1. Calculation Conditions ( 计算条件) Contact angle(接触角度): 10o Frame Size(防冲板尺寸 宽 x 长 x 厚) : 2000B x 2000L x 180H
2. Calculation of Sectional Force (局部力的计算方式) Among sectional forces, Bend Moment M becomes maximum just before a vessel contact to the board (M max). Thus M max and S max ( maximum sectional force) under M max could be calculated shown below (在局部力之中,就在船只接触护板同时弯曲矩 M 变成最大 (M最大)。因此在M最大 下的M最大 和 S最大 (最大局部力)应按以下方式计算 2.1 Maximum Bend Moment ( M max) 最大弯曲矩 (M最大) Provided a vessel contacts a board at angle of 10 degrees horizontally, the board is considered to be a beam regarding a rubber parts as a spring and a chain attachment position as a fulcrum. Thus, bend moment could be calculated. (假设船只以10度角接触护板,而护板可认作是一个横梁, 橡胶部分认作是弹簧,链条部分的位置作为支点,则弯曲矩可如下计算)
LOAD R 2 from vessel Compression amount of rubber δ (来自船只的加载R2) (橡胶的压缩量)
Vessel board (船只) (护板)
Load F from rubber Load R1 from chain (来自橡胶的加载) (来自链条的加载)
Chain (链条)
Picture 1. Calculation Model for Bend Moment (图1:弯曲矩的计算模型)
Max bend moment (M max) could be calculated by the following process because it generates just before a vessel contact the board. 因为只有当船只接触护板时才可产生最大弯曲矩 (M最大),所以它可以按下列程序计算
That is, Load F = 754kN (就是说橡胶的加载F = 754kN) Accordingly, by putting L = (1000+1000) = 2000mm L1 = 1000mm; L2= 1000mm 据此, L = (1000+1000) = 2000mm L1 = 1000mm; L2= 1000mm
M max = 754 x 1000 x 1000 x 1000/2000 = 4.11 x 108N·mm 2.2 Maximum Shearing Power ( S max) (最大剪切力)
It generates in a chain attachment position, and the power becomes equal to the load which acts on a chain exactly. That is, Smax = 377kN (它产生于链条附件位置,该剪切力等同于作用于链条上的加载)
3. Stress Examination (应力测定) 3.1 Cross-sectional form for M max is as follows: (M最大 的横截面形式如下:) At first, the cross-sectional second moment of this section and the cross-sectional coefficient Z are calculated. (首先计算本部分的横截面的第二力矩和横截面系数Z) Cross-sectional second moment I = 4.11 x 108 (横截面的第二力矩) Cross-sectional coefficient Z = 3.6 x 106 (横截面系数Z) Thus, bending stress σ= M max/Z = 4.11 x 108/3.6 x 106 (因此弯曲应力) = 114N/mm2 < SS400 acceptable stressσa = 140N/mm2 Therefore, it can be said enough safe. (因此可以说是足够的安全)
Picture 2. Cross-sectional form of the perpendicular direction (图2:垂直方向的横截面形式) 3.2 Cross-sectional stressЧ for S max can be considered to be taken by wave and calculated as follows: (针对S最大横截面应力可认为从波状运动中获取并计算如下)
Cross-sectional stress Ч = S max/Aw 横截面应力 Aw: cross section area of wave ( = 11200mm2) (Aw:波状运动的横截面区域 Ч = 377 x 1000/11200 = 33.66N·mm2 < SS 400 acceptable stressσa = 80N/mm2 Therefore, it can be said enough safe. (因此可以说是足够的安全)
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