Valve assemblies, valve seats including flexible arms, and related methods

What is claimed is: 1. A method of forming a seal in a ball valve, the method comprising: positioning a first metal annular valve seat between a ball valve member and a first end cap of a valve body of the ball valve; positioning a second metal annular valve seat between the ball valve member and a second end cap of the valve body of the ball valve; forcing the first metal valve seat into sealing contact with the first end cap and the ball valve member with a first metal flexible arm of the first metal valve seat, the first metal flexible arm gradually extending axially outward relative to a centerline of the first metal seat from a base of the first metal flexible arm at a body portion of the first metal valve seat to a distal end of the first metal flexible arm the base and the first metal flexible arm of the first metal valve seat being separated by a recess; selecting the first metal flexible arm to have a uniform width and an aspect ratio between the length and the width of at least 11:1; forcing the second metal valve seat into sealing contact with the second end cap and the ball valve member with a second metal flexible arm of the second metal valve seat, the second metal flexible arm gradually extending axially outward relative to a centerline of the second metal seat from a base of the second metal flexible arm at a body portion of the second metal valve seat to a distal end of the second metal flexible arm the base and the first metal flexible arm of the first metal valve seat being separated by a recess; selecting the second metal flexible arm to have a uniform width and an aspect ratio between the length and the width of at least 11:1; and abutting and sealing against the first end cap with a stop comprising a protrusion extending from an axially outer portion of the first metal valve seat. 2. The method of claim 1 , further comprising positioning a first side of the body portion of the first metal valve seat adjacent the ball valve member with a second side of the body portion bordering a recess between the body portion and the first metal flexible arm, the body portion being continuously solid from the first side adjacent the ball valve member to the second side bordering the recess. 3. The method of claim 1 , further comprising spacing the axially outer portion of the first metal valve seat from the valve body with a recess positioned between a radially outer portion of the first metal flexible arm and the stop. 4. The method of claim 1 , further comprising limiting an amount of displacement of the first metal flexible arm by contacting the valve body with the stop. 5. The method of claim 1 , further comprising selecting a majority of the first metal flexible arm to have an aspect ratio between the length and the width of at least 15:1 and less than 35:1. 6. The method of claim 5 , further comprising selecting a majority of the second metal flexible arm to have an aspect ratio between the length and the width of at least 15:1 and less than 35:1. 7. The method of claim 6 , further comprising selecting the majority of the first metal flexible arm and the second metal flexible arm to exhibit the aspect ratio between the length and the width of at least 20:1 and less than 35:1. 8. The method of claim 5 , further comprising selecting the majority of the first metal flexible arm to exhibit a uniform width. 9. The method of claim 5 , further comprising selecting the majority of the first metal flexible arm to exhibit a tapered shape where a proximal section of the first metal flexible arm has a greater width taken in an axial direction of the first metal valve seat than a width of a distal end of the first metal flexible arm taken in the axial direction of the first metal valve seat. 10. The method of claim 1 , further comprising forcing the ball valve member in a closed position toward the first end cap responsive to a fluid force on the ball valve member, the ball valve member contacting the first metal valve seat and deforming the first metal flexible arm. 11. A valve seat formed by the method according to claim 1 . 12. A method of forming a seal in a ball valve, the method comprising: positioning a metal annular valve seat between a ball valve member and a valve body of the ball valve, a first side of a body portion of the valve seat positioned adjacent to the ball valve member; extending a flexible arm of the valve seat outward from a second side of the body portion of the valve seat, the body portion extending continuously in an axial direction between the first side and the second side, a majority of the flexible arm gradually extending axially outward from a second side of the body portion of the valve seat relative to a centerline of the valve seat from a base of the flexible arm at the body portion to a distal end of the flexible arm, the majority of the flexible arm having a uniform width and an aspect ratio between the length and the width of the flexible arm of at least 15:1 and less than 35:1, the body portion and the flexible arm being separated by a recess; forcing the valve seat into sealing contact with the valve body and the ball valve member with the flexible arm of the valve seat; overcoming a biasing force of the flexible arm of the valve seat with fluid pressure applied to the valve member to deform the flexible arm; compressing the valve seat with the valve member. 13. The method of claim 12 , further comprising abutting against the valve body with a stop extending axially from the valve seat; spacing a portion of the valve seat from the valve body with a recess between a radially outer portion of the flexible arm and the stop; and limiting an amount of displacement of the flexible arm by contacting the valve body with the stop. 14. The method of claim 13 , further comprising positioning a radially outer portion of the stop at a substantially similar diameter to an innermost portion of another recess extending between the flexible arm and another portion of the valve seat. 15. The method of claim 13 , further comprising positioning a radially inner portion of the stop at a similar diameter as a radially inner portion of the valve seat. 16. A valve seat formed by the method according to claim 12 . 17. A method of forming a seal in a ball valve, the method comprising: positioning a metal annular valve seat between a ball valve member and a valve body of the ball valve; extending a flexible arm of the valve seat outward from a body portion of the valve seat; forcing the valve seat into sealing contact with the valve body and the ball valve member with the flexible arm of the valve seat; selecting a majority of the flexible arm to exhibit a tapered shape where a proximal section of the flexible arm has a greater width taken in an axial direction of the valve seat than a width of a terminal end of the flexible arm taken in the axial direction of the valve seat, the body portion and the flexible arm of the valve seat being separated by a recess, a majority of the flexible arm exhibiting an aspect ratio between the length and the width of the flexible arm of at least 15:1 and less than 35:1; gradually extending the majority the flexible arm of the valve seat axially outward from a portion of the valve seat relative to a centerline of the valve seat from a base of the flexible arm at the body portion to a distal end of the flexible arm; overcoming a biasing force of the flexible arm of the valve seat with to the valve member as fluid pressure is applied to the valve member; and compressing the valve seat with the valve member.