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Frequently Asked Questions

Gas Struts Euro's Gas Springs are self-contained pneumatic devices capable of producing very large forces (0 to 2000 Newtons) from a compacted piece. A typical Gas Spring consists of a shaft connected to a piston, which moves within the cylinder. This contains nitrogen at high pressure with a hole in the piston allowing gas pressure to pass through and act equally on both sides of the piston. The shaft passes through a seal at one end of the cylinder, and it is the pressure acting on the shaft cross-section which provides the spring its force.

Shaft down is the preferred position for mounting a Gas Spring. An optimum design would permit the support to be oriented shaft down through its entire actuation. There are several reasons for this. In order to achieve the damping or cushion at the end of the Gas Spring's stroke, the piston assembly inside the Gas Spring must travel through oil at the end of the stroke. With the shaft down orientation, the oil is in the proper location for damping to occur. Shaft down orientation also ensures that the shaft and sealing components are lubricated with every stroke of the Gas Spring. This reduces seal wear and helps to prevent corrosion. In instances where the strut has been incorrectly fitted upside down and there has been a loss of pressure or failure, your warranty will be affected.

Temperature affects Gas Springs in two ways: output force could change, and there is increased susceptibility to gas loss. As the temperature of the Gas Spring changes, the internal pressure changes accordingly. Therefore, as the temperature increases, so does the internal pressure. As the internal pressure increases, so does the output force. Very high or very low temperatures can adversely affect the Gas Spring's ability to retain its gas charge. At very high temperatures, the permeability of the seals increases, and the gas molecules may diffuse through the seal more quickly. Gas Struts Euro Gas Springs can support and perform reliably at temperatures ranging from 4.5 degrees Celsius to 150 degrees Celsius.

When calculating the approximate life of a Gas Spring, one must first determine how much force the support can lose before the application becomes unacceptable. The time it takes to lose this amount of force is considered to be the life of the Gas Spring. All Gas Springs lose output force over time. The rate at which force loss occurs varies greatly by application. Many factors affect the rate of force loss, such as the size of the support, orientation, number of cycles, ambient temperature, vibration, and the geometry of the application. Considering all of the variables, it is very difficult to estimate life accurately without actual testing in the application. Gas Struts Euro has surpassed 40,000 strokes in a certified test lab environment.

Gas Struts Euro offers a 2-year warranty on all of our Gas Springs. Gas Struts Euro warrants products to be free of manufacturing defects in relation to parts and workmanship for a period of 2 years from the date of invoice.

Gas Struts Euro gas struts must be kept clean and protected from external debris. In cases where struts are exposed to dust or grime, the customer must implement a maintenance program to ensure the shaft is kept clean and lubricated at all times. External applications where objects may damage the struts and cause failure require the customer to take the necessary steps to create a protective barrier around the shaft. In scenarios where the strut has not been properly maintained or protected, resulting in damage or failure outside the above maintenance schedule, your warranty may become void.