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Volume 41,Issue 7,2018 Table of Contents

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    • 1  Calculation and analysis of planetary roller screw deputy freedom based on spatial screw theory
    ZHU Minglu CHEN Bingkui
    2018, 41(7):1-7. DOI: 10.11835/j.issn.1000-582X.2018.07.001
    [Abstract](966) [HTML](411) [PDF 706.25 K](1335)
    Abstract:
    The analysis of the planetary roller screw (PRS) mechanism is carried out based the theory of spatial screw. The kinematic sketch of PRS mechanism is established with consideration given to the characteristics of the spatial screw mechanism. The degree of freedom (DOF) of the PRS is calculated according to the modified G-K formula, and the effects of all the elements of the mechanism on its DOF are investigated theoretically. The DOF of the mechanism with different numbers of rollers and rings is calculated and analyzed. The comparative analysis of the DOF of the mechanism with single roller and ring shows that the increase of the number of rollers and rings has an effect on the kinematic characteristics of this mechanism. The theoretical analysis reveals the principles of the PRS kinematics to a certain extent.
    2  Effects of secondary air and valve timing on idle speed stability and power performance of motorcycle engine
    ZHANG Li LI Zucheng ZHANG Qing ZHOU Zhaoqiang LYU Xiaohui ZHONG Demei
    2018, 41(7):8-15. DOI: 10.11835/j.issn.1000-582X.2018.07.002
    [Abstract](972) [HTML](425) [PDF 795.75 K](1054)
    Abstract:
    In order to analyze the reason for the improvement of the idle stability for a motorcycle engine when equipped with a secondary air compensating device, a model for the original engine is set up by the method of numerical simulation. The validation results of this model reveal relatively high simulation accuracy, and a model for the secondary air engine is established based on the previous model. The influence of secondary air on idle stability analyzed by using those simulation models, and the research reveals the main cause of idle instability for the original engine is that the residual gas fraction is too high. Based on valve timing, this research aims at finding a way to reduce residual gas fraction with relatively low influence on power performance for the original engine. The results indicate that the residual gas fraction for the original engine drops to the level of secondary air engine by advancing exhaust valve timing and the torque maximum value falls no more than 2%.
    3  An automatic detection method for retinal exudation based on decision tree
    LONG Zourong WEI Biao LIU Ping FENG Peng KE Xin MI Deling
    2018, 41(7):16-22. DOI: 10.11835/j.issn.1000-582X.2018.07.003
    [Abstract](731) [HTML](833) [PDF 1.07 M](1308)
    Abstract:
    Automatic detection of retinal image exudation is helpful for early diagnosis of diabetic retinopathy. According to the decision tree theory, we propose a retinal intrusion detection method based on color fundus images and test it with Messidor database. It can help us to distinguish the diseased images and normal fundus images. The experimental results show that this method is better than the eye specialist's manual judgment in that it can detect exudation area more accurately in a changing enviroment of light by the integration of images.
    4  Bonding strength characteristic number:A new method to evaluate sinter strength
    CHEN Xiaomin WU Keng QIN Xuanke ZHAO Lupeng ZHAO Yong PAN Wen
    2018, 41(7):23-29,66. DOI: 10.11835/j.issn.1000-582X.2018.07.004
    [Abstract](642) [HTML](471) [PDF 3.53 M](927)
    Abstract:
    Sinter strength is mainly dependent on strength of iron-bearing minerals, bonding phase itself and bonding strength between bonding phase and iron-bearing minerals. Research indicates that the bonding strength between bonding phase and iron-bearing minerals is the major dependent factort of sinter strength. The ratio of bonding strength to sinter bonding strength meeting production requirements (12.58 MPa) is defined as bonding strength characteristic number to evaluate sinter strength. At the same time, the sinter strength is studied based on sinter microstructure. The results show that, compared with the microstructure of bonding phase itself, that of the interface between bonding phase and iron-bearing minerals is looser, on the other hand, due to the different cold contraction coefficient of solid and liquid phases, the internal stress is easily formed between bonding phase and iron-bearing minerals, which is not conducive to the improvement of bonding strength. Therefore, when bonding strength meets certain requirements, sinter strength can meet production requirements.
    5  Simplified heat capacity and thermal resistance (RC) dynamic model for planar phase change materials
    YAN Tian XU Xinhua GAO Jiajia
    2018, 41(7):30-36. DOI: 10.11835/j.issn.1000-582X.2018.07.005
    [Abstract](853) [HTML](675) [PDF 439.60 K](885)
    Abstract:
    A simplified dynamic heat transfer model with different heat capacity and thermal resistances (2R1C, 4R2C and 6R3C) of planar phase change materials is proposed. The RC parameters of the simplified model are identified by genetic algorithm (GA). The accuracy and applicability of different simplified models are analyzed. The results show that the identification parameters are less and the application is better for 4R2C model with good accuracy. Compared with the results of numerical model,the average difference of the surface temperature is less than 0.3℃, and the average relative difference of the heat flow through the left and right surfaces are respectively about 10% and 5%. The accuracy and applicability of the simplified dynamic model is reasonable under the different boundary conditions. The computational efficiency of the simplified model is much higher, for the computational time of the simplified model is less than 0.1% of that needed by the numerical model.
    6  Experimental study of early continuous tension influence on concrete properties
    ZHUANG Jinping ZHANG Sanpeng CAI Xuefeng QIU Hao
    2018, 41(7):37-47. DOI: 10.11835/j.issn.1000-582X.2018.07.006
    [Abstract](913) [HTML](558) [PDF 1.26 M](1099)
    Abstract:
    In order to study the influence of early continuous tension on the mechanical properties of concrete in the later period including concrete's axial compressive properties and cleavage strength, the tensile test of 7 series of concrete specimens which bear early continuous load is carried out, with three factors of the axial tension ratio, loaded time and concrete strength in consideration. Meanwhile, test device is designed that applied continuous tensile load on 6 prism specimens at the same time when the early age is 1.5 days. The tensile load is applied for some time then unloaded and at 28 days age the test of prism specimens' axial compressive strength is carried out. The results show that the ratio of axial tension and continuous time of load have some effects on concrete's axial compressive properties in later days. When loaded time of is 7 days, there is no obvious influence on concrete's axial compressive properties no matter what the ratio of axial tension is 0.15 or 0.3. However, when the ratio of axial tension is 0.5, prism specimens' damage is irreversible, with its initial elastic modulus, peak compressive strength decreasing and peak strain increasing. When loaded time is 14 days, the properties of the prism specimens whose axial tension ratio is 0.3 deteriorate. The lower the strength grade of concrete, the larger the early age continuous tension influence on elastic modulus, but the influences on peak stress and peak strain is relatively small. The least square method is used to get the influence coefficient, which bases on loaded time and loading conditions' effect on concrete's initial elastic modulus, peak stress and peak strain. Based on the stress-strain formula of ordinary concrete, the stress-strain formula of concrete that bear continuous loading at early ages are proposed.
    7  Corrosion behavior analysis of wire-steel in cables and its prediction under combined effect of cycling loading and eroded environment
    GUO Zengwei LI Longjing YAO Guowen
    2018, 41(7):48-57. DOI: 10.11835/j.issn.1000-582X.2018.07.007
    [Abstract](770) [HTML](606) [PDF 2.49 M](786)
    Abstract:
    In order to investigate and predict the corrosion behaviors of steel wires in stayed cables under cycling loading and eroded environments, several corrosion images of different corrosion degrees and their corresponding weight losses, nominal tensile strength as well as percentage elongation after fracture are obtained through salt spray accelerated test.The adaptability of HSV and RGB color patterns in characterizing the overall color and local edge contours of wire-steel corrosion images is discussed by using wavelet decomposition technique, and correlational analyses of mean values and percentages of L1 norms of corrosion image wavelet coefficients associated with weight losses are conducted.A regression model is suggested to predict the weight loss of wire-steels.It is found that local pitting corrosionon steel wires can be obviously observed under combined effect of cycling loading and eroded environment, and the nominal tensile strength and percentages elongation after fracture of steel-wires decrease with their weight loss increasing. Wavelet analysis results of steel-wire corrosion images show that the change of corrosion morphology mainly include the changes of its color saturation and brightness, saturation component in the HSV color mode can better describe the change of the overall color of the corroded image, and the blue component in the RGB color mode can better reflect the change of the local topography of the corroded image.There is a good linear correlation between the corrosion image of wire-steel in cables and its weight loss as well as nominal tensile strength, which can be used to predict the weight loss and nominal tensile strength of corrosion wire-steels.
    8  Coarse-tuning/fine-tuning adjustment theory of moveable magnetic-pillar reactor
    GUAN Ruiyang WEI Xinlao WANG Yonghong CHEN Qingguo
    2018, 41(7):58-66. DOI: 10.11835/j.issn.1000-582X.2018.07.008
    [Abstract](688) [HTML](790) [PDF 998.31 K](1099)
    Abstract:
    Coarse-tuning and fine-tuning adjustment of the power reactor's inductance is very important for the operation of power system. Thus, a theory is proposed that could achieve the coarse-tuning and fine-tuning adjustment of inductance by adjusting the distance between the two magnetic-pillars to change the working magnetic circuits and its reluctance so as toachieve a continuous adjustment of inductance. Combined with magnetic circuit of Ohm's law the calculating formula of inductance could be deduced; modeling reactor's 3D magnetic-field, magnetic flux density and inductances could be caculated by finite element method.And the feature of inductance's adjustment curve is analysed in detail. The results show that the position of moveable magnetic-pillar could change the working magnetic circuit, and the number of working magnetic circuits changes from one to three, then from three to two; the relationship between inductance and the distance of two magnetic-pillars is a double exponential function. When the distance between the two magnetic-pillars increases, the inductance decreases; the inductance's adjustment curve is composed of three areas:coarse-tuning area, transition area and fine-tuning area. The reactor based on this theory could achieve coarse-tuning/fine-tuning adjustment of inductance.
    9  Network immunization based on the node activities
    ZHANG Leyan GAO Shupeng ZHANG Zili GAO Chao
    2018, 41(7):67-72. DOI: 10.11835/j.issn.1000-582X.2018.07.009
    [Abstract](703) [HTML](327) [PDF 427.04 K](837)
    Abstract:
    Network immunization is an effective strategy for restraining the propagation process in complex networks. Although lots of strategies based on the topological structure of a network have achieved good immunization effects, they have the same homogeneous assumption, i.e., nodes have same characteristic. However, more and more existing studies have found the heterogeneous characteristics of nodes in a network. For example, nodes have different activity during the propagation process and a node with higher activity can promote the propagation process. Combining the network topology and the activity of node, this paper proposes a novel strategy for restraining virus propagation. Some experiments have been conducteded in benchmark and synthetic networks. The simulation results show that the proposed strategy can restrain propagation effectively.
    10  Research on path planning model of optimal fuel consumption based on routing nodes
    LIU lin LI Chunyuan CHEN Yanhu FENG Huizong HUA Xinze
    2018, 41(7):73-81. DOI: 10.11835/j.issn.1000-582X.2018.07.010
    [Abstract](804) [HTML](531) [PDF 1.92 M](1012)
    Abstract:
    Real-time response is essential for accurately getting path planning of optimal fuel consumption in rapidly changing traffic conditions. Based on the randomness and abruptness characteristics of traffic flow, this paper proposes an optimal fuel consumption path planning model in relation to routing nodes. Road impedance parameters routing tables of each node in transportation network are built and timely updated by sharing the traffic information from Internet of vehicle(IOV). Therefore, the path of optimal fuel consumption can be timely obtained by searching corresponding node's road impedance parameters routing table. In order to testify the fuel-saving effect of this proposed model, simulations are carried out in different traffic conditions to complete the same task and in the same traffic condition to complete different tasks respectively by altering traffic flow and destinations. The results show that the more congestion or the more transfer nodes, the better fuel-saving efficiency, so that economical and environment friendly travel can be realized.
    11  Interval-valued intuitionistic fuzzy trust model in network computing systems
    ZUO Jun
    2018, 41(7):82-92. DOI: 10.11835/j.issn.1000-582X.2018.07.011
    [Abstract](843) [HTML](574) [PDF 945.90 K](789)
    Abstract:
    With the development of network computer system, the credibility of the network system becomes the key restrictive factor in its development. For this situation, a kind of interval intuitionistic fuzzy trust model of network computer system is proposed. Firstly, semantic tags of trust evaluation are mapped to the interval intuitionistic fuzzy numbers, which then are quantified so that the model can comprehensively describe ambiguity and completeness of semantic tags. Secondly, i interval intuitionistic fuzzy numbers and exact function are used to calculate trust value. Finally, the model algorithm is simulated experimently The results show that the model can evaluate the trust of network effevtively and rationally, which has certain theoretical significance.
    12  Stability analysis of a wind turbine control system
    TAO Fen YANG Wei
    2018, 41(7):93-106. DOI: 10.11835/j.issn.1000-582X.2018.07.012
    [Abstract](697) [HTML](822) [PDF 2.92 M](867)
    Abstract:
    The stability of wind turbine is directly related to its overall performance, safety and lifetime, so it must be considered in the plant design. In our experiment, segmented linearization of the wind turbine is conducted by modulus linearization of GH Bladed software, on the basis of which a nonlinear simulation model of wind turbine control system is established in MATLAB/SIMULINK enviroment. Step response, root locus, Bode diagram and Nyquist curve are used in stability analysis of the open-loop controlsystem and closed-loop control system in disturbed and undisturbed enviroments. All analytical results show that the 2 MW control system is stable. It's necessary to analyze the stability for the control system of wind turbine, which can provide a theoretical basis for the design of wind turbine ralating to such issues as security, reliability and robustness.

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