Classifications

• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0416—Heads having an impact surface provided by a face insert
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/08—Golf clubs with special arrangements for obtaining a variable impact
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0408—Heads characterised by specific dimensions, e.g. thickness
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0458—Heads with non-uniform thickness of the impact face plate
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0466—Heads wood-type
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/047—Heads iron-type
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/06—Heads adjustable
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B60/00—Details or accessories of golf clubs, bats, rackets or the like
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
  • A63B2102/32—Golf
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B2209/00—Characteristics of used materials
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/005—Club sets
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0416—Heads having an impact surface provided by a face insert
  • A63B53/042—Heads having an impact surface provided by a face insert the face insert consisting of a material different from that of the head
• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B53/00—Golf clubs
  • A63B53/04—Heads
  • A63B53/0458—Heads with non-uniform thickness of the impact face plate
  • A63B53/0462—Heads with non-uniform thickness of the impact face plate characterised by tapering thickness of the impact face plate

Definitions

• This disclosure relates generally to golf clubs, and relates more particularly to golf club heads with variable face geometry and material properties.
• FIG. 1 depicts a front, toe-side perspective view of a golf club head according to an embodiment
• FIG. 2A depicts a faceplate within a set of faceplates having variable hardness profiles according to an embodiment
• FIG. 2B depicts another faceplate within the set of faceplates of FIG. 2A;
• FIG. 2C depicts another faceplate within the set of faceplates of FIGs. 2A and 2B;
• FIG. 3A depicts a faceplate within a set of faceplates having variable hardness profiles according to another embodiment
• FIG. 3B depicts another faceplate within the set of faceplates of FIG. 3 A;
• FIG. 3C depicts another faceplate within the set of faceplates of FIGs. 3 A and 3B according to another embodiment
• FIG. 4A depicts a faceplate within a set of faceplates having a variable thickness profile according to an embodiment
• FIG. 4B depicts another faceplate within the set of faceplates of FIG. 4 A;
• FIG. 4C depicts another faceplate within the set of faceplates of FIGs. 4A and 4B;
• FIG. 5 A depicts the faceplate within the set of faceplates of FIG. 4A across cross- sectional line 5 A-5 A in FIG. 4A;
• FIG. 5B depicts the faceplate within the set of faceplates of FIG. 4B across cross- sectional line 5B-5B in FIG. 4B;
• FIG. 5C depicts the faceplate within the set of faceplates of FIG. 4C across cross- sectional lines 5C-5C in FIG. 4C;
• FIG. 6 depicts a side view of a golf club head according to an embodiment
• FIG. 7. depicts a top-down view of a golf club head and a golf ball direction upon impact with a faceplate according to an embodiment
• FIG. 8 depicts a top-down view of a golf club head and a golf ball direction upon impact with a faceplate according to another embodiment
• FIG. 9 A depicts a golf club head within a set of golf club heads according to an embodiment
• FIG. 9B depicts another golf club head within the set of golf club heads of FIG.
• FIG. 9C depicts another golf club head within the set of golf club heads of FIGs.
• FIG. 10 depicts a golf club according to an embodiment
• FIG. 11 depicts a method of manufacturing a golf club head according to an embodiment.
• varying hardness profile refers to a hardness profile of a faceplate wherein the hardness profile may vary in a direction moving toward a heel region, a toe region, a sole, a crown, or any combination of the described directions.
• the hardness profile does not vary, however, in a depth direction moving from an outer surface or striking surface to an inner surface of the faceplate, or in a direction moving from the inner surface to the outer surface or striking surface of the faceplate at a particular position on the faceplate.
• the hardness is substantially the same throughout the entire faceplate depth.
• Various embodiments of golf club heads with variable face geometry and material properties include a golf club head comprising a body configured to receive a faceplate from a set of faceplates.
• the body comprises a heel region, a toe region opposite the heel region, a sole, and a crown.
• the faceplate is from the set of faceplates and coupled to the body.
• the set of faceplates comprises at least one of a varying hardness profile or a varying thickness profile.
• a first faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a first hardness profile if the set of faceplates comprise the varying hardness profile or a first thickness profile if the set of faceplates comprise the varying thickness profile.
• a second faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a second hardness profile if the set of faceplates comprise the varying hardness profile or a second thickness profile if the set of faceplates comprise the varying thickness profile.
• a third faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a third hardness profile if the set of faceplates comprise the varying hardness profile or a third thickness profile if the set of faceplates comprise the varying thickness profile.
• golf club heads with variable face geometry and material properties include a set of golf club heads.
• the set of golf club heads comprise a first golf club head, a second golf club head, and a third golf club head.
• the first golf club head comprises a first body configured to receive a first faceplate of a set of faceplates, wherein the set of faceplates comprises at least one of a varying hardness profile or a varying thickness profile.
• the first body comprises a first heel region, a first toe region opposite the first heel region, a first sole, and a first crown.
• the first golf club head further comprises the first faceplate of the set of faceplates and the first faceplate of the set of faceplates is coupled to the first body.
• the first faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises at least one of a first hardness profile if the set of faceplates comprise the varying hardness profile or a first thickness profile if the set of faceplates comprise the varying thickness profile.
• the set of golf club heads further comprises a second golf club head.
• the second golf club head comprises a second body configured to receive a second faceplate of the set of faceplates.
• the second body comprises a second heel region, a second toe region opposite the second heel region, a second sole, and a second crown.
• the second golf club head further comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises the second faceplate of the set of faceplates, the second faceplate of the set of faceplates is coupled to the second body.
• the second faceplate of the set of faceplates comprises at least one of a second hardness profile if the set of faceplates comprise the varying hardness profile or a second thickness profile if the set of faceplates comprise the varying thickness profile.
• the set of golf club heads further comprises a third golf club head.
• the third golf club head comprises a third body configured to receive a third faceplate of the set of faceplates.
• the third body comprises a third heel region, a third toe region opposite the third heel region, a third sole, and a third crown.
• the third golf club head further comprises the third faceplate of the set of faceplates, the third faceplate of the set of faceplates is coupled to the third body.
• the third faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises at least one of a third hardness profile if the set of faceplates comprise the varying hardness profile or a third thickness profile if the set of faceplates comprise the varying thickness profile.
• a golf club comprising a body configured to receive a faceplate from a set of faceplates.
• the body comprises a heel region, a toe region opposite the heel region, a sole, and a crown.
• the golf club further comprises the faceplate from the set of faceplates and coupled to the body, a shaft coupled to the body, and a grip coupled to the shaft.
• the set of faceplates comprises at least one of a varying hardness profile or a varying thickness profile.
• a first faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a first hardness profile if the set of faceplates comprise the varying hardness profile or a first thickness profile if the set of faceplates comprise the varying thickness profile.
• a second faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a second hardness profile if the set of faceplates comprise the varying hardness profile or a second thickness profile if the set of faceplates comprise the varying thickness profile.
• a third faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a third hardness profile if the set of faceplates comprise the varying hardness profile or a third thickness profile if the set of faceplates comprise the varying thickness profile.
• golf club heads with variable face geometry and material properties include a method for manufacturing a golf club head.
• the method comprises forming a body from a material having a first density, the body configured to receive a faceplate from a set of faceplates.
• the body comprises a heel region, a toe region opposite the heel region, a sole, and a crown.
• the method further comprises forming the set of faceplates and attaching one faceplate from the set of faceplates to the body.
• the set of faceplates comprises at least one of a varying hardness profile or a varying thickness profile.
• a first faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a first hardness profile if the set of faceplates comprise the varying hardness profile or a first thickness profile if the set of faceplates comprise the varying thickness profile.
• a second faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a second hardness profile if the set of faceplates comprise the varying hardness profile or a second thickness profile if the set of faceplates comprise the varying thickness profile.
• a third faceplate of the set of faceplates comprises a heel region, a toe region, a top portion, and a bottom portion, and further comprises a third hardness profile if the set of faceplates comprise the varying hardness profile or a third thickness profile if the set of faceplates comprise the varying thickness profile.
• FIG. 1 illustrates a front, toe-side perspective view of an embodiment of a golf club head 100.
• golf club head 100 can be a driver-type golf club head.
• golf club head 100 can be a wood- type, fairway wood, or a hybrid-type golf club head.
• Golf club head 100 comprises a body 101.
• body 101 can be molded as a single piece or in multiple piece assemblies.
• body 101 comprises a heel region 104, a toe region 106 opposite heel region 104, a sole 108, and a crown 110.
• body 101 can be configured to receive a faceplate from a set of faceplates, such as a set of faceplates 200 (FIG. 2), a set of faceplates 300 (FIG. 3), and/or a set of faceplates 400 (FIG. 4).
• a faceplate from a set of faceplates, such as a set of faceplates 200 (FIG. 2), a set of faceplates 300 (FIG. 3), and/or a set of faceplates 400 (FIG. 4).
• the ability to couple different faceplates to a single body type can allow the ability to create different club heads with approximately the same center of gravity position, but different performance characteristics, such as, but not limited to spin, trajectory, and coefficient of restitution.
• the interchangeable faceplate can achieve different performance characteristics such as low spin or draw spin using variable geometries and/or material properties.
• the set of faceplates comprise varying material properties and/or geometries.
• the set of faceplates comprises at least one of a varying hardness profile (FIGs. 2-3) and/or a varying thickness profile (FIGs. 4-5).
• Each faceplate e.g., faceplates 211, 222, and 233 of set of faceplates 200 (FIGs. 2A-2C), faceplates 311, 322, and 333 of set of faceplates 300 (FIGs. 3A-3C), or faceplates 411, 422, and 433 of set of faceplates 400 (FIGs.
• the set of faceplates can be used to create different club heads with different spin characteristics (i.e. toe bias, neutral, heel bias, reduced backspin, etc.) without significantly affecting the club head center of gravity position.
• Each faceplate comprises a heel region, a toe region, a top portion and a bottom portion.
• faceplate is coupled to body 101.
• faceplate from any number of sets of faceplates is coupled to body 101.
• the faceplate can be a relatively planar insert to be coupled to body 101.
• body 101 can form at least part of the front face of golf club head 100 (along with the faceplate insert), and in some of these embodiments, body 101 can even form part of the strike face of golf club head 100 (along with the faceplate insert).
• the faceplate can be a "c-shaped" or a cup style insert.
• the "c-shaped" or cup style insert after being coupled to the body, can extend past the front face of the golf club head, and can form a front part of the crown and/or a front part of the sole of the golf club head.
• the "c-shaped" or cup style insert can form all of the front face and/or all of the strike face of the golf club head, while the body does not form any part of the front face or the strike face of the golf club head.
• the body can comprise various components and/or materials (e.g. metal or non-metal) that can be coupled together to form the body, and the faceplate can be coupled to the multi- component club head body.
• the heel region, toe region, top portion and bottom portion of the faceplate are positioned with reference to a centerpoint of the faceplate.
• the centerpoint of the faceplate can be located in accordance with the definition of a golf governing body such as the United States Golf Association (USGA).
• USGA United States Golf Association
• the centerpoint can be determined in accordance with Section 6.1 of the USGA's Procedure for Measuring the Flexibility of a Golf Clubhead (USGA- TPX3004, Rev.
• a vertical axis extending through the centerpoint of the faceplate perpendicular to a ground plane separates the heel region and the toe region of the faceplate.
• the heel region of the faceplate can be located on a side of the vertical axis near the heel region 104 of the club head 100
• the toe region of the faceplate can be located on a side of the vertical axis near the toe region 106 of the club head 100.
• a horizontal axis extending through the centerpoint of the faceplate parallel to the ground plane separates the top portion and bottom portion of the faceplate.
• the top portion of the faceplate can be located on a side of the horizontal axis near the crown 1 10 of the club head 100, and the bottom portion of the faceplate can be located on a side of the horizontal axis near the sole 108 of the club head 100.
• FIG. 2 depicts exterior surfaces of set of faceplates 200 comprising a first faceplate 211, a second faceplate 222, and a third faceplate 233.
• FIG. 3 depicts exterior surfaces of a similar set of faceplates 300 comprising a first faceplate 311, a second faceplate 322, and a third faceplate 333.
• a set of faceplates e.g., set of faceplates 200 (FIG. 2)
• the set of faceplates can comprise any number of faceplates greater than one, such as 2, 3, 4, 5, 6, 7, 8, 9, 10, or any other number of different types of faceplates.
• each faceplate within a set of faceplates is made of the same material.
• different faceplates within a set of faceplates can be made of different materials.
• set of faceplates 200 and 300 comprise varying hardness profiles, but only one of these faceplates is coupled to the golf club head body to provide different performance characteristics for the golf club.
• Each faceplate within the set of faceplates e.g., faceplates 211, 222, and 233 of set of faceplates 200 (FIGs. 2A-2C), or faceplates 311, 322, and 333 of set of faceplates 300 (FIGs. 3A-3C)
• the hardness profile can have an area of maximum hardness, minimum hardness, or a varying degree of hardness.
• first faceplates 211 and 311 comprise a first hardness profile.
• the first hardness profile comprises a uniform hardness across the first faceplate such that the maximum hardness and the minimum hardness are approximately equal.
• first faceplates 211 and 311 can be standard faceplates.
• second faceplates 222 and 222 are identical to second faceplates 222 and 222 .
• the second hardness profile comprises a lowest or minimum hardness in a toe region 206, as shown by the dashed lines of region B, and a maximum hardness in the heel region 204 of second faceplate 211.
• the second hardness profile comprises the lowest or minimum hardness in a heel region 304 of second faceplate 322, as shown by the dashed lines of region C, and a maximum hardness in the toe region 306.
• third faceplates 233 and 235 are identical to third faceplates 233 and 232.
• the third hardness profile comprises the lowest or minimum hardness profile in a top portion of third faceplate, as shown by the dashed lines of region D, 233, and a maximum hardness in a bottom portion of third faceplate 233.
• the third hardness profile comprises the lowest or minimum hardness in a bottom portion of third faceplate 333, as shown by the dashed lines of region E, and a maximum hardness in a top portion of the third faceplate.
• the maximum hardness can range from 24-40 URC, 30-35
• the minimum hardness can range from 23-29 HRC, 30-42 HRC, 40-50 HRC, or 42-50 HRC, depending on the material and conditions the material are treated, as described in further detail below.
• the hardness profiles vary discretely between the minimum and maximum hardness.
• the hardness profiles can transition between regions of the faceplate gradually according to any profile.
• the hardness profile can comprise a plurality of different hardness values positioned in a plurality of different locations on the faceplate.
• the toe region may comprise the maximum hardness
• the heel region may comprise the minimum hardness
• the center may comprise a hardness value in between the maximum and minimum hardness.
• the heel region, toe region, top portion, and bottom portion of the faceplate may vary in size.
• the heel region, toe region, top portion, and bottom portion of the faceplate may comprise any percent of the faceplate, such as 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, or 75%.
• the minimum hardness can comprise a surface area of the face plate greater than or equal to 0.97 in 2 , greater than or equal to 1.0 in 2 , greater than or equal to 1.25 in 2 , greater than or equal to 1.5 in 2 , greater than or equal to 1.75 in 2 , or greater than or equal to 2.0 in 2 . Further, the minimum hardness can comprise between 30-70%), 40%-60%, or 45-55%) of the surface area of the faceplate. The minimum hardness can comprise 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65% or 70% of the surface area of the faceplate.
• the minimum hardness can comprise greater than 20%, greater than 25%, greater than 30%>, greater than 35%, greater than 40%, greater than 45%), or greater than 50%> of the surface area of the face plate.
• the minimum hardness comprises a greater percent of the surface area of the faceplate than a typical heat affected zone of a faceplate weld line (e.g. less than approximately 1.0 in 2 ).
• the maximum hardness can comprise a surface area of the face plate greater than or equal to 0.97 in 2 , greater than or equal to 1.0 in 2 , greater than or equal to 1.25 in 2 , greater than or equal to 1.5 in 2 , greater than or equal to 1.75 in 2 , or greater than or equal to 2.0 in 2 . Further, the maximum hardness can comprise between 30-70%), 40%-60%, or 45-55%> of the surface area of the faceplate. The maximum hardness can comprise 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65% or 70% of the surface area of the faceplate.
• the maximum hardness can comprise greater than 20%, greater than 25%, greater than 30%, greater than 35%, greater than 40%, greater than 45%), or greater than 50% of the surface area of the face plate. In many embodiments, the maximum hardness comprises a greater percent of the surface area of the faceplate than a typical heat affected zone of a faceplate weld line (e.g. less than approximately 1.0 in 2 ).
• the first, the second, and the third faceplates may have first, second, and third hardness profiles that are approximately the same while the position of a thickness profile varies from faceplate to faceplate to achieve the above described performance characteristics of the first, the second, and the third club heads, respectively.
• the first, the second, and the third faceplates may have first, second, and third hardness profiles that vary as described herein, while the position of the thickness profile remains substantially constant from faceplate to faceplate to achieve the above described performance characteristics of the first, the second, and the third club heads, respectively.
• set of faceplates 400 comprise varying thickness profiles, but only one of these faceplates is coupled to the golf club head body to provide different performance characteristics for the golf club.
• Each faceplate within the set of faceplates e.g., faceplates 411, 422, and 433 of set of faceplates 400 (FIGs. 4-5)
• faceplates 411, 422, and 433 of set of faceplates 400 (FIGs. 4-5)) comprise a thickness profile having a maximum thickness and a minimum thickness positioned in different regions of the faceplate.
• the thickness profile is substantially the same from faceplate to faceplate, but the position of the thickness profile relative to the geometric center of the faceplate varies for the first, the second, and the third faceplates.
• the first faceplate may have a first thickness profile
• the second faceplate may have a second thickness profile different than the first thickness profile
• the third faceplate may have a third thickness profile different from the second thickness profile.
• FIGs. 4A-4C depicts the set of faceplates 400.
• Set of faceplates 400 comprises a first faceplate 411, a second faceplate 422, and a third faceplate 433 comprising varying thickness profiles.
• FIGs. 5A-C depicts the set of faceplates 400 across the respective cross-sectional lines 5A-5A, 5B-5B, and 5C-5C shown in FIG. 4.
• FIG. 5A depicts first faceplate 411 across a cross-sectional line 5A-5A of faceplate 411 (FIG. 4).
• first faceplate 411 comprises a first thickness profile.
• the first thickness profile comprises a maximum thickness 4115 at the approximate geometric center at point A and a minimum thickness surrounding the geometric center of first faceplate 411.
• first faceplate 411 can be a standard faceplate similar to faceplates 211 (FIG. 2) and 311 (FIG. 3).
• FIG. 5B depicts second faceplate 422 across a cross-sectional line 5B-5B of faceplate 422 (FIG. 4).
• second faceplate 422 comprises a second thickness profile.
• the second thickness profile comprises a maximum thickness 4225 toward the heel region 404 and a minimum thickness toward the toe region 406 of the second faceplate 422.
• the second thickness profile can comprise a maximum thickness toward the toe region 406 and a minimum thickness toward the heel region 404 of the second faceplate 422.
• FIG. 5C depicts third faceplate 433 across a cross-sectional line 5C-5C of faceplate 433 (FIG. 4).
• third faceplate 433 comprises a third thickness profile.
• the third thickness profile comprises a maximum thickness 4335 toward the bottom portion and a minimum thickness toward the top portion of the third faceplate 433.
• the third thickness profile can comprise a maximum thickness toward the top portion 434 and a minimum thickness toward the bottom portion 408 of third faceplate 433.
• the thickness profiles vary gradually between the minimum and maximum hardness.
• the thickness profiles can transition between regions of the faceplate according to any profile.
• the thickness profile can comprise a plurality of different thickness values positioned in a plurality of different locations on the faceplate.
• the toe region may comprise the maximum thickness
• the heel region may comprise the minimum thickness
• the center may comprise a thickness value in between the maximum and minimum thickness.
• the golf club head can be a driver type club head, wherein the maximum thickness 4335 of the faceplate ranges from 0.105 inches (0.267cm) to 0.17 inches (0.432 cm) and the minimum thickness of the faceplate ranging from 0.045 inches (0.114 cm) to 0.10 inches (0.254 cm).
• the golf club head can be a fairway wood type club head, wherein the maximum thickness 4335 of the faceplate ranges from 0.065 inches (0.165 cm) to 0.14 inches (0.356 cm) and the minimum thickness of the faceplate ranges from 0.045 inches (0.114cm) to 0.080 inches (0.203cm).
• the golf club head can be a hybrid type club head, wherein the maximum thickness 4335 of the faceplate ranges from 0.065 inches (0.165cm) to 0.14 inches (0.356cm) and the minimum thickness of the faceplate ranges from 0.04 inches (0.102cm) to 0.08 inches (0.203cm).
• an exemplary driver type club head For example, referring to FIGS. 1 and 4-5, an exemplary driver type club head
• the 100 comprises an exemplary faceplate having the variable thickness profile (e.g. faceplate 422, 433), wherein the faceplate comprises a 455 or 475 steel alloy (as discussed below).
• the exemplary faceplate has a maximum thickness ranging from 0.121 inches (0.307 cm) to 0.151 inches (0.384 cm) and a minimum thickness ranging from 0.071 inches (0.180 cm) to 0.101 inches (0.257 cm).
• the portion of the faceplate having the minimum thickness deflects more upon impact than the portion of the faceplate having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• the 100 comprises an exemplary faceplate having the variable thickness profile (e.g. faceplate 422, 433), wherein the faceplate comprises a 455 or 475 steel alloy (as discussed below).
• the exemplary faceplate has a maximum thickness ranging from 0.088 inches (0.224 cm) to 0.1 18 inches (0.300 cm) a minimum thickness ranging from 0.058 inches (0.147 cm) to 0.078 inches (0.198 cm).
• the portion of the faceplate, having the minimum thickness deflects more upon impact than the portion of the faceplate 400 having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• an exemplary fairway wood type club head 100 comprises an exemplary faceplate having the variable thickness profile (e.g. faceplate 422, 433), wherein the faceplate comprises a C300 steel alloy (as discussed below).
• the exemplary faceplate has a maximum thickness ranging from 0.063 inches (0.160 cm) to 0.093 inches (0.236 cm) and a minimum thickness ranging from 0.050 inches (0.127 cm) to 0.080 inches (0.203). The portion of the faceplate, having the minimum thickness deflects more upon impact than the portion of the faceplate having the maximum thickness.
• the 100 comprises an exemplary faceplate having the variable thickness profile (e.g. faceplate 422, 433), wherein the faceplate comprises a 17-4 steel alloy (as discussed below).
• the exemplary faceplate has a maximum thickness ranging from 0.090 inches (0.229 cm) to 0.12 inches (0.305 cm)and a minimum thickness ranging from 0.057 inches (0.145 cm) to 0.087 inches (0.221 cm) .
• the portion of the faceplate having the minimum thickness deflects more upon impact than the portion of the faceplate having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• the exemplary faceplate has a maximum thickness ranging from 0.075 inches (0.191 cm) to 0.105 inches (.267 cm) and a minimum thickness ranging from 0.050 inches (0.127 cm) to 0.08 inches (0.203 cm).
• the portion of the faceplate having the minimum thickness deflects more upon impact than the portion of the faceplate having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• an exemplary hybrid type club head 100 comprises an exemplary faceplate having the variable thickness profile (e.g. faceplate 422, 433), wherein the faceplate comprises a C300 steel alloy (as discussed below).
• the exemplary faceplate has a maximum thickness ranging from 0.058 inches (0.147 cm) to 0.088 inches (0.224 cm) and a minimum thickness ranging from 0.045 inches (0.114 cm) to 0.075 inches (0.191 cm).
• the portion of the faceplate having the minimum thickness deflects more upon impact than the portion of the faceplate 400 having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• the exemplary faceplate has a maximum thickness ranging from 0.09 inches (0.229 cm) to 0.12 inches (0.305 cm) and a minimum thickness ranging from 0.06 inches (0.152 cm) to 0.09 inches (0.229 cm).
• the portion of the faceplate having the minimum thickness deflects more upon impact than the portion of the faceplate having the maximum thickness. Variation in deflection across the faceplate can affect the spin about the horizontal and/or vertical axis dependent on the position of the maximum and minimum thickness, as discussed above with reference to FIGs. 4-5.
• the embodiments described above include face plates having varying hardness profiles (e.g. faceplates 222, 233, 322, 333) or varying thickness profiles (e.g faceplates 422, 433)
• the set of faceplates can include one or more of the varying hardness profiles and the varying thickness profiles.
• the golf club head comprises an approximately similar or equal center of gravity (CG) regardless of which faceplate of the different sets of faceplates is coupled to the body of the golf club head.
• the golf club head e.g., golf club head 100 (FIG.
• the golf club head having the first faceplate of a particular set of faceplates comprises a first center of gravity
• the golf club head having the second faceplate of the set of faceplates comprises a second center of gravity
• the golf club head having the third faceplate of the set of faceplates comprises a third center of gravity.
• the first center of gravity, the second center of gravity, and the third center of gravity are approximately equal.
• the first faceplate of the set of faceplates produces a first golf ball spin on impact with the golf ball
• the second faceplate of the set of faceplates produces a second golf ball spin on impact with the golf ball
• the third faceplate of the set of faceplates produces a third golf ball spin on impact with the golf ball, when impacted with a particular speed and orientation.
• the first golf ball spin comprises a first spin about a horizontal axis and a first spin about a vertical axis
• the second golf ball spin comprises a second spin about the horizontal axis and a second spin about the vertical axis
• the third golf ball spin comprises a third spin about the horizontal axis and a third spin about the vertical axis.
• the first spin about the horizontal axis can comprise a back spin (FIG. 6).
• FIG. 6 depicts a golf ball 670 upon impact with the faceplate (e.g., first faceplate 211 or 311 (FIGs. 2-3) and/or first faceplate 411(FIGs. 4-5)).
• FIG. 6 shows a vertical axis 680 substantially perpendicular to the ground.
• the horizontal axis is perpendicular to vertical axis 680 and is coming out of the page.
• the second spin about the horizontal axis can be approximately equal to the first spin about the horizontal axis.
• the third spin about the horizontal axis can be less than the first spin about the horizontal axis.
• the third spin about the horizontal axis can be greater than the first spin about the horizontal axis.
• the third faceplate 233, 433 can reduce spin about the horizontal axis (i.e. back spin) on the golf ball compared to the first faceplate 211, 411.
• the decrease in spin about the horizontal axis is a result of the third faceplate 233, 433 having the third hardness profile (e.g. lowest in the top region of the third faceplate), and/or the thickness profile position (e.g. thinner in the top region than the bottom region of the third faceplate).
• the top portion of the third faceplate 233 having lower hardness deflects more on impact than the bottom portion of the third faceplate 233.
• the thinner top portion of the third faceplate 433 deflects more on impact than the thicker bottom portion of the third faceplate 433.
• Increased deflection of the top portion compared to the bottom portion of the third faceplate 233, 433 may reduce back spin about the horizontal axis compared to the golf ball impacted with the first faceplate 211, 411. Reduced back spin about the horizontal axis can assist in increasing the distance of the golf ball for a golfer that tends to hit the ball with significant back spin.
• a golfer that tends to hit the ball with significant back spin may benefit from the use of the third faceplate 233, 433 of the set of faceplates 200, 400, where the reduced horizontal spin about the horizontal axis of the third faceplate 233, 433 reduces back spin allowing increased ball distance.
• the third faceplate 333 can increase spin about the horizontal axis (i.e. back spin) on the golf ball compared to the first faceplate 311.
• the increase in spin about the horizontal axis is a result of the third faceplate 333 having the third hardness profile (e.g. lowest in the bottom region of the third faceplate), and/or the thickness profile position (e.g. thinner in the bottom region than the top region of the third faceplate).
• the bottom portion of the third faceplate 333 having lower hardness deflects more on impact than the top portion of the third faceplate 333.
• the thinner bottom portion of the third faceplate deflects more on impact than the thicker top portion of the third faceplate.
• Increased deflection of the bottom portion compared to the top portion of the third faceplate 333 may increase back spin about the horizontal axis compared to the golf ball impacted with the first faceplate 311. Increased back spin about the horizontal axis can assist in increasing the launch angle of the golf ball for a golfer that tends to hit the ball with low back spin. Therefore, a golfer that tends to hit the ball with low back spin may benefit from the use of the third faceplate 333 of the set of faceplates 300, where the increased horizontal spin about the horizontal axis of the third faceplate 333 increases back spin to increase launch angle of the golf ball. [0075] In some embodiments, the spin about vertical axis 680 can affect a direction of a golf ball.
• Vertical axis 680 is perpendicular to the horizontal axis and is substantially parallel with the direction of gravity. Referring to FIGS. 7-8, spin about vertical axis 680 can produce a hook or draw spin when the spin is a negative spin about vertical axis 680. Further, spin about vertical axis 680 can produce a slice when the spin is a fade or positive spin about the vertical axis. In some embodiments, the first spin about vertical axis 680 can produce a straight trajectory when there is zero or no spin about vertical axis 680. In many embodiments, referring to FIGs. 2 and 4, the second spin about vertical axis 680 is less than the first spin about vertical axis 680.
• the second spin about vertical axis 680 When the second spin about vertical axis 680 is less than the first spin about vertical axis 680, a draw or negative spin can be produced. In other embodiments, referring to FIG. 3, the second spin about vertical axis 680 can be greater than the first spin about vertical axis 680. In many embodiments, referring to FIGS. 2-5 the third spin about vertical axis 680 is approximately equal to the first spin about vertical axis 680.
• the reduced spin about vertical axis 680 results from the second faceplate 222, 422 having the second hardness profile (e.g. lowest in the toe region of the second faceplate), and/or the thickness profile position (e.g. thinner in the toe region than the heel region of the second faceplate).
• the second hardness profile e.g. lowest in the toe region of the second faceplate
• the thickness profile position e.g. thinner in the toe region than the heel region of the second faceplate.
• the toe portion of the second faceplate 222 having lower hardness deflects more on impact than the heel portion of the second faceplate 222.
• the thinner toe portion of the second faceplate 422 deflects more on impact than the thicker heel portion of the second faceplate 422.
• Increased deflection of the toe portion compared to the heel portion of the second faceplate 222, 422 may reduce spin on the ball about the vertical axis, compared to the first faceplate 211, 411. Therefore, a golfer that tends to hit the golf ball with an open face can benefit from the use of the second faceplate 222, 422, wherein the draw spin of the second club head can assist in correcting the golf ball direction toward a target.
• a golfer that tends to slice the ball may benefit from the use of the second faceplate 222, 422 of the set of faceplates 200, 400, where the draw or negative spin of the second faceplate 222, 422 can assist in correcting a slice by straightening the trajectory of the golf ball.
• the increased spin about vertical axis 680 results from the second faceplate 322 having the second hardness profile (e.g. lowest in the heel region of the second faceplate), and/or the thickness profile position (e.g. thinner in the heel region than the toe region of the second faceplate).
• the heel portion of the second faceplate 322 having lower hardness deflects more on impact than the toe portion of the second faceplate 322.
• the thinner heel portion of the second faceplate deflects more on impact than the thicker toe portion of the second faceplate 322.
• Increased deflection of the heel portion compared to the toe portion of the second faceplate 322 may increase spin on the ball about the vertical axis, compared to the first faceplate 311. Therefore, a golfer that tends to hit the golf ball with a closed face can benefit from the use of the second faceplate 322, wherein the fade spin of the second club head can assist in correcting the golf ball direction toward a target.
• a golfer that tends to hook the ball may benefit from the use of the second faceplate 322 of the set of faceplates 300, where the fade or positive spin of the second faceplate 322 can assist in correcting a hook by straightening the trajectory of the golf ball.
• each faceplate within the sets of faceplates can be coupled to the same body design to form a set of golf club heads.
• FIG. 9 shows a set of golf club heads 900, wherein a first golf club head 941 comprises first faceplate (e.g. faceplate 211), a second golf club head 942 comprises second faceplate (e.g. faceplate 222), and a third golf club head 943 comprises third faceplate (e.g. faceplate 233).
• golf club head 100 can be part of a corresponding golf club.
• a golf club 1000 in FIG. 10 can comprise golf club head 100 coupled to a shaft 1050 and a grip 1051 opposite golf club head 100.
• Golf club 1000 can comprise any of the golf club head with faceplate embodiments described herein, including first faceplate 211 or 311, second faceplate 222 or 322, or third faceplate 233 or 333 (FIGs. 2-3) and/or first faceplate 411, second faceplate 422, or third faceplate 433 (FIGs. 4-5)).
• the golf club can be part of a set of golf clubs.
• club head 100 can comprise any suitable materials, but in many embodiments, club head 100 comprises one or more metal materials. Notwithstanding the foregoing, the apparatus, methods, and articles of manufacture described herein are not limited in this regard.
• method 1100 for manufacturing a golf club head (e.g., golf club head 100).
• method 1100 comprises forming a body from a material having a first density, the body configured to receive a faceplate from a set of faceplates (block 11 10).
• the faceplate from the set of faceplates can comprise any of first faceplate 211 or 311, second faceplate 222 or 322, or third faceplate 233 or 333 (FIGs. 2-3) and/or first faceplate 411, second faceplate 422, or third faceplate 433 (FIGs. 4-5).
• the body comprises a heel region, a toe region opposite the heel region, a sole, and a crown.
• method 1000 further comprises forming the set of faceplates (block 1120), and attaching one faceplate from the set of faceplates to the body (block 1130). Attaching the faceplate to the body can include welding or brazing the faceplate to the body, and/or can include another attachment technique such as epoxying and the like.
• the set of faceplates comprises at least one of the varying hardness profile or the varying thickness profile.
• the varying hardness profile can be produced by a variation in heat treatment of portions of each faceplate of the set of faceplates. Specifically, different portions of each faceplate may be heat treated using a laser for direct application at different temperatures and/or for different durations to optimize the hardness of different portions of the faceplate. Further, different portions of each faceplate may be heat treated using a laser for direct application at different temperatures and/or for different durations such that the varying hardness profile is formed throughout the entire thickness of each faceplate within the set of faceplates. Temperatures and durations required to achieve a specific hardness may vary for different faceplate designs and materials. Such heat treatment can include the heat treatment method taught by U.S. Patent Application No. 14/624,488 entitled "Heat Treatment,” filed on February 17, 2015, which is herein incorporated by reference. i. Faceplate comprising 17-4 steel alloy
• the faceplate can be made of a 17-4 steel alloy having approximately 15.0-17.5% chromium, approximately 3.0-5.0% copper, approximately 3.0-5.0%) nickel, less than 1.0% manganese, less than 1.0% silicon, with the remaining alloy composition being iron and other trace elements including 0.07% carbon, 0.15- 0.45%) niobium, 0.15-0.45%) tantalum, less than 0.04% phosphorus, and less than 0.03% sulfur.
• heat treating at higher temperatures and longer durations reduces the hardness or softens portions of the faceplate being heat treated.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum desired hardness.
• the first heat treatment can comprise heating the faceplate at approximately 900 degrees Fahrenheit for 1-4 hours.
• a portion of the faceplate can undergo an additional, second heat treatment to soften the portion of the faceplate to the desired minimum hardness.
• the second heat treatment can comprise heat treating the desired softer portion of the faceplate at approximately 1,150 degrees Fahrenheit for 1-4 hours.
• the minimum hardness of the faceplate can range from approximately 23 - 29 HRC and the maximum hardness of the faceplate can range from approximately 34 - 40 HRC.
• the maximum hardness can be approximately 34, 35, 36, 37, 38, 39, or 40 HRC and the minimum hardness can be approximately 23, 24, 25, 26, 27, 28, or 29 HRC.
• the yield strength in the region of the faceplate comprising the maximum hardness is greater than the yield strength of the region of the faceplate comprising the minimum hardness.
• the yield strength in the region of the faceplate comprising the maximum hardness can be between 75-115 ksi
• the yield strength in the region of the faceplate comprising the minimum hardness can be between 160-200 ksi. ii.
• the faceplate can be made of a C300 steel alloy having approximately 18.0-19.0% nickel, approximately 8.5-9.5%) cobalt, approximately 4.6-5.2%) molybdenum, with the remaining alloy composition being iron and other trace elements including 0.5-0.8%) titanium, 0.05-0.15%) aluminum, less than approximately 0.5%) chromium, less than approximately 0.5% copper, less than approximately 0.1%> manganese, less than approximately 0.1%> silicon, less than approximately 0.3%> carbon, less than approximately 0.01%> phosphorus, and less than approximately 0.01%> sulfur.
• heat treating at higher temperatures and longer durations reduces the hardness or softens portions of the faceplate being heat treated.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum hardness.
• the first heat treatment can comprise heating the faceplate at approximately 850 degrees Fahrenheit for 1-3 hours.
• a portion of the faceplate can undergo an additional, second heat treatment to soften the portion of the faceplate to the desired minimum hardness.
• the second heat treatment can comprise heat treating the desired softer portion of the faceplate at approximately 1,000 degrees Fahrenheit for 1-6 hours.
• the minimum hardness of the faceplate can range from approximately 42 - 52 HRC and the maximum hardness of the faceplate can range from approximately 50 - 60 HRC.
• the maximum hardness can be approximately 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, or 60 HRC and the minimum hardness can be approximately 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, or 52 HRC.
• the yield strength in the region of the faceplate comprising the maximum hardness is greater than the yield strength of the region of the faceplate comprising the minimum hardness.
• the yield strength in the region of the faceplate comprising the maximum hardness can be between 275-325 ksi
• the yield strength in the region of the faceplate comprising the minimum hardness can be between 225-275 ksi. iii.
• the faceplate can be made of a 455 steel alloy having approximately 11-12.5% chromium, approximately 7.5-9.5% nickel, approximately 1.5-2.5%) copper, approximately 0.80-1.4 titanium, with the remaining alloy composition being iron and other trace elements including approximately 0.1-0.5%) columbium+tantalum, less than approximately 0.5% molybdenum, less than approximately 0.5% manganese, less than approximately 0.5% silicon, less than approximately 0.05% carbon, less than approximately 0.04% phosphorus, and less than approximately 0.03% sulfur.
• heat treating at higher temperatures and longer durations reduces the hardness or softens portions of the faceplate being heat treated.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum hardness.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum desired hardness.
• the first heat treatment can comprise heating the faceplate at approximately 900 degrees Fahrenheit for 1-4 hours.
• a portion of the faceplate can undergo an additional, second heat treatment to soften the portion of the faceplate to the desired minimum hardness.
• the second heat treatment can comprise heat treating the desired softer portion of the faceplate at approximately 1,000 degrees Fahrenheit for 1-4 hours.
• the minimum hardness of the faceplate can range from approximately 40 - 50 HRC and the maximum hardness of the faceplate can range from approximately 45 - 55 HRC.
• the maximum hardness can be approximately 45, 46, 47, 48, 49, 40, 51, 52, 53, 54, or 55 HRC and the minimum hardness can be approximately 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, or 50 HRC.
• the yield strength in the region of the faceplate comprising the maximum hardness is greater than the yield strength of the region of the faceplate comprising the minimum hardness.
• the yield strength in the region of the faceplate comprising the maximum hardness can be between 225 - 275 ksi
• the yield strength in the region of the faceplate comprising the minimum hardness can be between 190 - 230 ksi. iv. Faceplate comprising 475 steel alloy
• the faceplate can be made of a 475 steel alloy having approximately 10.5-11.5% chromium, approximately 8.0-9.0%) cobalt, approximately 7.5-8.5%) nickel, approximately 4.5-5.5%) molybdenum, approximately 1.0-1.5% aluminum, with the remaining alloy composition being iron and other trace elements including less than approximately 0.5% silicone, less than approximately 0.5% manganese, less than approximately 0.02% carbon, less than approximately 0.015% phosphorus, and less that 0.01% sulfur.
• heat treating at higher temperatures and longer durations reduces the hardness or softens portions of the faceplate being heat treated.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum hardness.
• the faceplate can undergo a first heat treatment across the entire faceplate to reach the maximum desired hardness.
• the first heat treatment can comprise heating the faceplate at approximately 975 degrees Fahrenheit for 1-4 hours.
• a portion of the faceplate can undergo an additional, second heat treatment to soften the portion of the faceplate to the desired minimum hardness.
• the second heat treatment can comprise heat treating the desired softer portion of the faceplate at approximately 1,100 degrees Fahrenheit for 1-4 hours.
• the minimum hardness of the faceplate can range from approximately 40 - 50 FIRC and the maximum hardness of the faceplate can range from approximately 50 - 60 FIRC.
• the maximum hardness can be approximately 40, 41, 42, 43, 44, 45, 46, 47, 48, 49 or 50 HRC and the minimum hardness can be approximately 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, or 60 HRC.
• the yield strength in the region of the faceplate comprising the maximum hardness is greater than the yield strength of the region of the faceplate comprising the minimum hardness.
• the yield strength in the region of the faceplate comprising the maximum hardness can be between 250 - 290 ksi
• the yield strength in the region of the faceplate comprising the minimum hardness can be between 170 - 210 ksi.
• the second heat treatment used to soften a portion of the faceplate can be accomplished using a laser capable of directing or isolating the treatment to the desired softened portion of the faceplate.
• the first and second heat treatment result in the hardness profile being formed throughout the thickness of the faceplate.
• the second heat treatment can be accomplished using any other suitable method.
• the faceplate can undergo any number of heat treatments resulting in any number of hardness regions on the faceplate.
• increasing heat treatment temperatures and/or durations can increase material hardness.
• other methods may be used to achieve variation in the hardness profile of the faceplates.
• the heat treatment at a first temperature for a first duration can reduce a hardness of a region of each faceplate of the set of faceplates.
• a lowest hardness region of the faceplate of the set of faceplates can be heat treated at the first temperature of approximately 900 degrees Fahrenheit for the first duration of approximately one to four hours.
• the remaining region of the faceplate of the set of faceplates can be heat treated at a second temperature of approximately 1,000 degrees Fahrenheit for a second duration; the second duration is approximately one to four hours.
• variable face geometry and material properties discussed herein may be implemented in a variety of embodiments, and the foregoing discussion of these embodiments does not necessarily represent a complete description of all possible embodiments. Rather, the detailed description of the drawings, and the drawings themselves, disclose at least one preferred embodiment of systems and methods for variable face geometry and material properties, and may disclose alternative embodiments of golf club heads with variable face geometry and material properties.
• golf equipment related to the apparatus, methods, and articles of manufacture described herein may be conforming or non-conforming to the rules of golf at any particular time. Accordingly, golf equipment related to the apparatus, methods, and articles of manufacture described herein may be advertised, offered for sale, and/or sold as conforming or non-conforming golf equipment.
• the apparatus, methods, and articles of manufacture described herein are not limited in this regard.
• the apparatus, methods, and articles of manufacture described herein may be applicable to other types of golf clubs such as a fairway wood-type golf club, a hybrid- type golf club, an iron-type golf club, a wedge-type golf club, or a putter-type golf club.
• the apparatus, methods, and articles of manufacture described herein may be applicable other type of sports equipment such as a hockey stick, a tennis racket, a fishing pole, a ski pole, etc.

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• 2016
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