1、“.....轴承多用滚动轴承。当传动比较大时，行星轮直径较大，轴承可装于行星轮孔内，这样可以减小传动的轴向尺寸，并使装配结构简化。般轮壁厚度，为模数。当传动比较小时，行星轮直径较小，在行星轮孔内装轴承尺寸不够，可将轴承装在行星架上。整体双联齿轮截面急剧变化处有应力集中，应使。这种结构小齿轮不能磨齿，当其需要磨齿时，须设计成装配式，两行星轮位臵精度用定位销或从工艺上来保证。图行星轮的常用结构在行星轮孔内装两个轴承时，应尽量使轴承之间的距离增大，以改善轴承受力情况，并可使载荷沿齿宽分布均匀。在行星轮孔内装个双列调心滚子轴承，也可以减小载荷沿齿宽分布的不均匀性。当载荷较大时，可选用两个双列调心滚子轴承。在结构要求很紧凑时，滚针轴承与单列深沟球轴承受轴向载荷，且滚针轴承可以没有内外圈，此时，行星轮的孔壁和心轴的表面就是滚道，这样可使结构紧凑......”。

2、“.....确定许用应力·······································································根据扭转强度估算轴径·················减速器输入轴的设计··············································································································行星轮系减速器输入输出轴的设计·····························································......”。

3、“.....······························行星架的结构设计··································································································行星轮的结构设计··································································································太阳轮的结构设计················································································································太阳轮行星轮和行星架的结构设计·······················......”。

4、“.....···································································齿式联轴器的设计·······························································································弹性油膜浮动法············弹性件的均载机构···············································································杠杆联动均载机构·················基本构件浮动的均载机构···········································································采用···········......”。

5、“.....··················行星齿轮传动的均载机构的设计·························································算及校核·······················································行星齿轮接触疲劳强度计算及校核·········································名义载荷使用系数和动载系数····························································行星齿轮抗弯疲劳强度计··································行星齿轮传动强度计算及校核·································································......”。

6、“.....···················································行星齿轮传动的几何尺寸和啮合参数计算··················································································行星齿轮传动的几何尺寸和啮合参数计算····················································行星齿轮传动强度计算及校核····································································名义载荷使用系数和动载系数····························································行星齿轮抗弯疲劳强度计算及校核··········......”。

7、“.....·············································行星齿轮接触疲劳强度计算及校核·······················································行星齿轮传动的均载机构的设计·····································································基本构件浮动的均载机构···········································································采用弹性件的均载机构···············································································杠杆联动均载机构···················......”。

8、“.....···································································弹性油膜浮动法··························································································齿式联轴器的设计······················································································太阳轮行星轮和行星架的结构设计································································太阳轮的结构设计·······················································......”。

9、“.....确定许用......”。