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Sunday, 5 April 2015

How A Radiator Works?

Radiator

Working Of Car Radiator


Step by step guide on how an automotive radiator works, this information pertains to most cars.
Helpful Information
Radiators consist of a few basic parts, two tanks and the core. The radiator "tanks" located on the sides or top and bottom are used to attach upper and lower coolant hoses. Vehicles that have tow options will sometimes incorporate an engine oil cooler into the radiator to help keep the engine temperatures at a safe level. Radiators come with different amounts of these tubes or “rows” as they are called in the industry to support various applications. Old radiators are recycled cutting down on heavy metals and environmental impacts.
History
Through the years materials used in the construction of a radiator have changed dramatically. Older vehicles used a heavy brass construction, while newer vehicles use an aluminum core and plastic tanks. Brass radiators worked well for years, but material costs and the environmental impact of the materials used to solder them together (lead mixtures) have phased them out, newer lighter designs are clamped together with rubber gaskets. Radiators for performance applications are usually custom fabricated to the application and are made of aluminum tanks and cores to withstand the severe vibrations and heat.
Maintenance
Use a flashlight to look for leaks where the tanks attach to the core (center) of the radiator; this is a common place for failure. Radiator tanks have a tendency to crack or become brittle and break. Radiators as with all automotive replacement parts come in a vast array of quality levels. A cheaper radiator will consist of thinner plastic tanks and aluminum core which will fail prematurely. If a radiator is leaking or plugged and needs to be replaced, this can usually be performed with a minimum amount of tools. - Learn More

Step 1 - An automotive radiator is at the heart of a vehicles cooling system and keep an internal combustion engine from overheating avoiding catastrophic failure. Radiators are manufactured in all shapes and sizes, depending on the space constraints and requirements of the vehicle's design. A large vehicle such as a truck will have a multiple-row high capacity radiator while a small vehicle will have a much smaller radiator with less capacity.

Radiator
Step 2 - There are two different styles of radiators used in the automotive industry; cross or top flow. A top flow radiator takes hot coolant and cools it as it flows downward. All radiators have small coolant tubes which have fins attached to them that act as heat syncs and dissipate heat through convection and air flow through the front of the vehicle or a fan pulling air through the radiator. The more fins per square inch, the more efficient the radiator is at dissipating the heat and keeping the engine cool.

Top Flow Radiator
Step 3 - A radiator cap is used to add coolant to the system and it provides an inspection port for maintenance purposes.

Radiator Coolant Fill Port

Step 4
 - An overflow tube is used to transfer expanding coolant into the coolant reservoir, and then allowing the coolant to transfer back into the radiator once the engine has cooled down.

Overflow Tube
Step 5 - An upper and lower radiator hose is used to transfer engine coolant to radiator and back into the engine.

Upper Radiator Hose
Step 6 - When adding coolant use a small funnel to avoid spillage. (Note: Always check coolant levels when the engine is cold.)

Adding Coolant
Step 7 - A pressure cap is used to maintain between 16 and 18 psi within the system to further aid the cooling systems performance. For every two pounds of pressure inside the system the boiling point of the coolant raises one degree.

Radiator Cap
Step 8 - Vehicles equipped with an automatic transmission use transmission fluid cooling hoses (inbound - outbound) that connect to the fluid cooler built inside of the radiator.

Transmission Cooling Hose

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