢弧菌81Z菌株细胞生长被高浓度PO43-(>8mM),NH4+([NH4cl]>500mg/l)抑制;[CuSO4·5H2O]在0~4mg/l范围内。生长随[Cu2+]升高而加强,低[Cu2+](0.1mg/l CuSO4·5H2O)培养基中,添加Cocl2·6H2O(0.238mg/l);促进菌体细胞生长。发酵罐分批培养过程中,生长延迟期过后,沼气甲基产孢弧菌81Z菌株细胞MMO比活很快达到最高,并稳定至对数生长中后期,随即急剧下降至初始水平。发现沼气甲基产孢弧菌81Z细胞中存在一种MMO活性,它不同于已报道过的两种MMO,MMOL最适PH6.2~6.4,4℃相对稳定,其产生不受培养基中[Cu2+]调控能与甲醇-甲醇脱氢酶系统相偶联,在无细胞抽提液中其活性被400μM[Cu2+]抑制。在低[Cu2+]发酵罐培养条件下,沼气甲基产孢弧菌81Z菌株产生可溶性MMC,其最适PH7.0,4℃不稳定,可被DE-52分离为三组分:A、B、C。为了获得沼气甲基产孢弧菌81Z细胞MMO的最佳催化活性,①采用高[Cu2+]培养基进行发酵罐培养,收集对数生长中期的细胞;②选择反应缓冲液PH6.3;③反应体系中添加5mM甲醇或甲酸是有效的方法。在本研究所采取过的最佳条件下,测得MMO活性为15.9nmol/min·mg干细胞,是以前报道的该菌株活性0.97nmol/min·mg干细胞的十六倍。Some factors which influence growth and MMO activity of Methylosporovibrio methanica 81Z were described. The growth of Methylosporovibrio methanica 81Z is inhibited by high concentration of PO43-(8mM)or NH4+(500mg/lNH4cl). The growth of Methylosporovibrio methanica 81Z increased with rising of copper concentration up to 4mg/l CuSO4·5H2O. At low copper concentration(0.1mg/lCuSO4·5H2O),adding Cocl2·6H2O(0.238mg/l)could enhance the growth of Methylosporovibrio methanica 81Z.With batch culture of Methylosporovibrio methanica 81Z in a fermentor, after lag phase, the activity of MMO reached the highest level rapidly and steady until later log phase, then falled to initial level.MMOL activity differenct from that of two types of MMO reported before was found from Methylosporovibrio methanica 81Z with optimum PH value from 6.2 to 6.4 and relative stabilty at 4℃. Synthsis of the MMOL was not regulated by copper concentaration in medium. Its activity could couple with methane-l-methanoldehydrogenase system, and in cell-free extract, were inhibited by 400μm copper ion. At low copper concentration(0.1mg/lCuSO4·5H2O) and in a fermentor, Methylosporovibrio methanica 81Z could syntheis soluble MMO similar to solble MMO reported before by Palton and Patel. Its optimum PH value was 7.0. It was unstable at 4℃. It could be resoluted into three components: A, B, and C. It was effentive for obtaining the maxtmum MMO with Methylosporovibrio methanica 81Z that (1) to keep high copper concentration(4mg/lCuSO4·5H2O) in a fermentor and harvest cell at middlel lag phase;(2) to choose 6.3 as the PH value of reaction buffer;(3)and to add 5mM methanol or formate into reaction system. In this dy, the MMO activity of cells of Methylosporovibrio methanica 81Z was reached 15.9 nmol/min.mg, dry weight, sixteen times as high as the value(0.97nmol/min.mg, dry weight) reported with the same strain.
Resumo:
本文旨在分别研究重离子束及MMC在诱导细胞的DNA损伤效应中一些具体的分子机制,为治疗的进行以及相关辅助药物的开发提供理论依据。本文探索的重点有两个,第一个是重离子束辐射诱导的DNA损伤效应及p53在其中的激活,第二个是MMC诱导的DNA损伤效应及p53和BRCA1、H2AX等分子在其中的角色。 1. 12C6+离子束诱导HeLa细胞DNA损伤效应为了研究HeLa细胞经过12C6+ 束辐照之后的DNA损伤效应,及这个过程中p53激活的分子机制。我们运用中性单细胞电泳技术,检测了HeLa细胞经过4Gy 12C6+ 束辐照0h、3h、6h和12h之后DNA的损伤情况,以及0.5Gy、1Gy、2Gy和4Gy 12C6+ 束辐照0h后的DNA损伤情况。同时运用细胞生长实时监测仪监测了HeLa细胞在经过0Gy、0.5Gy和1Gy 12C6+ 束辐照之后的生长变化,并运用AO/EB双染检测了辐照24小时后的凋亡情况。另外,利用8mmol/L的caffeine(抑制ATM和ATR)和20μmol/L的wortmannin(抑制ATM和DNA-PK)处理HeLa细胞后再进行1Gy 12C6+ 束辐照,通过western blot检测p53的表达。结果显示,12C6+ 束辐照可造成HeLa细胞的DNA损伤,损伤随剂量升高而升高但随时间降低;并诱导HeLa细胞发生凋亡;而且辐照后p53表达升高,但经过caffeine或者wortmannin预先处理的细胞p53均没有显著升高。我们的结论是:12C6+ 束辐照可造成HeLa细胞的DNA损伤并诱导损伤修复及凋亡等效应,损伤效应相关的分子p53被激活,并且激活依赖于ATM。 2. MMC诱导的DNA损伤效应在这一部分研究中,首先,我们利用与上面相同的研究方法,探讨了p53在MMC诱导的DNA损伤效应中的激活情况,结果显示,MMC诱导的DNA损伤效应并不依赖于p53。另外,我们还探讨了, BRCA1在FANCD2的γ-H2AX依赖性转移中的作用。MMC可造成DNA的ICL(interstrand cross-link)损伤,ICL可通过FA(Fanconi Anemia)通路进行修复。FANCD2是FA通路的核心分子,在DNA产生ICL时被各种分子修饰然后转移到损伤部分,这个过程的涉及到ATR、γ-H2AX及BRCA1等,本文试图探讨BRCA1在其中的作用方式。研究中,我们监测了不同处理(包括对照、caffeine(可抑制ATR)、MMC及MMC +caffeine)的HCC1937(BRCA1缺陷型)和MCF7(BRCA1野生型)细胞的生长;并用Western blot检测MMC处理之后HCC1937细胞γ-H2AX的表达情况。结果表明,MMC和caffeine均可以抑制HCC1937的生长,但caffeine和MMC+caffeine的抑制效果是一样的;MMC和caffeine均可以抑制MCF7的生长,且MMC+caffeine处理比仅进行caffeine处理的抑制作用强;MMC处理之后,HCC1937的γ-H2AX表达显著升高。我们的结论是,在FANCD2的γ-H2AX依赖性转移中,H2AX的磷酸化并不依赖于BRCA1,不过,BRCA1和ATR应该参与一个相同的分子事件,可能是FANCD2的磷酸化。这个有待进一步的实验验证
Resumo:
First-principle calculations are performed to investigate the structural, elastic, and electronic properties of ReB2 and WB2. The calculated equilibrium structural parameters of ReB2 are consistent with the available experimental data. The calculations indicate that WB2 in the P6(3)/mmc space group is more energetically stable under the ambient condition than in the P6/mmm. Based on the calculated bulk modulus, shear modulus of polycrystalline aggregate, ReB2 and WB2 can be regarded as potential candidates of ultra-incompressible and hard materials. Furthermore, the elastic anisotropy is discussed by investigating the elastic stiffness constants. Density of states and electron density analysis unravel the covalent bonding between the transition metal atoms and the boron atoms as the driving force of the high bulk modulus and high shear modulus as well as small Poisson's ratio.
