考虑流变特性的流固耦合地面沉降计算模型

本文根据流固耦合力学的理论与方法, 研究地面沉降问题, 即将地面沉降过程视为一个动态耦合作用过程, 通过建立渗流- 变形- 沉降耦合模型, 同时对渗流、变形和沉降过程进行仿真模拟, 从而对地面沉降进行计算和预测。由于软粘土的流变变形量在地面沉降中占有明显的份量, 因此本文在模型中充分考虑软粘土的流变特性, 建立了包括主固结又考虑次固结的计算模型, 特别适用于采、灌过程中不同受力阶段的流变特性。其特点: 三维渗流与三维固结, 并考虑重力作用; 多孔介质具有非均质性和各向异性;考虑流固耦合作用引起的孔隙比和渗透系变化(包括有效应力和流变作用的影响); 考虑加载过程和卸载过程中的主固结变形和流变变形的特点; 适用于多含水层体系和群井采灌的地面沉降计算。

Caracterización y evaluación preliminar de treinta accesiones de frijol común (Phaseolus vulgaris L.)

El presente trabajo se realizó en época de postrera (octubre 1990 en la Estación Experimental La Compañía, situada en el departamento de Carazo en la IV región, con el objetivo de caracterizar y evaluar preliminarmente 30 accesiones de frijol común ( Phaseolus vulgaris L.). El germoplasma fue colectado por el Programa de Recursos Genéticos Nicaragüenses en diferentes localidades del país. En las condiciones ecológicas en las que se desarrolló el ensayo, el material evaluado presentó variación en la mayoría de los caracteres estudiados, tanto entre y dentro de las accesiones. Las accesiones 2947 y 1726 presentaron rendimiento relativo inferior al testigo Rev. 79-A Los menores grados de severidad de la enfermedad mancha angular lo presentaron los materiales 255, 519 ,2939, 317 y 330 Se presenta un catálogo de 30 cultivares estudiados conteniendo el valor máximo, medio y mínimo, desviación estándar y coeficiente de variación para los caracteres cuantitativos y la moda para los caracteres cualitativos.

Manejo de malezas bajo dos sistemas de labranza en cultivo de soya (Glycine max (L.) Merril)

El presente trabajo fue realizado en el Centro Experimental del Algodón, en el ciclo agrícola 1989-1990 con el objetivo de estudiar la influencia del control químico y la Labranza Minina y Convencional en las poblaciones de malezas, durante el primer ciclo del cultivo de soya. Se utilizó un diseño de Bloque Completos al Azar non tres tratamientos y cuatro repeticiones. Se realizaron recuentos de malezas a los 15, 30 y 45 días después de la emergencia del cultivo. Se tomaron datos de individuos/especie y biomasa seca de malezas en un metro cuadrado. Al final se midió el rendimiento del cultivo en Kg/ha Los Tratamientos fueron: Tratamiento (Lab. Min; Lab. Min; Lab. Conv.) N. Común (Paraguat; Glifosto; Imazaquin + Pendimentalin) N. Comercial (Gramoxone; Roundup; Scepter + Prowl) Dosis (1/ha) (2.13; 4.26; 0.99+1.42) En el estudio se encontró que el mejor tratamiento fue donde se utilizó Labranza Convencional y control de malezas ron Scepter y Prowl.

Micro- and macro-tribological study on a self-assembled dual-layer film

A novel self-assembled dual-layer film as apotential excellent lubricant for micromachines was successfully prepared on single-crystal silicon substrate by chemical adsorption of stearic acid (STA) molecules on self-assembled monolayer of 3-aminopropyltri

Microfabricated tissue gauges to measure and manipulate forces from 3D microtissues

Physical forces generated by cells drive morphologic changes during development and can feedback to regulate cellular phenotypes. Because these phenomena typically occur within a 3-dimensional (3D) matrix in vivo, we used microelectromechanical systems (MEMS) technology to generate arrays of microtissues consisting of cells encapsulated within 3D micropatterned matrices. Microcantilevers were used to simultaneously constrain the remodeling of a collagen gel and to report forces generated during this process. By concurrently measuring forces and observing matrix remodeling at cellular length scales, we report an initial correlation and later decoupling between cellular contractile forces and changes in tissue morphology. Independently varying the mechanical stiffness of the cantilevers and collagen matrix revealed that cellular forces increased with boundary or matrix rigidity whereas levels of cytoskeletal and extracellular matrix (ECM) proteins correlated with levels of mechanical stress. By mapping these relationships between cellular and matrix mechanics, cellular forces, and protein expression onto a bio-chemo-mechanical model of microtissue contractility, we demonstrate how intratissue gradients of mechanical stress can emerge from collective cellular contractility and finally, how such gradients can be used to engineer protein composition and organization within a 3D tissue. Together, these findings highlight a complex and dynamic relationship between cellular forces, ECM remodeling, and cellular phenotype and describe a system to study and apply this relationship within engineered 3D microtissues.

The Stability of a Vertical Single-Walled Carbon Nanotube Under Its Own Weight

It has been reported recently that single carbon nanotubes were attached to AFM tips to act as nanotweezers. In order to investigate its stability, a vertical single-walled carbon nanotube (SWCNT) under its own weight is studied in this paper. The lower end of the carbon nanotube is clamped. Firstly the governing dimensionless numbers are derived by dimensional analysis. Then the theoretical analysis based on an elastic column model is carried out. Two ratios, I.e., the ratio of half wall thickness to radius (t=R) and the ratio of gravity to elastic resilience ($\rho$gR=E), and their influences on the ratio of critical length to radius are discussed. It is found that the relationship between the critical ratio of altitude to radius and ratio of half thickness to radius is approximately linear. As the dimensionless number $\rho$gR=E increases, the compressive force per unit length (weight) becomes larger, thus critical ratio of altitude to radius must become smaller to maintain stability. At last the critical length of SWCNT is calculated. The results of this paper will be helpful for the stability design of nanotweezers-like nanostructures.

Investigation of Mn-Implanted n-Type Ge

Mn+ irons were implanted to n-type Ge(1 1 1) single crystal at room temperature with an energy of 100 keV and a dose of 3 x 10(16) cm(-2). Subsequently annealing was performed at 400degreesC for 1 h under flowing nitrogen gas. X-ray diffraction measurements show that as-implanted sample is amorphous and the structure of crystal is restored after annealing. Polycrystalline germanium is formed in annealed sample. There are no new phases found except germanium. The samples surface morphologies indicate that annealed sample has island-like feature while there is no such kind of characteristic in as-implanted sample. The elemental composition of annealed sample was analyzed by Auger electron spectroscopy. It shows that manganese ions are deeply implanted into germanium substrate and the highest manganese atomic concentration is 8% at the depth of 120 nm. The magnetic properties of samples were investigated by an alternating gradient magnetometer. The annealed sample shows ferromagnetic behavior at room temperature.

Growth of highly-quality single-wall carbon nanotubes without amorphous carbon formation

A simple way to deposit single-wall carbon nanotubes by CVD without the co-deposition of unwanted a-C was demonstrated. It was found that the catalytic deposition of SWCNTs occurs at a substantial rate compared to the self-pyrolysis of the hydrocarbon gas used.

纳米铜团簇凝结规律的分子动力学研究

Freezing processes of liquid Cu nanoclusters with atoms of 147,309 and 561 are performed by means of molecular dynamics, which show that the structures of the obtained solid nanoclusters at room temperature arc, governed by the cooling rate and the cluste

Semi-analytic slope delay model for CMOS switch-level timing verification

A novel slope delay model for CMOS switch-level timing verification is presented. It differs from conventional methods in being semianalytic in character. The model assumes that all input waveforms are trapezoidal in overall shape, but that they vary in their slope. This simplification is quite reasonable and does not seriously affect precision, but it facilitates rapid solution. The model divides the stages in a switch-level circuit into two types. One corresponds to the logic gates, and the other corresponds to logic gates with pass transistors connected to their outputs. Semianalytic modeling for both cases is discussed.

Switch-level timing verification for CMOS circuits. A semianalytic approach

The paper describes a semianalytic slope delay model for CMOS switch-level timing verification. It is characterised by classification of the effects of the input slope, internal size and load capacitance of a logic gate on delay time, and then the use of a series of carefully chosen analytic functions to estimate delay times under different circumstances. In the field of VLSI analysis, this model achieves improvements in speed and accuracy compared with conventional approaches to transistor-level and switch-level simulation.

Hierarchical approach to timing verification in CMOS VLSI design

This paper describes a novel hierarchical approach to timing verification. Four types of relationship existing among signal paths are distinguished, based on a classification of the degree of interdependency in the circuit. In this way, irrelevant path delays can be excluded through consideration of the interaction between critical paths and others. Furthermore, under suitable conditions, bounded delay values for large hierarchical systems can be deduced using bounded delays determined for their constituent cells. Finally, we discuss the impact on design strategy of the hierarchical delay model presented in this paper.