A cylinder heater useful in fabricating sleeves for high pressure pump liners comprises a support rotatably supporting a hollow circular cylinder having a metallic powder layer contacting a portion of its inner surface. A vibration sensor indicates vibration of the cylinder, and at least one tempera
A cylinder heater useful in fabricating sleeves for high pressure pump liners comprises a support rotatably supporting a hollow circular cylinder having a metallic powder layer contacting a portion of its inner surface. A vibration sensor indicates vibration of the cylinder, and at least one temperature sensor indicates at least one temperature of the cylinder. At least one circumferential induction heating coil around the cylinder is positionable via the support along the longitudinal axis of cylinder rotation. Longitudinal position and power output of at least one heating coil, and cylinder rotational speed, are adjusted by a controller communicating with the support, the vibration sensor, at least one temperature sensor, and at least one heating coil. Controlled heating of the cylinder and the metallic powder layer results in a stratified abrasion-resistant fused metallic layer on the cylinder's inner surface. The fused layer may be honed to make a liner sleeve.
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1. A cylinder heater comprising a hollow circular cylinder symmetrical about a longitudinal axis and having a first end, a second end, a cylinder length between said first and second ends, a first inner surface having a first inner diameter adjacent said first end, a second inner surface having a se
1. A cylinder heater comprising a hollow circular cylinder symmetrical about a longitudinal axis and having a first end, a second end, a cylinder length between said first and second ends, a first inner surface having a first inner diameter adjacent said first end, a second inner surface having a second inner diameter adjacent said second end, and a third inner surface having a third inner diameter between said first inner surface and said second inner surface;a support for rotating said hollow circular cylinder about said longitudinal axis at a plurality of predetermined rotational speeds;a metallic powder layer contacting said third inner surface;a vibration sensor coupled to said hollow circular cylinder for indicating a vibration level of said hollow circular cylinder;at least one temperature sensor for indicating at least one temperature of said hollow circular cylinder;at least one circumferential induction heating coil around said hollow circular cylinder for heating said hollow circular cylinder and said metallic powder layer, each said circumferential induction heating coil being movably coupled to said support and having a coil length along said longitudinal axis, and each said circumferential induction heating coil being longitudinally positionable over a plurality of predetermined portions of said hollow circular cylinder;a controller communicating with said vibration sensor, at least one said temperature sensor, said support, and at least one said circumferential induction heating coil, said controller controlling longitudinal positioning and power output from at least one said circumferential induction heating coil, and said controller controlling rotational speed of said hollow circular cylinder;wherein said third inner diameter exceeds said first inner diameter and said second inner diameter; andwherein said metallic powder layer comprises at least one abrasion-resistant material and at least one cement, each said abrasion-resistant material having greater density than each said cement. 2. The cylinder heater of claim 1 wherein said first inner diameter equals said second inner diameter. 3. The cylinder heater of claim 2 wherein said third inner diameter exceeds said first inner diameter by about 0.1 inches. 4. The cylinder heater of claim 1 wherein said hollow circular cylinder has a nonuniform metallic composition radially. 5. The cylinder heater of claim 1 wherein said predetermined rotational speeds are between about 600 rpm and about 1000 rpm. 6. The cylinder heater of claim 1 wherein each said coil length is between about 20% and about 40% of said cylinder length. 7. The cylinder heater of claim 1 wherein said metallic powder layer comprises tungsten carbide. 8. A cylinder heater comprising a hollow circular cylinder symmetrical about a longitudinal axis and having a first end, a second end, a cylinder length between said first and second ends, a first inner surface having a first inner diameter adjacent said first end, a second inner surface having a second inner diameter adjacent said second end, and a third inner surface having a third inner diameter between said first inner surface and said second inner surface;a support for rotating said hollow circular cylinder about said longitudinal axis at a plurality of predetermined rotational speeds;a metallic powder layer substantially symmetrical about said longitudinal axis and contacting said third inner surface;a vibration sensor coupled to said hollow circular cylinder for indicating a vibration level of said hollow circular cylinder;at least one temperature sensor for indicating at least one temperature of said hollow circular cylinder;at least one circumferential induction heating coil around said hollow circular cylinder for heating said hollow circular cylinder and said metallic powder layer, each said circumferential induction heating coil being movably coupled to said support and having a coil length along said longitudinal axis, and each said circumferential induction heating coil being longitudinally positionable over a plurality of predetermined portions of said hollow circular cylinder;a controller communicating with said vibration sensor, at least one said temperature sensor, said support, and at least one said circumferential induction heating coil, said controller controlling longitudinal positioning and power output from at least one said circumferential induction heating coil, and said controller controlling rotational speed of said hollow circular cylinder;wherein said third inner diameter exceeds said first inner diameter and said second inner diameter; andwherein said metallic powder layer comprises at least one abrasion-resistant material and at least one cement, each said abrasion-resistant material having greater density than each said cement. 9. The cylinder heater of claim 8 wherein said first inner diameter equals said second inner diameter. 10. The cylinder heater of claim 9 wherein said third inner diameter exceeds said first inner diameter by about 0.1 inches. 11. The cylinder heater of claim 8 wherein said coaxial inner sleeve comprises 8620 steel. 12. The cylinder heater of claim 8 wherein said predetermined rotational speeds are between about 600 rpm and about 1000 rpm. 13. The cylinder heater of claim 8 wherein each said coil length is between about 20% and about 40% of said cylinder length. 14. The cylinder heater of claim 8 wherein said metallic powder layer comprises tungsten carbide. 15. A cylinder heater comprising a hollow circular cylinder symmetrical about a longitudinal axis and having a first end, a second end, a cylinder length between said first and second ends, a first inner surface having a first inner diameter adjacent said first end, a second inner surface having a second inner diameter adjacent said second end, and a third inner surface having a third inner diameter between said first inner surface and said second inner surface;a support for rotating said hollow circular cylinder about said longitudinal axis at a plurality of predetermined rotational speeds;a metallic powder layer substantially symmetrical about said longitudinal axis and contacting said third inner surface;a vibration sensor coupled to said hollow circular cylinder for indicating a vibration level of said hollow circular cylinder;at least one temperature sensor for indicating at least one temperature of said hollow circular cylinder;a first circumferential induction heating coil and a second circumferential induction heating coil around said hollow circular cylinder for heating said hollow circular cylinder and said metallic powder layer, each said circumferential induction heating coil being movably coupled to said support, and said first and second circumferential induction heating coils having first and second coil lengths respectively along said longitudinal axis, each said circumferential induction heating coil being longitudinally positionable over a plurality of predetermined portions of said hollow circular cylinder;a controller communicating with said vibration sensor, at least one said temperature sensor, said support, and at least one said circumferential induction heating coil, said controller controlling longitudinal positioning and power output from at least one said circumferential induction heating coil, and said controller controlling rotational speed of said hollow circular cylinder;wherein said third inner diameter exceeds said first inner diameter and said second inner diameter;wherein said metallic powder layer comprises at least one abrasion-resistant material and at least one cement, each said abrasion-resistant material having greater density than each said cement. 16. The cylinder heater of claim 15 wherein said first inner diameter equals said second inner diameter. 17. The cylinder heater of claim 16 wherein said third inner diameter exceeds said first inner diameter by about 0.1 inches. 18. The cylinder heater of claim 15 wherein said coaxial inner sleeve comprises 8620 steel. 19. The cylinder heater of claim 15 wherein said predetermined rotational speeds are between about 600 rpm and about 1000 rpm. 20. The cylinder heater of claim 15 wherein said metallic powder layer comprises tungsten carbide.
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