Suspension strut

The invention claimed is: 1. A suspension strut for a vehicle, the suspension strut comprising: a first connector for connecting to a first point on the vehicle; a second connector for connecting to a second point on the vehicle; a damper assembly adapted to provide a damping force as fluid flows through the damper assembly during relative compression between the first point and the second point, wherein the damper assembly comprises a side wall and a damper aperture in the side wall, wherein the damper aperture is open throughout operation of the strut to allow fluid to flow through the damper assembly, and a damper valve openable by fluid flowing through the damper assembly during relative compression between the first point and the second point, the damper valve remaining closed as fluid flows through the damper assembly during relative extension between the first point and the second point, wherein the damper valve comprises a valve aperture provided in an axial face of the of the damper assembly, a plate configured to be located on the same axial face of the damper assembly, and a bias device, wherein the bias device biases the plate towards the valve aperture and axial face to close the valve aperture, and fluid flowing through the damper assembly during relative compression between the first point and the second point causes the plate to move away from the valve aperture and axial face to open the damper valve, wherein the plate and the bias device are on opposing sides of the valve aperture; a piston; and a first chamber on a first side of the piston, and a second chamber on a second side of the piston, wherein the piston comprises a cavity on the second side of the piston, the cavity forming part of the second chamber; wherein displacement of the first point relative to the second point is resisted by a change in volume of the first chamber due to movement of the piston. 2. The suspension strut according to claim 1 , wherein the damper aperture is a first damper aperture, the damper assembly further comprising second and third damper apertures in the side wall of the damper assembly, wherein the second and third damper apertures are open throughout operation of the strut to allow fluid to flow through the damper assembly. 3. The suspension strut according to claim 1 , further comprising: a rod connectable to the first point via the first connector; and a cylinder connectable to the second point via the second connector, the cylinder movable with respect to the rod to effect displacement of the first point relative to the second point; wherein the damper assembly is located within an end region of the rod, the damper assembly providing a damping force as fluid flows into the rod through the damper assembly during relative compression between the first point and the second point. 4. The suspension strut according to claim 3 , wherein the first chamber and the piston are located within the rod, and the second chamber is located at least partially within the cylinder, the piston movable within the rod to effect movement of the rod relative to the cylinder and displacement of the first point relative to the second point. 5. The suspension strut according to claim 1 , wherein the cavity is a second cavity, and the piston further comprises a first cavity on the first side of the piston, the first cavity forming part of the first chamber. 6. The suspension strut according to claim 1 , wherein the first chamber comprises a first port allowing a first fluid to enter the first chamber during a pre-charging phase, the first port operable to be closed in use. 7. The suspension strut according to claim 6 , wherein the second chamber comprises a second port allowing a second fluid to flow into the second chamber during a vehicle preparation phase, the second port operable to be closed in use. 8. The suspension strut according to claim 7 , wherein the first fluid is a gas and the second fluid is a liquid, such that the second chamber is operable to maintain a substantially constant volume in use. 9. A vehicle comprising the suspension strut according to claim 1 . 10. The vehicle according to claim 9 , wherein the vehicle is a military vehicle for carrying a weapon. 11. A damper assembly adapted to provide a damping force as fluid flows through the damper assembly during relative compression between a first point and a second point, the damper assembly comprising: a side wall and a damper aperture in the side wall, wherein the damper aperture is openable to allow fluid to flow through the damper assembly; and a damper valve openable by fluid flowing through the damper assembly during relative compression between the first point and the second point, the damper valve remaining closed as fluid flows through the damper assembly during relative extension between the first point and the second point, wherein the damper valve comprises a valve aperture provided in an axial face of the of the damper assembly, a plate configured to be located on the same axial face of the damper assembly and located on a first side of the valve aperture, and a bias device located on a second side of the valve aperture that is opposite the first side, wherein the bias device biases the plate towards the valve aperture and axial face to close the valve aperture, and fluid flowing through the damper assembly during relative compression between the first point and the second point causes the plate to move away from the valve aperture and axial face to open the damper valve. 12. The damper assembly according to claim 11 , wherein the damper aperture is a first damper aperture, the damper assembly further comprising second and third damper apertures in the side wall of the damper assembly, wherein the second and third damper apertures are openable to allow fluid to flow through the damper assembly. 13. A suspension strut comprising the damper assembly according to claim 11 , wherein the damper aperture is open throughout operation of the strut to allow fluid to flow through the damper assembly, the suspension strut comprising: a piston; and a first chamber on a first side of the piston, and a second chamber on a second side of the piston, wherein the piston comprises a first cavity on the first side of the piston, the first cavity forming part of the first chamber, and wherein the piston comprises a second cavity on the second side of the piston, the second cavity forming part of the second chamber; wherein displacement of the first point relative to the second point is resisted by a change in volume of the first chamber due to movement of the piston. 14. The suspension strut according to claim 13 , further comprising: a rod connectable to the first point; and a cylinder connectable to the second point, the cylinder movable with respect to the rod to effect displacement of the first point relative to the second point; wherein the damper assembly is located within an end region of the rod, the damper assembly providing a damping force as fluid flows into the rod through the damper assembly during relative compression between the first point and the second point. 15. The suspension strut according to claim 14 , wherein the first chamber and the piston are located within the rod, and the second chamber is located at least partially within the cylinder, the piston movable within the rod to effect movement of the rod relative to the cylinder and displacement of the first point relative to the second point. 16. The suspension strut according to claim 13 , wherein the first chamber comprises a first port allowing a f