# Shaft with one spline

## Values for calculation

$T$ $\mathrm{Nm}$
$r$ $\mathrm{mm}$
$a$ $\mathrm{mm}$
$b$ $\mathrm{mm}$
$L$ $\mathrm{mm}$
$G$ $\mathrm{MPa}$

## Calculation

### Coefficient $C_1$

$$C_1=0.7854$$

### Coefficient $C_2$

$$C_2=0.0264-0.1187\cdot\cfrac{a}{b}+0.0868\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $C_3$

$$C_3=-0.2017+0.9019\cdot\cfrac{a}{b}-0.4947\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $C_4$

$$C_4=0.2911-1.4875\cdot\cfrac{a}{b}+2.0651\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $C$

$$C=C_1+C_2\cdot\cfrac{b}{r}+C_3\cdot\left(\cfrac{b}{r}\right)^2+C_4\cdot\left(\cfrac{b}{r}\right)^3$$

### Coefficient $B_1$

$$B_1=0.6366$$

### Coefficient $B_2$

$$B_2=-0.0023+0.0168\cdot\cfrac{a}{b}+0.0093\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $B_3$

$$B_3=0.052+0.0225\cdot\cfrac{a}{b}-0.33\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $B_4$

$$B_4=0.0984-0.4936\cdot\cfrac{a}{b}+0.2179\cdot\left(\cfrac{a}{b}\right)^2$$

### Coefficient $B$

$$B=B_1+B_2\cdot\cfrac{b}{r}+B_3\cdot\left(\cfrac{b}{r}\right)^2+B_4\cdot\left(\cfrac{b}{r}\right)^3$$

### Polar moment of inertia

$$K=2\cdot C\cdot r^4$$

### Angle of twist

$$θ=\cfrac{T\cdot 10^3\cdot L}{K\cdot G}$$

### Torsion stress at $M$

$$τ_{max-at-M}=\cfrac{10^3\cdot T\cdot B}{r^3}$$

## Requirements

$$0 \le\cfrac{b}{r} \le 0.5$$$$0.2 \le\cfrac{a}{b} \le 1.4$$