液体成形复合材料力学性能测试方法研究进展

复合材料液体成形工艺(Liquid Composite Molding,LCM)是将液态聚合物在压力作用下注入铺有纤维预成形体的闭合模腔中,液态聚合物在流动充模的同时完成对纤维的浸润并经固化成形成为复合材料制品的一类制备技术。本文先对复合材料液体成形工艺原理进行了简要概述,接着综述了由液体成形工艺制备的复合材料构件的基本力学性能测试方法,其中基本力学性能主要包括拉伸、压缩、弯曲、剪切、开孔拉伸、开孔压缩、层间断裂和抗冲击性能等,并对相关的试验标准进行了比较。最后对液体成形复合材料的力学性能测试方法进行了总结和展望。

数控液体成形在液压机上的应用

本文介绍了用于液体拉伸成形液压机的数控系统。该系统以8086微机为核心,配以智能图形终端和可编程序控制器,对液压机进行控制和管理,数控系统除控制液压机动作外,还可在屏幕上设定两条理想工艺曲线,既能控制液压室压力和压边力按工艺曲线变化,又能显示实际的工艺曲线。

复合材料电池箱真空辅助树脂灌注快速成形工艺

分析了几种复合材料零部件常规的制作工艺,针对电池箱的结构特点,提出了材料和结构一体化的真空辅助树脂灌注(VARI)快速成形工艺,并且采用液体成形模拟分析软件PAM-RTM确定了工艺方案和工艺参数。VARI工艺与传统双面模具的树脂传递模塑(RTM)工艺相比,节省了大量的工装设备和工序,降低了成本。为了验证所采用的工艺方法的可行性,实际制作了样件,结果表明所采用的工艺方法实现了快速、低能量消耗且绿色环保的目的。

Ice Slurry Formation in a Cocurrent Liquid-Liquid Flow

A new technique for ice slurry production was explored. Multiple small water-drops were formed in another immiscible chilled liquid by a single-nozzled atomizer and frozen in the fluidized bed by direct contact heat transfer. Experiments were conducted to investigate the dynamic behaviors of the ice crystal making system. The results demonstrate that the ice crystals could be produced continuously and stably in the vertical bed with the circulating coolant of initial temperature below -5℃. The size distribution of the ice crystals appears non-uniform, but is more similar and more uniform at lower oil flow rate. The mean ice crystal size rests seriously with the jet velocity and the oil flow rate. It decreases with decreasing the oil flow rate, and reaches the maximum at an intermediate jet velocity at about 16.5 m.s y. The ice crystal size is also closely related to the phenomenon of drop-coalescing, which can be alleviated considerably by reducing the flow rate or lowering the temperature of the carrier oil. However, optimization of liquid-liquid atomization is a more effective approach to produce fine ice crystals of desired size.

Bubble Formation Characteristics from a Sieve Tray with Liquid Cross-flow

An apparatus, designed to simulate bubbling of sieve tray operatedin froth regime, was employed. Bubble contact angles in and above theincipient weeping regime for an air-water-plexiglas system wereinvestigated. The influence of both liquid cross-flow and gas up-flowupon bubble contact angles was examined. A model consider- Ing theinfluence of liquid cross-flow was developed to predict bubble sizefrom a sieve hole in froth operation regime. The comparison showsthat the bubble sizes predicted by the present model are consistentwith our experimental Values and the available published experimentaldata.

Parameters affect foaming and foam stability during foam drilling

The authors presented indoor practice experiments of parameters affect on foaming and foam stability. Experiments were carried out and special equipments were used to determine foaming and foam stability; tests were tabulated and charted. The effects of chemical and physical parameters on foaming and foam stability have been conducted.

Ultracytochemical localization of H+-adenosine triphosphatase activity in autophagic vacuoles induced by vinblastine in rat liver

H+-adenosine triphosphatase (H+-ATPase) activity was demonstrated oytoohemioally in autophagio vaouoles (AVs) of rat hepatooytes using a modification of the method for the demonstration of neutral p-nitrophenyl phosphatase (p-NPPase) activity [1]. When an inhibitor of H+-ATPase, N-ethylmaleimide (NEM) or 4,4'-diisothiooyanostilbene-2,2'disalfonio aold, di-sodium salt (BIDS) was included in the incubation medium the enyzme activity was abolished indicating that p-NPPase demonstrated in this study represents H+-ATPase. Autophagy was induced by a single intraperitoneal injection of vinblastine sulfate (VBL). The number of AVs increased remarkably in hepatooytes from 40 min after VBL treatment. H+-ATPase activity was observed mainly on the membranes of lysosomes and AVs. However, early forms of AVs containing only incompletely digested material showed no H+-ATPase activity. Most AVs revealing a positive reaction seemed to be in advanced stages of development. Acid phosphatase aotioity was demonstrable in mature but not in early forms of AVs. The present investigation showed that membranes of advanced stage A Vs possess an H+-ATPase which may be derived from lysosomal membranes.

Analysis of semi-solid response under rapid compression tests using multi-scale modelling and experiments

Simulating semi-solid metal forming requires modelling semi-solid behaviour.However, such modelling is difficult because semi-solid behavior is thixotropic and depends on the liquid-solid spatial distribution within the material.In order to better understand and model relationships between microstructure and behavior, a model based on micromechanical approaches and homogenisation techniques is presented.This model is an extension of a previous model established in a pure viscoplastic framework to account for elasticity.Indeed, experimental load-displacement signals reveal the presence of an elastic-type response in the earlier stages of deformation when semi-solids are loaded under rapid compression.This elastic feature of the behaviour is attributed to the response of the porous solid skeleton saturated by incompressible liquid.A good quantitative agreement is found between the elastic-viscoplastic predicted response and the experimental data.More precisely, the strong initial rising part of the load-displacement curve, the peak load and the subsequent fall in load are well captured.The effect of solid fraction on mechanical response is in qualitative agreement with experiments.

Ore-forming fluid and metallization of the Huanggangliang skarn Fe-Sn deposit,Inner Mongolia

Two kinds of inclusions, fluid-melting inclusion and gas-liquid inclusion, are present in the Huanggangliang deposit in eastern Inner Mongolia. Temperature ranges from 1050°C of fluid-melting inclusion to 150°C of liquid inclusion. Away from intrusion, the inclusions of orebodies intend to be characterized by simpler type, lower temperature and lower salinity, as well as weakened relation to intrusion. The metallization of the Huanggangliang deposit is characterized by multiple activities of ore-forming fluid, multi-source, multi-stage accumulation of ore-forming material, F-rich environment, enrichment of F, organic gas, CO2 and N2, and involving of residual magma.

Excess heat capacity in glass-forming liquid systems containing molecules

Excess heat capacities at glass transition temperature in two types of glass-forming systems of [xNaNO3(1x)KNO3]60·[Ca(NO3)2]40(0x1) and Ca(NO3)2yH2O(4y13) are studied.In the former system,with the replacement of K + cation with Na + cation,the excess heat capacity is around 65.1 J mol-1·K-1,while the excess increases by 38.9 J mol-1·K-1 upon one molar H2O content in latter system.A quantitative description to the excess heat capacity is built up with the thermal effects of atomic and molecular translational motion in liquids.The results might offer a further understanding to the glass transition.

Generation and propagation of internal wave and its interaction with ocean structures

Internal waves appear frequently at the interface of a density-stratified fluid and they can cause severe damage on ocean structures.In this paper an extensive review on the study of the generation and propagation of internal waves and the interactions between internal waves with ocean structures is given.Future research is discussed.Some comparative analyses are conducted for propagation of internal waves on slope topography in shallow water.The future developments regarding propagation and oceanographic characteristics of internal waves are also discussed.