Vibration-damping device for vehicles and method of manufacturing the same

1. A method of manufacturing a vehicle vibration-damping device comprising:

• a gap fabricating process that fabricates a gap of 0.5-2 mm between an inner peripheral surface of a rigid housing and an outer peripheral surface of a metallic mass by rigidly positioning the housing having an inner peripheral surface of cylindrical shape and the metallic mass having a cylindrical cross section relative to a vulcanization fabrication mold for fabricating a rubber elastic body layer while by disposing the metallic mass coaxially disposed within the housing;
  
  a rubber elastic body layer fabricating process wherein a rubber material is filled into the gap, and then is vulcanized to mold the rubber material within a mold cavity that is formed between the housing and the metallic mass in order to fabricate the rubber elastic body layer; and
  
  a small gap fabricating process that fabricates a small gap of no more than 0.1 mm between the outer peripheral surface of the rubber elastic body layer and the inner peripheral surface of the housing that are opposed to each other in a radial direction, under a condition of the metallic mass being disposed coaxially within the housing, by utilizing a thermal contraction of the rubber elastic body layer to both peel the rubber elastic body layer from the housing and to adhere the rubber elastic body layer by means of reduction of an diameter thereof towards the metallic mass,wherein a natural frequency of an independent mass member that is formed by a tight adherence of the rubber elastic body layer to the outer peripheral surface of the metallic mass is set to be at a frequency band that is higher than a frequency of a target vibration that is to be damped for a vibrating member so that, upon application of the target vibration, the independent mass member repetitively strikes the inner surfaces of the housing on both sides in a primary vibration input direction.