Table of Content

25 January 2011, Volume 39 Issue 1

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Electronics, Communication & Automation Technology

Production of Phenolic Chemicals via Liquefaction of Alkali Lignin from Bagasse

Sui Xin-jin Wu Shu-bin

2011, 39(1):  1-6.  doi:10.3969/j.issn.1000-565X.2011.01.001

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In order to increase the utilization value of alkali lignin from bagasse,aluminium silicate was chosen as the catalyst to produce phenolic chemicals from the lignin via a liquefaction process.The reaction conditions including aluminium silicate dosage,heating time,heating temperature and liquid-solid（glycerol-bagasse alkali lignin） ratio were then optimized as follows： an aluminium silicate dosage of 4%（based on the dry bagasse alkali lignin）,a heating duration of 1 h,a heating temperature of 270℃ and a liquid-solid ratio of 6 mL/g（based on the dry bagasse alkali lignin）.In these conditions,phenolic chemicals mainly containing 2,6-dimethoxy-phenol,2-methoxy-phenol and phenol were produced,with a total yield of 54.10%.Moreover,the structures of functional groups of the alkali lignin before and after the liquefaction were analyzed by means of FT-IR and 1H NMR.The results show that,when the heating temperature reaches 270 ℃,the propane units of the phenylpropane separate from benzene units in the presence of aluminium silicate,and the β-ether lingkages（β-O-4） break due to high temperature and the existence of acid.At the same time,few α-ether lingkages（α-O-4） break to produce phenols following the separation of propane units.

Effect of Emulsifiers on Morphology and Film Wettability of Core-Shell Fluorine-Containing Poly-Styrene-Acrylate Latex

Xu Gui-long Deng Li-li Wen Xiu-fang Pi Pi-hui Zheng Da-feng Cheng Jiang Yang Zhuo-ru

2011, 39(1):  7-11.  doi:10.3969/j.issn.1000-565X.2011.01.002

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Fluorine-containing poly-styrene-acrylate latex was prepared by means of pre-emulsifying semi-conti-nuous seed emulsion polymerization in three different emulsifier systems such as SDS/OP-10,NDS-86 and DNS-86/fluorine-containing emulsifier.Then,the effects of the emulsifiers on the morphology of the latex particles and the hydrophobic/oleophilic properties of the latex film were investigated.Moreover,the morphology of latex particles,the chemical composition,the elements on the film surface and the hydrophobic/oleophilic properties of the film were characterized respectively by means of TEM,FT-IR,XPS and water/oil contact angle test.The results show that the latex particles prepared in SDS/OP-10 emulsifier system display a snowman structure,while those prepared in DNS-86 or DNS-86/fluorine-containing emulsifier system display an uniform core-shell structure,which benefits the enrichment of fluorine on the film surface,and that the film of the latex prepared in DNS-86/fluorine-containing emulsifier system possesses the best hydrophobic and oleophobic properties due to the morphology of latex particles and the adopted emulsifiers.

Inorganic Hybrid Modification on Surface Functionalized Polyacrylate Emulsions and Properties

Liao Wen-bo Qu Jin-qing Li Zhong Chen Huan-qin

2011, 39(1):  12-17,29.  doi:10.3969/j.issn.1000-565X.2011.01.003

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PAES/SiO2 hybrid emulsion with inorganic silica cover organic latexes structure was prepared by dropping TEOS to the SiOH surface functionalized polyacrylate (PAES), which was synthesized by addition of KH570 to acrylic polymer emulsion in the addition of monomers up to 70% during the emulsion polymerization. Transmission electron microscopy (TEM) photos indicate that acrylic latexes were covered by inorganic silica components. Fourier transform infrared (FTIR) confirms that KH570 was copolymerized with acrylate monomers and Si-O-Si crosslinking bonds were found when addition of TEOS to PAES. The effects of KH570 and TEOS concentration on the properties of hybrid emulsions and films were investigated, the results indicates that the particle diameters of PAES emulsion increase with the increasing of KH570 concentration, the water-/ethanol- resistance, and gloss of PAES films display excellent properties when the concentration of KH570 is 3 wt%. The particle diameters of PAES/SiO2 hybrid emulsion slightly increase with the increase of TEOS concentration. The water-/ethanol-resistance, hardness and gloss of hybrid films exhibit better properties as the amount of TEOS is 30 wt%. The hybrid films composed of the continuous polyacrylate components, polysiloxane oligomers and Si-O-Si crosslinking polymers. Thermogravimetric analysis (TGA) curves demonstrate that hybrid films display good thermal stability than the PAE and PAES films.

Characterization and Accumulation of No-process Manganese Element in Bleaching Process

Zhang Xue-jin Li You-ming Lu Rui-jiang Hou Yi

2011, 39(1):  18-23.  doi:10.3969/j.issn.1000-565X.2011.01.004

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The research was to characterize the no-process manganese element in bleaching process by means of IR, XRD, SEM-EDS. The accumulation of no-process manganese element in eucalyptus cellulose fiber was also studied. The results showed that “fresh” manganese was tabular crystal consisted of Mn3O4, Mn(OH)2 and 7Mn(OH)2?2MnSO4?H2O, while “aged” manganese was grain crystalline consisted of Mn3O4 and MnSO4?H2O. With manganese accumulated in process stream in the range of 0～18.18 μmol/gcellulose, there was a good linear relationship between adsorbed manganese on cellulose and manganese accumulated in process stream. Approximately 40% of “aged” manganese in process stream was adsorbed on cellulose fiber, larger than adsorption capacity of “fresh” manganese, 25%. Adsorption of “aged” manganese in process stream reached the ceiling about 7.66 μmol/gcellulose. The adsorption isotherm of no-process manganese element on eucalyptus cellulose fiber was compatible with adsorption being of the Freundlish type, i.e. a dynamic exchange of particles between the suspension and the fiber surface. 1/n of “aged” manganese was 0.65, less than the “fresh” manganese with 1/n 0.81. ㏒K of “aged” manganese increased significantly compared to “fresh” manganese.

 CFD-Based Investigation into Flow Field of S-Type Discharger at the Bottom of High-Consistency Pulp-Bleaching Tower

Zeng Jin-song Chen Ke-fu Li Jun Xu Jun

2011, 39(1):  24-29.  doi:10.3969/j.issn.1000-565X.2011.01.005

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Based on the standard κ-ε turbulence model in combination with both the granular Eulerian multiphase model and the sliding-grid（SG） technology in Fluent,the contour of absolute pressure,the vectors of water velocity and the volume fraction of pulp fibers were analyzed,and the instantaneous flow behaviors of the pulp in the dilution zone and the S-type discharger at the bottom of high-consistency pulp-bleaching tower were simulated.The results show that the discharger helps to achieve uniform and complete discharge due to its special shape,that the rotating speed,the viscosity,the density and the particle diameter all influence the discharging effect,especially the rotating speed,and that the simulated tangential,radial and axial velocities of water accord well with the data measured using a particle image velometer（PIV）,which means that the combination of granular Eulerian multiphase model and SG technology is effective in describing the flow fields in the discharger and its dilution zone.

Dissolution Laws of Sugars from Eulaliopsis binata During Dilute Acid-Aided Prehydrolysis

Tang Jie-bin Chen Ke-fu Xu Jun Li Jun

2011, 39(1):  30-35,47.  doi:10.3969/j.issn.1000-565X.2011.01.006

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This paper deals with the relationships between the dissolution rates of pentaose and hexose and such parameters as temperature,time as well as the initial mass concentration of dilute acid during the dilute acid-aided prehydrolysis of Eulaliopsis binata.The results show that high temperature is helpful to the dissolution of carbohydrates,and that,at the same temperature,the dissolution rates of pentaose and hexose,which have functional relation with the prehydrolysis factor,both increase with the hydrolysis time and the initial mass concentration of dilute acid.Moreover,fitting results indicate that there also exist functional relationships between the dissolution rates and the initial mass concentration of dilute acid.Based on the experimental results,two empirical models respectively describing the dissolution laws of pentaose and hexose are established,with their correctness and effectiveness being verified at last.

Synergistic Inhibition of Zinc Corrosion by Benzotriazole in Combination with Sodium Phosphate

Liu Song Zhong Yan Jiang Rong-ying Feng Zi-ping Xiao Rui

2011, 39(1):  36-41.  doi:10.3969/j.issn.1000-565X.2011.01.007

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The corrosion inhibition behavior of benzotriazole (BTA), Na3PO4 (SP) and their mixture on zinc in 17 wt% (0.534 mol l-1) tetra-n-butylammonium bromide aqueous solution was investigated by weight-loss test, potentiodynamic (Tafel) polarization measurement, electrochemical impedance spectroscopy (EIS) and scanning electron microscopy (SEM) techniques. After addition of inhibitor(s) into the TBAB aqueous solution the corrosion current density decreased and the charge transfer resistance increased, indicating that BTA or Na3PO4 or inhibitor mixture could protect zinc in aqueous TBAB solution. It was observed that the synergistic protection effect of BTA and Na3PO4 was evident. The formulation consisting of 0.1 g l-1 BTA and 1 g l-1 Na3PO4 had more than 93% corrosion inhibition efficiency calculated according to different methodologies. The main function of Na3PO4 seems to form the thin layer consisting of ZnO, Zn(OH)2 and Zn3(PO4)2, whereas BTA can stabilize this layer by incorporation into it or/and adsorption on it so that corrosion inhibition occurs after immersion of zinc into the solution containing both inhibitors.

Heat Transfer Analysis on High-temperature Heat Exchanger of Shell & Tubes with Molten-salt Phase Change Materials

Zuo Yuan-zhi Yang Xiao-xi Ding Jing

2011, 39(1):  42-47.  doi:10.3969/j.issn.1000-565X.2011.01.008

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In this paper,first,a concentric circular tube model for the shell-tube heat exchanger with molten-salt phase change materials（PCMs） is established.Then,the liquid fraction and the total melting time,which are affected by the thermal-physical parameters of the molten salt fluid and the PCMs as well as by the inlet velocity and the flow direction of the inner tube,are analyzed with Fluent,by taking into consideration the natural convection in the PCMs region.Finally,some experiments are carried out on a test platform of molten-salt heat transfer.The results show that the total melting time nearly decreases by 16.2% considering the natural convection in the PCMs region,and that the simulated temperature of PCMs at the shell side varies with time,which has a tendency similar to that of the experimental results.Thus,it comes to the conclusion that,when the temperature of the specific measu-ring point in the PCMs region exceeds the melting point of PCMs and rises to the tube inlet temperature,the corresponding time cost can be used as the criterion of melting ending of PCMs.

Synthesis,Characterization and CO_2 Adsorption Simulation of Lithium Zirconate

Yuan Wen-hui Liang Jie Li Li

2011, 39(1):  48-52,62.  doi:10.3969/j.issn.1000-565X.2011.01.009

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In order to improve the stability and adsorption rate of lithium zirconate（Li2ZrO3）,fine powders of pure Li2ZrO3 were prepared by means of citric acid-ethylene glycol complexation,with lithium nitrate and zirconyl nitrate as the starting materials.Then,the thermal decomposition of the precursor was analyzed using a comprehensive thermal analyzer,and the precursor and the Li2ZrO3 powders were characterized by means of XRD,SEM and TG-DSC.Moreover,the effects of calcination temperature and time on the formation of tetragonal crystalline grains were analyzed.The results indicate that the crystal phase of the Li2ZrO3 powders synthesized at 800 ℃ for 150 min is te-tragonal,holonomic and homogeneous,that the optimal temperature for CO2 adsorption by the powders under programmed heating and constant high-temperature status is 600 ℃,at which the 90 min adsorption capacity reaches 23.7% of the lithium zirconate mass when CO2 flows at a rate of 45 cm3/min.In addition,a new solution to the proposed adsorption model is also presented in this paper,which is verified with the adsorption data by simulation,and the simulated results accord well with the experimental ones.

Chemical Components and Antimicrobial Activity of Tea Tree Oil from Introduced Melaleuca alternifolia

Zhong Zhen-sheng Fan Li-fei Huang Ji-bing

2011, 39(1):  53-57.  doi:10.3969/j.issn.1000-565X.2011.01.010

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In this paper,first,the chemical components of the tea tree oil extracted from Melaleuca alternifolia introduced from Australia and planted in Yulin,Guangxi,China,were analyzed by means of GC/MS.Next,the physical and chemical parameters of the tea tree oil were measured and were compared with the data set by ISO international standard.Then,by using Escherichia coli and Staphylococcus aureus as the indicator bacteria,the antimicrobial activity of the tea tree oil was investigated,and the corresponding minimum inhibitory concentrations（MIC） were investigated by means of mixed medicament method.Finally,the effects of pH value,salt dosage and sucrose dosage on the antimicrobial activity were analyzed.The results show that（1） in the tea tree oil,the dosage of non-characteristic composition,namely 1,8-cineole,is up to 72.49%,while that of the characteristic composition,namely terpinen-4-ol,is only 0.78%;（2） most physical and chemical parameters of the tea tree oil are not within the region set by ISO standards;（3） the MICs of the oil for Escherichia coli and Staphylococcus aureus are both 4.00 mL/L,which means that the oil is of strong antimicrobial activity;（4） the antimicrobial activity of the tea tree oil keeps strong when the pH value varies from 5 to 10;and（5） there exists obvious synergism between salt or sucrose with certain mass fraction and the tea tree oil for bacterium inhibition.Thus,it is concluded that the introduced Melaleuca alternifolia is possibly a variety,but the variety does not result in the degradation of antimicrobial activity of the tea tree oil.

UV-Based Rapid Determination of Degree of Substitution of CMC with High Substitution

Ye Jun Zhang Yan-xingXiong Jian

2011, 39(1):  58-62.  doi:10.3969/j.issn.1000-565X.2011.01.011

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Proposed in this paper is a UV-based method to rapidly determine the degree of substitution（DS） of carboxymethyl cellulose（CMC） with high substitution.In this method,a curve of the UV absorbance of CMC-Cu（Ⅱ） solution versus the volume of dilute copper sulfate solution is obtained via the reaction CMC and Cu（Ⅱ）,which is divided into three regions,of which regionⅠ defined by Lambert-Beer＇s law corresponds to the stoichiometrical reaction of the carboxyl groups on CMC chain with Cu（Ⅱ） ions.Then,by fitting the curve in region Ⅰ,a straight line is obtained.When the square of correlation coefficient is more than 0.990,the DS of CMC can be calculated according to the volume of dilute copper sulfate solution at the intersection with maximum absorbance.The proposed method,which is of the advantages of rapidity,simplicity and is of small quantity of sample involved,is accurate in determining the DS of CMC with a DS higher than 0.80.As compared with the national standard method,the error of the proposed method ranges from 1.7% to 3.5% only.

Influence of Aerobic Oxidization on Direct Measurement of Components of Liquid Steel

Yao Shun-chun Lu Ji-dong Li Jun-yan Chen Kai Pan Sheng-hua Dong Mei-rong Li Jun

2011, 39(1):  63-67.  doi:10.3969/j.issn.1000-565X.2011.01.012

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An experiment system aimed to direct analyze liquid steel based on Laser-Induced Breakdown Spectroscopy has been built. A laboratory-scale induction furnace of 1 kg capacity is used to melt steel sample. The process of oxidization in the surface of liquid steel under atmospheric conditions is tested, and its influence to the results of analysis is discussed. Ar is used as inert gas to exclude the ambient air from the surface of liquid steel, and the changes of the intensity and RSD of elementals emission lines with the flow rate of Ar are detailed. The results of analysis show that the relative intensities of alloying elements line increase with the formation of oxidization in the surface of liquid steel, because the formation of oxide mixtures by most of alloying elements lead to a higher fractional concentration of these elementals on the sample surface. The result of direct analysis of liquid steel can be improved using Ar as inert gas with an appropriate flow rate.

Photocatalytic Degradation of Formaldehyde Driven by Discharge Plasma

Chen Li Ou Rui-kun Yan Zong-cheng Wang Hong-lin Ma Zhen

2011, 39(1):  68-73.  doi:10.3969/j.issn.1000-565X.2011.01.013

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The degradation of formaldehyde via TiO2 photocatalysis coupled with dielectric barrier discharge was investigated, which aimed to reveal the effects of discharge voltage, catalyst support, calcination temperature and transition metal ion-doping on the degradation efficiency of formaldehyde. The results indicated that (1) TiO2/γ-Al2O3 photocatalyst improved the degradation efficiency of formaldehyde and the products selectivity significantly; (2) the degradation rate increased with increasing discharge voltage or decreasing calcination temperature; when the discharge voltage was 20.7kV and the calcination temperature was 400℃, respectively, the degradation rate reached 83.8%; (3) plasma-driven anatase TiO2 system showed the best degradation efficiency compared to the plasma-driven rutile TiO2 system and the plasma-driven mixed crystal system; (4) after Mn ion-doping, the degradation rate increased 45.7% compared to the system with plasma alone, while the ratio of CO/CO2 and O3 concentration decreased about 42.5% and 39.4%.

Preparation of Modified Chitosan Microsphere and Its Adsorption Behavior for Poly-galacturonic Acid

Liu Kai He Bei-hai Li Xiao-min Zhao Guang-lei

2011, 39(1):  74-78.  doi:10.3969/j.issn.1000-565X.2011.01.014

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In order to remove anionic trash in whitewater effectively to improve the recycling of paper-making whitewater. In this paper, chitosan microsphere was prepared, and modified with glutaraldehyde, then the adsorption of chitosan microsphere and its modifier for poly-galacturonic acid were studied. The results showed that the cross-linking of chitosan microsphere and glutaraldehyde followed the pseudo-second-order equation and Freundlich equation. As the pH of poly-galacturonic acid solution increased, the adsorption quantity of chitosan microsphere and its modifier for poly-galacturonic acid gradually decreased first and then increased, but at the same pH, the adsorption quantity of modified chitosan microsphere for poly-galacturonic acid was larger than that of chitosan microsphere. In addition, with the gradual increase in concentration of sodium chloride, the adsorption quantity of chitosan microsphere and its modifier for poly-galacturonic acid rapidly decreased, but at the same concentration of sodium chloride, the adsorption quantity of modified chitosan microsphere for poly-galacturonic acid was slightly larger than that of chitosan microsphere.

 Advanced Treatment of Bleaching Effluents by Means of UV/Fenton Oxidation

Wang Zhao-jiang Li Jun Wang Qiang Chen Ke-fu

2011, 39(1):  79-83,99.  doi:10.3969/j.issn.1000-565X.2011.01.015

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UV/Fenton oxidation technology was adopted to eliminate the residual pollutants and promote the biodegradability of the coagulation-anaerobic pretreated bleaching effluents,and the response surface methodology was used to optimize the operation conditions.Then,the GC/MS was employed to investigate the degradation process of organic pollutants in the bleaching effluents.The results show that,in the optimal operation conditions,namely,a pH value of 3.8,a H2O2 concentration of 30 mmol/L,a H2O2 /Fe（Ⅱ） molar ratio of 60∶ 7 and a reaction duration of 120 min,the COD removal reaches the maximum 88.2%.Moreover,it is indicated that,with the help of the hydroxyl radicals generated from Fenton reagent,aromatics,polycyclic aromatic hydrocarbons and organic chlorides with high toxicity in the effluents all degrade into organic acids with low molecular mass,and that UV/Fenton treatment greatly weakens the biological inhibition and improves the biodegradability index of the effluents.

Influence of Burnishing on Fretting Wear Behaviors of Aluminum Alloy 6061

Xia Wei Li Feng-lei Tang Zheng-qiang Zhou Zhao-yao Zhao Jing

2011, 39(1):  84-89.  doi:10.3969/j.issn.1000-565X.2011.01.016

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Based on the Box-Behnken combination design,a force-constant burnishing tool was used to burnish AL 6061 specimens,followed with fretting experiments on a SRV IV test machine.During the burnishing,the cutting feed,the burnishing force and the number of passes were selected as the independent variables,and the fretting wear volumes of AL 6061 under lubricated and dry conditions at 100 ℃ after the burnishing were used as the responses.A formula calculating the fretting wear volume of non-planar specimen was deduced,and the fretting friction coefficient,the initial surface roughness and the surface morphology of wear scars were analyzed.The results indicate that,under dry conditions,the burnishing has no obvious influence on the fretting wear behaviors of AL 6061,and that,under lubricated conditions,the average fretting wear volume of the burnished surface decreases by 21.5%,as compared with that of the un-burnished surface.Moreover,it is found that,in the optimal burnishing conditions,that is,burnishing at a cutting feed of 0.10 mm/r and a burnishing force of 60 N with one pass,the fretting wear volume reaches the minimum,which is only 46.2% of the average fretting wear volume of the un-burnished surface.

Evaluation Model of Residual Stress Field of Pre-Stretched Aluminum Alloy Plate

Wu Yun-xin Gong Hai Liao Kai

2011, 39(1):  90-94.  doi:10.3969/j.issn.1000-565X.2011.01.017

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In order to easily measure,predict and further control the internal residual stress of thick aluminum alloy plates,first,the internal residual stress of thick 7075 aluminum alloy plate was measured by crack compliance method based on 3-factor 3-level orthogonal experiments.Next,the distribution law of the residual stress was summarized,and a shape function describing the stress distribution was established according to the distribution characteristics of the stress.Then,the relationship between the stress at key points and the residual stress of the plate surface was revealed via the nonlinear regression,and a model to evaluate the residual stress field of the pre-stretched plate was put forward.The model was applied to the evaluation of residual stress of a certain Al alloy plate,with its feasibility being verified at last.

Temperature Simulation and Experimental Investigation of Electric Hot Minipore Drilling

2011, 39(1):  95-99.  doi:10.3969/j.issn.1000-565X.2011.01.018

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In this paper,a finite element model of drilling temperature was established based on the unsteady-state heat-conduction temperature field,and the temperature field distributions of both the chip and the workpiece were obtained by dynamically simulating the average temperature of the drilling area.Then,some single-factor experiments were carried out to reveal the effects of cutting speed,feed and drill bit diameter on the drilling temperature,and the average temperature of the drilling area was measured using a K-type thermocouple.The simulated temperature accords with the experimental one,which verifies the proposed finite element model.In addition,according to the fitting results of drilling temperature of stainless steel 1Crl8Ni9Ti obtained by orthogonal experiments,an empi-rical formula is deduced,from which it is found that the above-mentioned factors affect the drilling temperature in order of cutting speedfeed drill pit diameter.

SPH Modelling and Validation for Filling Process of HPDC

2011, 39(1):  100-105.  doi:10.3969/j.issn.1000-565X.2011.01.019

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The numerical method based on Eulerian description is difficult to solve the free surface flow in filling process of high pressure die casting(HPDC). In order to improve the accuracy of free surface’s numerical simulation, a smoothed particle hydrodynamics(SPH) program with pure largrangian description was established in this paper for HPDC filling process’s calculation. Monaghan boundary type was introduced to modelling the solid wall boundary condition of mold cavity. Inlet boundary condition was implemented by dividing inlet region particles and flow region particles. The validation model given by M.Schmid was calculated by this SPH program, and the simulation results were compared with both experimental and FDM simulation results. The SPH results were better able to describe the distribution of free surface during the filling process, further more the voids formed in filling process could be captured precisely in respect of location and dimension.

Effect of Micro-Dimple Shapes on Tribological Properties of Specimen Surfaces

Yu Hai-wu Yuan Si-huan Sun Zao Wang Xiao-lei

2011, 39(1):  106-110,123.  doi:10.3969/j.issn.1000-565X.2011.01.020

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In order to study the effects of dimple shape on the tribological behavior of sliding surfaces, the geometric shapes of circular, square and elliptic was selected in this study and investigated by reciprocating frictional experiments. The results indicate that each geometric shape possess a optimum area ratio which can obtain minimum friction coefficient under the condition of fixed dimple area and dimple depth; of all optimum area ratio of each geometric shape, elliptic shows the best result of friction reduction. Compared with the untextured surface, the friction coefficient of elliptic dimple decreased by 26.3% when the test load is 200 N and the rotational speed is 400 r/min. With the load increased, however, the friction reduction weakened significantly, this shows that it is difficult to reduce friction using surface texture under the high test load.

Oil Film Characteristics and Power Consumption of Slipper Pair Under Redundant Pressing Force

Sun Yi Jiang Ji-hai Liu Cheng-qiang

2011, 39(1):  111-116.  doi:10.3969/j.issn.1000-565X.2011.01.021

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In the consideration of the supporting force of wedge due to the high-speed rotation of the slipper,a model describing the oil film under the slipper of the piston pump in the presence of redundant pressing force is crea-ted by solving high-degree differential equations.Then,the dynamic characteristics of the oil film under above-mentioned conditions are described through Matlab programming.Moreover,the relationship between the oil film thickness and the load as well as the rotating speed is discussed,and the power losses of the slipper respectively due to the variations of load and rotating speed are analyzed and compared.The results indicate that the rotating speed affects the power loss more greatly than the load because the increase in rotating speed may result in the increase of not only the shear flow loss but also the pressure difference loss.
{Date}: 2011-04-18

Research on Dynamic Load Sharing Behavior in NGW Planetary Gear Train with Unequal Modulus and Pressure Angles

Ye Fu-min Zhu Ru-peng Bao He-yun Jin Guang-hu

2011, 39(1):  117-123.  doi:10.3969/j.issn.1000-565X.2011.01.022

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An analytical model for NGW planetary gear train with unequal modulus and pressure angles was presented in the dynamic way. In consideration of the eccentric error and tooth-frequency error of parts, the dynamic equation of each planet was found by using the theory of equivalent mesh error and the principle of dynamic equilibrium. After equation being solved, the load sharing characteristics was compared with the normal gear transmission. The load sharing behaviors were analyzed and compared by the values of the sun and the ring pressure angles, the difference of the gear error. The analysis results indicates that planetary gear train which is designed by the suitable pressure angles can improve the load sharing behavior, the floating sun-gear can make it better too, and the rotating speed influences the load sharing greatly, a better load sharing effect can be achieved for theirs unequal modulus and pressure angles under the same rotating speed.

 Partner Selection of Virtual Enterprises in View of Multi-Attribute Group Decision-Making

Zhang Min Xiao Ren-bin

2011, 39(1):  124-128.  doi:10.3969/j.issn.1000-565X.2011.01.023

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As the partner selection is crucial to the establishment of virtual enterprises,a multi-attribute group decision-making model is proposed based on the thought of similarity to ideal solution（TOPSIS）,which takes the attribute values as the interval number.In this model,according to the individual weight of each decision maker for each attribute,the closeness of each candidate enterprise to the individual ideal point of each decision maker is obtained.Then,according to the authorities of all decision makers,the closeness of each candidate to the group ideal point is computed,by which a right order of candidate enterprises can be acquired.The rationality and feasibility of the proposed method is verified by a numerical example in the end.

Characteristics Simulation of Five Kinds of Stiffness of Tire Based on Three-Dimension Nonlinear Model

Zang Meng-yan Xu Yu-wen Zhou Tao

2011, 39(1):  129-133.  doi:10.3969/j.issn.1000-565X.2011.01.024

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Proposed in this paper is a three-dimension（3D） finite element model of 175/65R14 tire,in which the tread pattern is ignored and the Rebar element model is used to simulate the composite cord-rubber materials.Then,by taking into consideration the nonlinearities in the aspects of rubber,geometry and contact,the deformations of the tire under radial load,lateral load,longitudinal load and torsion torque are respectively analyzed with the finite element software ABAQUS,and the characteristics of five kinds of stiffness of the tire are simulated.The results indicate that the simulated characteristics of radial,lateral,longitudinal and coating stiffness accord well with the experimental ones,and that the simulated characteristic of torsional stiffness and the experimental one are of the similar tendency though the former is less than the latter.It is thus concluded that the proposed simulation model is effective.

 Fitted Wave-Based Comparison and Calculation of  Chest Deceleration Due to Frontal Impact

Tian Sheng Huang Xiang-dong Yang Man Chen Jin-hua

2011, 39(1):  134-140.  doi:10.3969/j.issn.1000-565X.2011.01.025

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In the safety design of vehicle structure and occupant restraint system upon frontal impact, the complicated deceleration should be fitted into a simplified wave. In this paper, three simplified waves including equivalent square wave （ESW）, tipped equivalent square wave （TESW） and equivalent double-trapezoid wave （EDTW） are investigated, finding out that the velocity and displacement curves integrated from EDTW accord well with the actu- al ones, and that the chest deceleration peak based on TESW is most close to the actual one. Moreover, a scheme of designing the objective vehicle using the wrap around line of EDTW and the average of TESW is presented. With this scheme, both the vehicle structure based on EDTW and the occupant restraint system based on TESW are designed. It is found that the simplified fitted waves TESW and EDTW can be well applied to the primary safety design of objective vehicle upon frontal impact to satisfy the demand of chest decelarntion

Study on the Control Strategy of Vehicular DYC via SOSM

Wang Wei-da Zhang Wei Ding Neng-gen Li Hong-cai

2011, 39(1):  141-146,151.  doi:10.3969/j.issn.1000-565X.2011.01.026

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Direct Yaw-moment Control(DYC), by distributing braking forces or driving forces on wheels, generates the additional yaw-moment needed in maintaining vehicles’ driving stability, so as to improve driving stability under extreme conditions. In this paper, DYC control adopts the frequently-used Hierarchical Structure. The upper controller determines the additional yaw-moment needed in maintaining vehicles’ driving stability according to the difference between the actual yaw rate and the desired yaw rate, while the lower controller realizes the yaw-moment by controlling the wheel slip ratio. A Second Order Sliding Mode(SOSM) controller, which is designed based on the sliding mode control theory, is used as an upper controller. The input of the SOSM controller is the additional yaw-moment. The additional yaw-moment is realized by braking some of the wheels and the wheel slip ratio is regulated by the lower controller. Based the simulation environment of MATLAB/Simulink and ve-DYNA, the Hardware-In-Loop and Driver-In-Loop test platform is built, on which the DYC control strategy is evaluated. The result shows that this control algorithm can farther improve the driving stability of vehicles under extreme conditions and significantly enhance the vehicle’s active safety performance.

Intelligent Control Strategy of EGR Temperature for Diesel Engine

Wang Xi-hui Huang Zheng-zhan Zhao Rong-chao Huang Xu-wei Liu Xuan

2011, 39(1):  147-151.  doi:10.3969/j.issn.1000-565X.2011.01.027

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In this paper,first,a neural network model describing the exhaust temperature of a diesel engine sample is established based on the improved BP neural network algorithm.Next,some data of engine speed,engine power,fuel consumption and exhaust temperature are obtained from beach tests,which are then used to train the established model.Finally,an error analysis is performed to verify the model.The results indicate that the established neural network model well describes the variation of exhaust temperature,and that the errors of the identification results,which are all less than 1%,meet the requirements of calculation.In addition,the intelligent temperature control of exhaust gas recirculation（EGR） is realized by combining the BP neural network model with the fuzzy inference.

Analysis of Combustion Parameters of LPG Engine Based on Quasi-Dimensional Two-Zone Combustion Model

Lu Guo-xiang Li Li-fu

2011, 39(1):  152-156.  doi:10.3969/j.issn.1000-565X.2011.01.028

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In order to improve the dynamic performances of liquefied petroleum gas（LPG） engine and reveal the relationship between the thermal energy and the chemical energy as well as the mechanical energy during combustion,the quasi-dimensional two-zone combustion mechanism is analyzed,with a certain LPG engine as the research objective.Then,a quasi-dimensional two-zone combustion model is put forward,and the curves of crank angle versus cylinder pressure and burnt mixture temperature are obtained by simulation.Finally,the curves are compared with the experimental ones,and the error is found to be only less than 5%.Thus,it is concluded that the proposed combustion model well describes the variations of cylinder pressure and burnt mixture temperature of LPG engine with crank angle.