What are two ways that the swash plate angle affects the performance of an in-line axial piston motor?

The swash plate angle in an in-line axial piston motor plays a critical role in determining how the motor performs in terms of speed and torque. When the swash plate angle is adjusted, it directly influences the displacement of the motor, which in turn affects the speed at which the motor operates. A greater swash plate angle results in a higher volume of fluid being displaced with each revolution of the pistons, leading to increased speed.

At the same time, the angle also affects the torque output. A larger swash plate angle increases the effective force acting on the pistons, which enhances the torque that the motor can produce. Thus, by altering the angle of the swash plate, operators can finely tune the balance between speed and torque according to the application requirements.

This understanding highlights the significance of swash plate angle adjustments in optimizing the performance characteristics of axial piston motors in various hydraulic systems.