在此基础上,对静载荷作用下齿轮啮合对的接触应力进行有限元分析,与传统的齿轮强度计算办法作比较。
On this basis, the static load the contact stress of gear engagement fe analysis, and traditional gear strength calculation method to compare.
考虑系统误差和轮齿综合柔度,对齿轮弯曲强度的计算力点进行研究。
Considering the system errors of gear drive and teeth synthetic flexibility, the loading point of bending strength was studied.
利用现有齿根弯曲疲劳极限应力数据及其它齿轮资料,提出了稳定工况下齿轮齿根弯曲强度可靠度计算方法。
Using present bending fatigue limit data of gear tooth and other materials of gears, the calculating method of re liability is proposed for bending strength of gear tooth st steady condition.
通过对非对称渐开线圆柱直齿轮齿根弯曲应力的分析,结合接触强度的计算公式,建立了系统的数学模型。
Having analyzed the dedenda's bending stress of involute gears with asymmetric teeth, and the formula of contract strength, mathematic model of the system is built.
前已述之,对于齿轮的轮圈、轮辐、轮毂等部位的尺寸,通常仅作结构设计,不进行强度计算。
Before the reference of the gear wheels, spokes, wheels and other parts of the size, usually only for the structural design, strength calculation is not carried out.
利用此公式计算齿面接触疲劳强度可使船用齿轮的设计更合理,更安全。
The designing according to the amendatory formulas will make the Marine gearing of ship become more reasonable and safer.
计算结果表明,准端面圆弧齿轮基本上是沿齿高方向等强度分布,优于法面圆弧齿轮。
Computing result indicates that quasi transverse circular arc gear is basically equal on strength distributing along tooth depth direction and it is superior to normal plane circular arc gear.
文章介绍了船舶主机齿轮箱在安装过程中,如何保证轴系校中要求和齿轮箱环氧树脂垫浇注工艺以及垫片及螺栓强度计算,可供同行借鉴。
This article introduces the requirements of aligning to the installation of gear case and construction process, calculating for sheets of epoxy resin chock for gear case on board.
基于有限单元法分析了螺旋锥齿轮强度和刚度相关问题的计算方法。
The strength and stiffness of spiral bevel gear are analyzed based on the finite element method.
评级建立在强度计算上。基本的静态强度等级、或用手操作的设备以上齿轮的3倍,大约是100每分钟转速的评价。
Ratings are based on strength calculation. Basic static strength rating, or for hand operation of above gears, is approximately 3 times the 100 RPM rating.
实例计算表明,“错齿”对提高双圆弧人字齿轮强度和降低噪声有影响。
Calculations show that, by applying interlocking teeth, the strength of the gear may be improved and the working noise may be reduced.
圆锥齿轮的设计包括:几何尺寸的计算,校核接触强度,齿根弯曲强度校核,齿轮各检验项目及公差值的计算。
Circular cone gear design include: geometry calculation accuracy contacts intensity tooth root bending intensity accuracy, plus the value of the test items and business computing.
减速器中齿轮通过齿面接触疲劳强度来计算,通过齿根弯曲疲劳强度验算;
The speed reducer gear tooth surface through contact fatigue strength to calculate, through the tooth root bending fatigue strength check;
本文通过八对圆弧齿线圆柱齿轮的运转接触疲劳试验,得到了45钢正火齿轮的接触疲劳极限应力框图,可供圆弧齿线圆柱齿轮传动的接触强度计算参考使用。
In this paper, contact endurance limit diagram of 45 normalizing gear is obtained from contact fatigue teste on 8 pairs of CATT gears. It is worthy reference for a calculation of gear design.
本文通过八对圆弧齿线圆柱齿轮的运转接触疲劳试验,得到了45钢正火齿轮的接触疲劳极限应力框图,可供圆弧齿线圆柱齿轮传动的接触强度计算参考使用。
In this paper, contact endurance limit diagram of 45 normalizing gear is obtained from contact fatigue teste on 8 pairs of CATT gears. It is worthy reference for a calculation of gear design.
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