Damping mechanism for valves

The invention claimed is: 1. A valve comprising: a housing having an axis and defining an inlet configured to be connected to a fluid line, and an outlet; a valve element biased towards a closed position in which the valve element restricts fluid flow from the inlet to the outlet, the valve element being axially movable by fluid pressure at said inlet towards an open position in which the inlet is in fluid flow communication with the outlet; a damping chamber having a metering orifice in fluid communication with the inlet irrespective of a position of the valve element, the damping chamber having an axially facing surface defined by the valve element and having a variable volume varying from a minimum volume when the valve element is in the closed position to a maximum volume when the valve element is in the open position, wherein a ratio of a length of the metering orifice to a diameter of the metering orifice is less than 1.5. 2. The valve defined in claim 1 , wherein the metering orifice of the damping chamber is defined in the valve element. 3. The valve defined in claim 2 , wherein the damping chamber encircles the valve element, and wherein the metering orifice of the damping chamber extends from an inner diameter of the valve element to an outer diameter thereof. 4. The valve defined in claim 3 , wherein the outer diameter of the valve element has a stepped profile including a first and a second axially extending step defining therebetween an annular shoulder, the annular shoulder forming the axially facing surface of the damping chamber. 5. The valve defined in claim 4 , wherein the valve element is slidably received in a sleeve mounted in the housing, and wherein the damping chamber is defined between the sleeve and the valve element. 6. The valve defined in claim 5 , wherein a port is defined in the sleeve axially between the inlet and the damping chamber, the port axially spaced from and in fluid communication with the outlet of the housing. 7. The valve defined in claim 5 , wherein the sleeve has a stepped inner diameter profile including a radially inner shoulder, the radially inner shoulder forming a second axially facing surface of the damping chamber. 8. The valve defined in claim 1 , wherein the metering orifice is a turbulent flow orifice dedicated to the damping chamber. 9. A pressure relief valve comprising: a housing having an axis and defining an inlet configured to be connected to a fluid line, and an outlet; a piston biased towards a closed position in which the piston restricts fluid flow from the inlet to the outlet, the piston being axially displaceable by fluid pressure at the inlet towards an open position in which the inlet is in fluid flow communication with the outlet; a damping chamber having a dedicated metering orifice in fluid communication with the inlet, the dedicated metering orifice having a fixed geometry, the damping chamber having an axially facing surface defined by the valve element and having a variable volume varying from a minimum volume when the valve element is in the closed position to a maximum volume when the valve element is in the open position, wherein a ratio of a length of the metering orifice to a diameter of the metering orifice is less than 1.5. 10. The pressure relief valve defined in claim 9 , wherein the metering orifice is a turbulent flow orifice dedicated to the damping chamber. 11. The pressure relief valve defined in claim 9 , wherein the metering orifice of the damping chamber is defined as a hole through the valve element. 12. The pressure relief valve defined in claim 11 , wherein the metering orifice of the damping chamber extends from an inner diameter of the valve element to an outer diameter thereof. 13. The pressure relief valve defined in claim 12 , wherein the outer diameter of the valve element has a stepped profile including a first and a second axially extending step defining therebetween an annular shoulder, the annular shoulder forming the axially facing surface of the damping chamber. 14. A method of hydraulically damping a pressure relief valve having a piston biased towards a closed positon and an inlet configured to be connected in flow communication with a fluid line, the method comprising: using the piston and a surrounding structure to define a variable volume damping chamber, and fluidly connecting the damping chamber to the inlet by means of a calibrated orifice having a ratio of a length of the calibrated orifice to a diameter of the calibrated orifice less than 1.5 for inducing a turbulent flow. 15. The method defined in claim 14 , comprising forming a surface of the damping chamber on an outer diameter of the piston. 16. The method defined in claim 15 , comprising defining the calibrated orifice through the piston from an inner diameter to the outer diameter thereof.