Electrical Submersible Pump with Motor Winding Encapsulated in Bonded Ceramic

1 . An electrical submersible pumping (“ESP”) assembly comprising: a pump driven by an electrical motor; the motor having a stack of stator laminations, the stator laminations having slots formed therethrough; magnet wires wound through the slots; and an encapsulate that bonds the magnet wires within each of the slots together, the encapsulate comprising ceramic particles bonded together within a polymer matrix. 2 . The ESP assembly of claim 1 , wherein the ceramic particles have a size of 20 mesh to 140 mesh. 3 . The ESP assembly of claim 1 , wherein the polymer matrix comprises a fluoropolymer that is selected from a group consisting of perfluoroalkoxy (“PFA”), fluorinated ethylene propylene (“FEP”), polytetrafluoroethylene (“PTFE”), and combinations thereof. 4 . The ESP assembly of claim 1 , wherein each of the magnet wires comprises an electrical insulation layer surrounding a copper core. 5 . The ESP assembly of claim 1 , wherein the ceramic particles are generally spherical. 6 . The ESP assembly of claim 1 , wherein each of the ceramic particles has a cross-sectional area much smaller than a cross-sectional area of each of the magnet wires. 7 . The ESP assembly of claim 1 , wherein: each of the slots has a perimeter; and at least some of the magnet wires are in contact with the perimeter. 8 . The ESP assembly of claim 1 , wherein: the polymer matrix fills all voids within each of the slots. 9 . The ESP assembly of claim 1 , wherein: the polymer matrix is formed of an electrical insulation material. 10 . The ESP assembly of claim 1 , wherein the ceramic particles are porous. 11 . An electrical submersible pumping (ESP) assembly, comprising: a pump driven by an electrical motor, the motor comprising: a housing having a longitudinal axis; a slack of stator laminations stacked on each other within the housing, the stack of stator laminations having an axial opening and a plurality of slots spaced circumferentially around the opening; magnet wires wound through each of the slots in the stack, each of the magnet wires having a conductive core encased in an electrical insulation layer; a polymer matrix of an electrical insulation material bonding the magnet wires within each of the slots together; and ceramic particles dispersed throughout and bonded within the polymer matrix. 12 . The ESP assembly according to claim 11 , wherein: the polymer matrix comprises a fluoropolymer adhesive. 13 . The ESP assembly according to claim 11 , wherein: the ceramic particles have a size of 20 mesh to 140 mesh. 14 . The ESP assembly of claim 11 , wherein the polymer matrix comprises a fluoropolymer that is selected from a group consisting of perfluoroalkoxy (“PFA”), fluorinated ethylene propylene (“FEP”), polytetrafluoroethylene (“PTFE”), and combinations thereof. 15 . The ESP assembly of claim 11 , wherein the ceramic particles are generally spherical. 16 . The ESP assembly of claim 11 , wherein: each of the slots has a perimeter; at least some of the magnet wires are in contact with the perimeter; and a portion of the polymer matrix is in contact with the perimeter. 17 . An electrical submersible pumping (ESP) assembly, comprising: a pump driven by an electrical motor, the motor comprising: a housing having a longitudinal axis; a stack of stator laminations stacked on each other within the housing; the stack of stator laminations having an axial opening and a plurality of slots spaced circumferentially around the opening; magnet wires wound through each of the slots in the stack, each of the magnet wires having a conductive core encased in an electrical insulation layer; a rotor extending along the axis through the opening in the stack; a fluoropolymer adhesive matrix bonding all of the magnet wires within each of the slots together; and ceramic particles dispersed throughout and bonded within the fluoropolymer adhesive matrix, each of the ceramic particles being generally spherical and having a much smaller cross-sectional than each of the magnet wires. 18 . The ESP assembly of claim 17 , wherein the fluoropolymer adhesive matrix comprises a fluoropolymer that is selected from a group consisting of perfluoroalkoxy (“PFA”), fluorinated ethylene propylene (“FEP”), polytetrafluoroethylene (“PTFE”), and combinations thereof. 19 . The ESP assembly of claim 17 , wherein: each of the slots has a perimeter; at least some of the magnet wires are in contact with the perimeter; and the fluoropolymer adhesive matrix is bonded to the perimeter and fills all voids in each of the slots. 20 . The ESP assembly of claim 17 , wherein: the ceramic particles are porous.