Actually, maker claims to INCREASE reliability.
Unless you have a Class III firearm and will be firing on full auto, rate reduction is a non-issue. A big problem with piston driven ARs is carrier tilt, and you should probably seek out an anti-tilt carrier and buffer setup, first and foremost.
A hydraulic piston can be used to increase force by applying hydraulic pressure to the piston, which amplifies the force output. To decrease force, the hydraulic pressure can be released or adjusted to decrease the force exerted by the piston.
Yes, a hydraulic piston can be used to increase and decrease force by adjusting the hydraulic pressure applied to it. By controlling the flow rate of hydraulic fluid into the piston, the force output can be varied accordingly.
Mechanical pressure from the primary piston
In a hydraulic system, the pressure is the same throughout the system, so the pressure on the large piston is equal to the pressure on the small piston. This principle is known as Pascal's Law and is a key concept in understanding how hydraulic systems work.
There are many parts to hydraulic cylinders. The main parts are the barrel, the base, the head, the piston, the piston rod, and numerous seals. They operate using hydraulic fluid.
A hydraulic piston is also known as a servo or a motor.
In most other hydraulic systems, hydraulic cylinders and pistons are connected through valves to a pump supplying high-pressure oil.The brakes in your car are a good example of a basic piston-driven hydraulic system. When you depress the brake pedal in your car, it is pushing on the piston in the brake's master cylinder. Four slave pistons, one at each wheel, actuate to press the brake pads against the brake rotor to stop the car.
http://www.engineeringtoolbox.com/hydraulic-force-calculator-d_1369.html
A force is multiplied in a hydraulic system through the use of a larger surface area on the output piston than the input piston. When a smaller force is applied to the input piston, it creates pressure in the hydraulic fluid, which then exerts a larger force on the larger output piston, resulting in a multiplied force output.
The master piston is smaller than the slave piston in hydraulic systems to create a mechanical advantage. When the smaller master piston is pushed, it generates higher pressure in the hydraulic fluid, which is then transmitted to the larger slave piston. This difference in size allows a smaller force applied to the master piston to produce a larger force at the slave piston, enabling the system to amplify force effectively. This principle is fundamental in applications like hydraulic brakes and lifts.
The hydraulic brake piston may not be retracting properly due to air in the brake lines, a faulty caliper, or worn brake pads.