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UIC519_等效錐度全譯文
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  • UIC519_等效錐度全譯文1-Purpose 目的

    The wheel-rail interface is fundamental to explain the dynamic running behavior of a railway vehicle. It must therefore be understood and among the parameters by which it is characterized, the one called “equivalent conicity ” plays an essential role since it allows optimal appreciation of wheel-rail contact on tangent track and on large-radius curves.
    輪軌接觸是解釋鐵道車輛動(dòng)力學(xué)特性的基礎(chǔ),因此必須理解,而且在其特征參數(shù)中,等效錐度是本質(zhì)的,可以理想地評(píng)估直線和大半進(jìn)曲線上的輪軌接觸。
    As the term equivalent conicity is used in a number of standard documents, including UIC leaflets, ISO standards and European standards, there needs to be an unambiguous way of determining it.
    在不少標(biāo)準(zhǔn)文檔,包括UIC標(biāo)準(zhǔn),ISO標(biāo)準(zhǔn)以及歐洲標(biāo)準(zhǔn),都用到了名詞等效錐度,因此明確地定義它。
    The purpose of this leaflet is to propose a method for determining equivalent conicity which can be applied in the context of standards documents.
    本標(biāo)準(zhǔn)的目的在于推薦一種確定等效錐度的方法,并可用于標(biāo)準(zhǔn)文檔。
    This leaflet does not define limits for the equivalent coniciity and gives no tolerance for the shape of the railhead and the wheel profile to obtain acceptable results with the conicity.
    本標(biāo)準(zhǔn)沒有規(guī)定等效錐度的限度,

    2-Symbols, principles and definition符號(hào),原理和定義
    2.1-Symbols 符號(hào)

    х displacement of wheelset in the longitudinal of the track
    輪對(duì)在鋼軌上的縱向位移
    y displacement of wheelset in the lateral direction of the track
    輪對(duì)在鋼軌上的橫向位移
    ψ angle of movement in the x-y-plane
    x-y平面上的運(yùn)動(dòng)角
    e distance between contact points (approximately 1500 mm for standard gauge)
    接觸點(diǎn)跨距(標(biāo)準(zhǔn)軌距約1.5m)
    λ wave length
    波長(zhǎng)
    r0 radius of wheels when the wheelset is centred on the track
    輪對(duì)位于軌道中心車輪半徑
    r1 rolling radius of right-hand wheel
    右側(cè)車輪滾動(dòng)半徑
    r2 rolling radius of left-hand wheel
    左側(cè)車輪滾動(dòng)半徑
    r mean rolling radius of both wheels
    車輪名義滾動(dòng)半徑
    Δr difference of rolling-radii between right-hand and left-hand wheels
    右側(cè)和左側(cè)車輪滾動(dòng)半徑差
    R local radius of wheel path
    車輪路徑的局部半徑
    ds curve length of path corresponding to angle dψ
    dψ角對(duì)應(yīng)的曲線長(zhǎng)
    tan γe equivalent conicity
    等效錐度
    tan γa inclination of wheel and rail profiles in contact point
    接觸點(diǎn)位置車輛和鋼軌外形的傾角
    ŷ amplitude of wave
    波幅
    yem y-displacement, where Δr = 0
    y-位移,Δr = 0時(shí)
    yemin, yemax corresponding ymin and ymax displacements for a certain wave
    波形對(duì)應(yīng)的ymin和ymax位移
    v speed of forward movement of vehicle
    車輛前進(jìn)速度
    2.2-Principles and definition 原理和定義
    The kinematic movement of a free wheelset, which no inertia, running on a track, is described by the following differential equation:
    軌道上自由輪對(duì)的運(yùn)動(dòng)以下面微分方程描述:


    Without limiting the conclusions concerning calculation of the equivalent conicity, the speed of forward movement V of the vehicle can be assumed to be constant for the purposes of this study, such that

    為了研究起見車輛前進(jìn)速度假設(shè)為常數(shù),不會(huì)限制涉及等效錐度計(jì)算的結(jié)論,于是


    Hence:
    因此:
    以及

    The differential equation becomes:
    微分方程變?yōu)椋?br />

    In the case of a wheelset whose wheels have a conical profile of angle γ:
    若輪對(duì)的車輪外形為γ角的錐形:

    The differential equation then becomes:
    于是微分防程改寫為:

    a second-order differential equation with constant coefficients whose solution is a sinewave with a wavelength of λ:
    常系數(shù)二階微分方程的解是波長(zhǎng)λ的正弦波:


    When the wheels do not have a conical profile, linearisation methods can be used so that the linear differential equation can still be applied by replacing tanγ with tanγe , which is called the “equivalent conicity”.
    如果車輪外形不是錐形,可以采用線性化方法,在微分方程中以tanγe取代tanγ進(jìn)行線性化,tanγe稱作等效錐度。
    By definition, the equivalent conicity is equal to the tangent tan γe.of the cone angle of a wheelset with coned wheels whose lateral movement has the same kinematic wavelength as the given wheelset (but only on tangent track and on large-radius curves).
    等效錐度定義為與給定輪對(duì)橫向運(yùn)動(dòng)波長(zhǎng)相同的錐形車輪輪對(duì)的車輪的錐度角正切。
    3-Method of determination 定義方法
    3.1-General principles 基本原理
    The following assumptions are used:
    - both the wheel and the rail are considered rigid,
    -a theoretical wheel is symmetrical in revolution,
    -a theoretical rail is straight and is represented by a single profile,
    -a real rail is defined by at least 11 profiles regularly spaded apart over a 100m section of line; the conicity is obtained by taking the average of these individual coniciyies, the standard deviation of which should also be indicated,
    -the wheel does not penetrate into the rail: only point contacts are considered,
    -no account is taken of an axle’s roll (rotation about an axis longitudinal to the track) as the wheelset moves laterally on the track,
    -at the point of contact, the planes tangent to the rail and to the wheel are parallel.

    假設(shè)如下:
    -車輪和鋼軌都是剛性的;
    -理論上車輪旋轉(zhuǎn)時(shí)對(duì)稱的;
    -理論上鋼軌是直且可以用單一外形表示;
    -實(shí)際鋼軌要在100m以上的線路上至少用11個(gè)固定分布的外形來定義,錐度取這些錐度的平均值,標(biāo)準(zhǔn)差應(yīng)說明;
    -車輪不能侵入鋼軌:只考慮一點(diǎn)接觸;
    -當(dāng)輪對(duì)在軌道上橫移時(shí),不考慮軸的側(cè)滾(繞著與軌道一致的縱向軸)
    -在接觸點(diǎn),鋼軌與車輪的切平面互相平行

    NB: a real wheel can be defined using an average profile determined by taking the average of 4sections of the wheel locater 90degree apart.
    注:實(shí)際車輪取車輪90o分布的四個(gè)斷面外形的平均。...
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