Abstract: A hard baseball ball is configured including a core layer, an intermediate layer, and the cover layer. The intermediate layer is formed on a spherical body by winding yarn having radio wave transmissivity, which allows radio waves to pass through, in a spherical shape around the core layer. The cover layer covers the intermediate layer, and is formed from a material with radio wave transmissivity. The hard baseball ball also includes the reflecting portion. The reflecting portion is formed on a spherical surface whose center is the center of the spherical body, and has radio wave reflectability. The reflecting portion is configured using yarn from which the intermediate layer is formed. At least a portion of the yarn from which the intermediate layer is formed is given radio wave reflectability, and the reflecting portion is configured from the portion of the yarn that has been given radio wave reflectability.

Abstract: A golf ball having at least a core and a composite layer comprising a fibrous material and a matrix material is disclosed. The fibrous material may comprise a polymer, glass or metal. The matrix material preferably comprises a translucent polymer. In one embodiment of the present invention, the fibrous material comprises a ferromagnetic material and the golf ball is subjected to induction heating to improve adhesion between adjacent ball layers. The golf ball may additionally comprise a translucent cover layer surrounding the composite layer or an intermediate layer disposed between the composite layer and the core.

Abstract: The invention includes a golf ball having a center, a hoop-stress layer of high tensile elastic modulus material wrapped or wound about the core, at least one layer of a resilient elastomeric material, and a cover of at least one layer. The center in the golf ball can be a fluid with an encapsulating shell or a solid. A binding material can be used in conjunction with the hoop-stress layer to facilitate positioning of the hoop-stress layer around the center for easier manufacturing.

Abstract: A golf ball and a method of making a golf ball that includes a center formed from a material including polybutadiene and having a high resilience, at least one cover layer formed of a material including polyurethane, and at least one wound layer of a tensioned material windings between the center and the cover. The polyurethane composition is formed from the reaction product of at least a prepolymer of a polyisocyanate and a polyol, and a diamine curing agent. The polybutadiene composition includes a butadiene polymer with a resilience index greater than about 40 and a weight average molecular weight greater than about 200,000. Such golf balls can have a coefficient of restitution that is optimized for low swing speed players. The wound layer of the present invention may be applied to golf balls having liquid or solid centers to achieve desired golf ball characteristics.

Abstract: The invention includes a golf ball having a core, a hoop-stress layer of high tensile elastic modulus material wrapped or wound about the core, at least one outermost layer of a thermoset material having a thickness of greater than about 0.065 inches. A binding material can be used in conjunction with the hoop-stress layer to facilitate positioning of the hoop-stress layer around the core for easier manufacturing.

Abstract: A superelastic strand used for windings in a golf ball or as strings for a racquet of the type used for racquet sports. The strand is made with at least one fiber of a superelastic material which may be wound into a cable incorporating other fibers of polymeric or superelastic materials. The superelastic material used in the strand can be a nickel-titanium alloy which is heat treated to provide superelastic qualities.

Abstract: The present invention is directed towards a golf ball which comprises a center, at least one cover layer, and at least one layer of windings between the center and the cover. Preferably, the thread of the present invention is comprises of at least about 10 individual strands that are each about 0.01 inches in diameter. Most preferably, the thread is a solvent spun polyether urea thread manufactured by combining over 25 strands with diameters of less than about 0.002 inches. Because of the smaller thread dimension, the thread of the present invention is capable of being wound more densely than the typical thread. The elastic modulus of this thread is greater than about 20 ksi when wound about a center. The maximum elongation of the thread is greater than about 8%. The smaller cross-sectional area of the thread and higher elastic modulus of the thread also enable production of golf balls with less total thread volume.

Abstract: Disclosed is a golf ball including a metallic layer disposed between an inner core and an outer core. The distance between the center of the inner core and the inner surface of the metallic layer is not greater than 15 mm, and the weight of the metallic layer is 0.2 g to 4.0 g. The metallic layer is preferably formed from nickel and through plating. The moment of inertia of the golf ball is reduced without impairing physical properties of a core rubber. The golf ball exhibit an excellent spin motion while maintaining good resilience.

Abstract: There is disclosed a golf ball including a layer made of a shape memory alloy. For example, fine thread of a shape memory alloy is wound around a core so as to provide a shape memory alloy layer between the core and a cover of the golf ball. In this structure, the shape memory alloy layer provides an effect of tightening the core, thus improving the golf ball's resiliency, resulting an increased travel distance. Moreover, since the shape memory alloy layer has a high specific gravity, the moment of inertia of the golf ball increases, so that the spin and roll performances of the golf ball are improved. Furthermore, the shape memory alloy layer having higher strength and hardness functions as a reinforcement layer of the cover, thereby improving cut resistance and impact durability of the cover.

Abstract: The invention relates to a golf ball having a substantially spherical inner core, a layer of high tensile elastic modulus fibers wound about the inner core, and a molded layer of a polymeric material surrounding the wound layer. The high tensile elastic modulus fibers have a tensile elastic modulus of at least 10,000 kpsi. The invention also relates to a method of making a golf ball and includes providing an inner core, winding a high tensile elastic modulus fiber on the inner core to create a wound layer, and molding an outer layer of polymeric material about the wound layer. The inner core may be made of resilient materials or a center wound with a low modulus fiber and provided with an initial tension.