a method of delaying an inertia valve within a shock absorber from returning to a closed position after an acceleration force acting on the inertia valve diminishes
a shock absorber comprising a first fluid chamber, a second fluid chamber and a fluid circuit connecting the first fluid chamber and the second fluid chamber
a non-woven material comprising a blend of a staple, single component fiber and a bi-component fiber, consisting of a high melting temperature core material surrounded by a low melting temperature sheath material
The preferred embodiment of an invention can usually be interpreted as being recited as the best mode known to the inventor of carrying out the invention.