摘要:
A golf ball includes an inner core and an outer core, both made of highly neutralized acid polymers. The inner core does not substantially include any fillers, while the outer core does include fillers. The outer core may include fillers in an amount of from about 17.% to about 30.7% by weight. The filler may be barium sulfate. The core made from the inner core and the outer core may have an unexpectedly higher coefficient of restitution.
摘要:
A golf ball having a core layer, a mantle layer enclosing the core layer, and a cover layer enclosing the mantle layer. At least one of the layers includes a blend of at least two highly neutralized acid polymers having low flexural moduli. The relative proportion of one highly neutralized acid polymer to the other highly neutralized acid polymer is between about 10:90 and about 90:10.
摘要:
A method of making and recycling a golf ball is disclosed. The method may include processing a used golf ball to make the materials of the used golf ball reusable in a new golf ball. As a result, the disclosed method may decrease the waste of disposing of used golf balls and the costs associated with acquiring and/or processing new materials. The method may include melting a golf ball made of layers each having a different melting point. The materials may be separated by melting the different layers one by one. The method of recycling a golf ball may generally include pulverizing used golf balls made of materials having differing amounts of magnetic additive into particles. The particles may be separated by a magnetic field. At least a portion of the particles may be reused to make a new golf ball.
摘要:
A rebound resilient golf ball having one or more core layers, a cover surrounding the core layer or layers, and optionally a mantle layer positioned between the cover and the core layer or layers. At least one of the layers of the golf ball includes a material whose resilience increases as the hardness of the material increases.
摘要:
A high performance golf ball includes a resin inner core, a rubber outer core, and a cover. The resin inner core is made of a blend of highly neutralized polymers and a low flexural modulus ionomer, and may include a blend of different highly neutralized polymers. The inner core has a specified relationship of coefficients of restitution of the various layers of the ball. The cover is a single layer ionomer cover, and may be made from a blend of different grades of the ionomer. The ball as a whole has properties to maximize performance and aesthetic properties, such as backspin off the irons, feel, and sound.
摘要:
A high performance golf ball includes a resin inner core, a rubber outer core, and a cover. The resin inner core is made of a blend of highly neutralized polymers and a low flexural modulus ionomer, and may include a blend of different highly neutralized polymers. The inner core and cover layer each has a specified hardness with a hardness relationship. The cover is a single layer ionomer cover, and may be made from a blend of different grades of the ionomer. The ball as a whole has properties to maximize performance and aesthetic properties, such as backspin off the irons, feel, and sound.
摘要:
A fluid passage structure for a fuel cell stack according to this invention comprises an internal manifold (16) formed on an inner side of a laminated body (1) of a plurality of fuel cells in a lamination direction, an external fluid passage (22) that supplies a fluid to the internal manifold (16), and a connection portion (16a) that connects the fluid passage to the internal manifold. Each fuel cell comprises an in-cell fluid passage (15) that is connected to the internal manifold (16) from an orthogonal direction. By forming the connection portion (16a) such that a swirl is generated in the internal manifold (16) using the energy of the fluid that flows into the internal manifold (16) from the fluid passage (22), a pressure deviation in a transverse section of the internal manifold (16) is reduced, and the fluid supply rate to each in-cell fluid passage (15) is made even.