The Science And History of Hydraulics And Its Application In The Automotive Industry
If you're looking for the connection between a water pistol and a large crane that you see in a pier, then you might have a hard time looking for it. You can't see it at face value because the two things are opposite in the way they look and the scale they're involved.
However, if you're a bit of a fan of science, you know that deep down, the two simple examples have a deeper connection in the way they operate. The simple process that connects a water pistol and a crane is the process of hydraulics.
There are many different application and examples of the hydraulics technology in the world today. The incompressibility of fluids is responsible for how rivers and and ocean currents flow. The word hydraulics came from the Greek names for water and pipe- hydro and aulos, respectively.
What Is Hydraulics?
It's hard to squash a solid material; in fact, it may be impossible. Gases are the opposite because you can squeeze them in, just like you would squeeze a balloon. But what about liquids? Liquids are incompressible, too, which makes them just like solids in that they can't just expand or compress with a little pressure. In fact, the rivers are just as dangerous to jump into as concrete floors because of the incompressibility of the liquids. So how does water get transferred or moved? It's running with the help of hydraulics.
Hydraulics is the mechanism that lets you move fluid from one place to another with the application of the right amount of force. The key to understanding it is the fact that fluids are usually incompressible. It's instrumental that you can't compress water because otherwise, you'd squeeze in the water molecules when you apply pressure to it and you won't be able to move the water in the direction that you want it to transfer.
To simplify things, the process of moving water in water pistols is behind the science of hydraulics. In short, the process of hydraulics is just the simple process you see in a water gun. The more pressure you apply to the water, the faster and the greater the force of the water's movement.
The principle behind hydraulics is called Pascal's law. This law indicates that you should apply a consistent amount of pressure to the water so that it moves in the direction you want it to run.
In Our Equipment: Sega Car Repair Tools And Hydraulics
You can witness the process of hydraulics in different machines and factories today, which include engine-driven pumps and hydraulic rams that can push on large amounts of fluid. You can also observe the process of hydraulics in the car repair tools such as car lifts that you can find in garages and auto shops.
How Hydraulic Power Was Harnessed
History shows that the origins of how hydraulics got developed started in Mesopotamia and ancient Egypt when they wanted to build an irrigation system for various communities. The system of hydraulics was also invented to provide solutions to the creation of aqueducts, water streams, and hydraulic mining lines.
Today, hydraulics is the core of many car repair tools in the industry. Without the process of hydraulics, we wouldn't be able to create an efficient system of repairing cars and other operations in the automotive repair industry.
Without the fluid mechanics that form the theoretical foundation of hydraulics, our Sega car repair tools wouldn't be able to reach that high level of efficiency that it has right now. Pressurized liquids are an important instrument in the automotive repair industry, and most of the improvements today in restoring cars in various garages wouldn't have been possible without the science behind hydraulics.