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Understanding Fluid Power Systems - Applications & Principles

Fluids are shapeless substances that can transmit power when pressurized. Learn about hydraulic and pneumatic systems, Pascal's Law, and how pistons create mechanical advantage. Explore fluid power applications in various industries.

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Understanding Fluid Power Systems - Applications & Principles

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  1. Previous End Show

  2. Fluids are continuous, shapeless substances whose molecules move freely past one another and have the tendency to assume the shape of its container; Liquids or Gasses

  3. By itself, fluid has no power, but when confined and placed under pressure, Fluid can transmit power that can be stored, directed and made to do work.

  4. Fluid Power Systems • Amplify Power • Transmit Power • Control Power Fluid power is pressurized liquid or gas in a closed system.

  5. Fluid power can be hydraulic or pneumatic. Hydraulics use pressurized oil or other liquids. Pneumatics use pressurized air or other gasses.

  6. Blair Pascal was a scientist who lived in the mid 1600’s. He described how liquids behave. He built a container like this to show that water pressure depends on the depth of the water, not the size or shape of the container. A B You might think that there is more pressure under side B, because there is more water, but if it had more pressure, it would push side A up. Pascal Law states that pressure at any point in a body of fluid is the same in every direction, exerting equal force on equal areas. Now if you apply more pressure to one side of the container, the fluid will rise on the other side.

  7. Read “The Basic Idea” from How Stuff Works. Push on the red arrows to see how a simple hydraulic system works and how we can obtain a mechanical advantage by changing the size of the pistons. science.howstuffworks.com/transport/engines-equipment/hydraulic.htm

  8. Large movement in the smaller piston requires less effort, but causes the large piston to produce a great amount of force. The force is measured in pounds per square inch. (psi)

  9. A piston is a solid cylinder or disk that fits snugly into a larger cylinder and moves under fluid pressure, as in a reciprocating engine, or displaces or compresses fluids, as in pumps and compressors.

  10. Fluid Power Applications

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