RU2000124938A - LAMINATES (LAMINATED MATERIALS), REINFORCED BY GLASS FIBER, MOUNTED ELECTRONIC BOARDS AND METHODS OF ASSEMBLY - Google Patents

Claims (58)

1. A reinforced laminate for the backbone of electronic printed circuit boards, comprising a polymer matrix material, and a woven material comprising glass fiber strands at least partially coated with a coating compatible with the polymer matrix material, with annealing losses of 0.01 to 0.6 weight. % and transport tractive force under the action of an air stream is more than 100,000 gram-force per gram-mass of yarn, using a needle air-jet nozzle assembly including an internal air-jet chamber with a diameter of 2 mm and an outlet tube of a nozzle 20 cm long, with a yarn feed speed of 274 m / min and an air pressure of 310 kiloPascals, moreover, the laminate has a bending strength in the filling direction of more than 3 • 10 ⁷ kg / m ² .  2. The reinforced laminate according to claim 1, in which the polymer matrix material includes at least one material selected from the group consisting of thermoset matrix materials and thermoplastic matrix materials.  3. The reinforced laminate according to claim 2, in which the polymer matrix includes at least one thermosetting matrix material selected from the group consisting of thermosetting polyesters, vinyl esters, epoxides, phenolic compounds, amino plastics, thermosetting polyurethanes and mixtures thereof.  4. The reinforced laminate according to claim 3, in which the thermosetting material includes epoxide.  5. The reinforced laminate according to claim 2, in which the polymer matrix material includes at least one thermoplastic matrix material selected from the group consisting of polyolefins, polyamides, thermoplastic polyurethanes, thermoplastic polyesters, vinyl polymers, polyimides, polyethersulfones, polyphenylsulfones, polyether ketones, polyphenylene oxides, polyphenylene sulfides, polyacetals, polycarbonates and mixtures thereof.  6. The reinforced laminate according to claim 1, wherein the coating of the glass fibers of the woven material comprises a lubricant consisting of solid inorganic particles.  7. The reinforced laminate according to claim 6, in which the solid inorganic particles of the lubricant have a lamellar structure.  8. The reinforced laminate according to claim 6, in which the particles of solid inorganic lubricant include at least one particle selected from the group consisting of particles of non-hydratable solid inorganic lubricant, particles of hydratable solid inorganic lubricant and mixtures thereof.  9. The reinforced laminate according to claim 8, in which the particles of a non-hydratable solid inorganic lubricant include at least one particle selected from the group consisting of graphite, boron nitride, metal dichalcogenides, cadmium iodide, silver sulfide and mixtures thereof.  10. The reinforced laminate according to claim 9, wherein the particles of a non-hydratable solid inorganic lubricant include boron nitride particles having a hexagonal crystal structure.  11. The reinforced laminate according to claim 9, wherein the non-hydratable solid inorganic lubricant particles include at least one metal dichalcogenide selected from the group consisting of molybdenum disulphide, molybdenum diselinide, tantalum disulphide, tantalum disulide, tungsten disulphide, tungsten disulide and their mixtures.  12. The reinforced laminate according to claim 8, in which the particles of non-hydratable solid inorganic lubricants include at least one selected from the group consisting of indium, thallium, tin, copper, zinc, gold, silver, calcium carbonate, calcium fluoride zinc oxide and mixtures thereof.  13. The reinforced laminate of Claim 8, wherein the particles of hydratable solid inorganic lubricant include phyllosilicates.  14. The reinforced laminate according to claim 13, wherein the phyllosilicates include at least one phyllosilicate selected from the group consisting of mica, talc, gypsum, kaolinite, montmorillonite and mixtures thereof.  15. The reinforced laminate according to claim 8, in which the hardness of the particles of solid inorganic lubricant is less than or equal to the hardness of the E-glass fibers.  16. The reinforced laminate according to claim 1, wherein the coating of the glass fibers of the woven material includes a film-forming polymer.  17. The reinforced laminate according to claim 1, wherein at least one of the glass fibers is obtained from a fiber-forming material selected from the group consisting of non-glass inorganic materials, natural materials, organic polymeric materials, and combinations thereof. 18. The reinforced laminate according to claim 1, with a bending strength in the filling direction above 4.9 • 10 ⁷ kg / m ² .  19. A reinforced laminate for the backbone of electronic printed circuit boards, comprising a polymer matrix material, and a reinforced fabric material including fiberglass strands at least partially coated with a polymer matrix compatible coating material comprising (1) polyester; and (2) at least one polymer selected from the group consisting of vinylpyrrolidone polymers, vinyl alcohol polymers and starches.  20. The reinforced laminate according to claim 19, in which the polymer matrix material includes at least one material selected from the group consisting of thermoset matrix materials and thermoplastic matrix materials.  21. The reinforced laminate according to claim 20, in which the polymer matrix material includes at least one thermosetting matrix material selected from the group consisting of thermosetting polyesters, vinyl esters, epoxides, phenolic compounds, amino plastics, thermosetting polyurethanes and mixtures thereof.  22. The reinforced laminate of Claim 21, wherein the thermoset matrix material comprises epoxy.  23. The reinforced laminate according to claim 20, in which the polymer matrix material includes a thermoplastic matrix material selected from the group consisting of polyolefins, polyamides, thermoplastic polyurethanes, thermoplastic polyesters, vinyl polymers, polyimides, polyethersulfones, polyphenyl sulfones, polyethenylene oxides, polyphenylene oxides, polyphenylene oxides, polyphenylene oxides, polyphenylene oxides, polyphenylene oxides, polyphenylene oxides polyacetals, polycarbonates and mixtures thereof.  24. The reinforced laminate according to claim 19, wherein the coating of the glass fibers of the woven material further comprises solid inorganic lubricant particles.  25. The reinforced laminate according to claim 24, wherein the solid inorganic lubricant particles have a lamellar structure.  26. The reinforced laminate according to claim 24, wherein the solid inorganic lubricant particles include at least one particle selected from the group consisting of non-hydratable solid inorganic lubricant particles, hydratable solid inorganic lubricant particles and mixtures thereof.  27. The reinforced laminate according to claim 26, wherein the non-hydratable solid inorganic lubricant particles include at least one selected from the group consisting of graphite, boron nitride, metal dichalcogenides, cadmium iodide, silver sulfide and mixtures thereof.  28. The reinforced laminate according to claim 27, wherein the non-hydratable solid inorganic lubricant particles include boron nitride particles having a hexagonal structure.  29. The reinforced laminate according to claim 27, wherein the non-hydratable solid inorganic lubricant particles comprise at least one metal dichalcogenide selected from the group consisting of molybdenum disulfide.  30. The reinforced laminate according to claim 26, wherein the particles of a non-hydratable solid inorganic lubricant include at least one particle selected from the group consisting of indium, waist, tin, copper, zinc, gold, silver, calcium carbonate, calcium fluoride zinc oxide and mixtures thereof.  31. The reinforced laminate according to claim 26, wherein the particles of hydratable solid inorganic lubricant include phyllosilicates.  32. The reinforced laminate of Claim 31, wherein the phyllosilicates include at least one phyllosilicate selected from the group consisting of mica, talc, gypsum, kaolinite, montmorillonite, and mixtures thereof.  33. The reinforced laminate according to claim 24, wherein the hardness of the particles of solid inorganic lubricant is less than or equal to the hardness of the glass fibers.  34. The reinforced laminate according to claim 19, wherein the coating of the E-glass fibers of the woven material includes a film-forming polymer.  35. The reinforced laminate according to claim 19, wherein at least one of the glass fibers is obtained from a fiber-forming material selected from the group consisting of non-glass inorganic materials, natural materials, organic polymeric materials, and combinations thereof.  36. The reinforced laminate according to claim 19, in which the loss on ignition for the threads is 0.01-0.6 weight. %, the transport thrust force under the influence of an air stream is more than 100,000 g of force per gram mass of yarn when using a needle air-jet nozzle assembly with an internal air-jet chamber with a diameter of 2 mm and an outlet tube of a nozzle 20 cm long, at a yarn feed speed of 274 m / 1 min and pressure air 310 kPa. 37. Reinforced laminate according to claim 19, with bending strength in the filling direction of more than 3 • 10 ⁷ kg / m ² .  38. A reinforced laminate for the backbone of electronic printed circuit boards, comprising a polymer matrix material, and a reinforced fabric material including fiberglass strands at least partially coated with a polymer matrix compatible coating comprising (1) a polyester coating; and (2) a vinyl pyrrolidone polymer.  39. The reinforced laminate according to claim 38, wherein at least one of the glass fibers is selected from the group consisting of E-glass fibers, D-glass fibers, S-glass fibers, Q-glass fibers, fibers derived from E- glass and their combinations. 40. An electronic printed circuit board including a laminate for warp, including woven material, including fiberglass yarns, and the loss on ignition for yarns is 0.01-0.6 weight. % and the force of the transport thrust under the influence of an air stream is more than 100,000 g of force per gram mass of yarn, using a needle air-jet nozzle assembly with an internal air-jet chamber with a diameter of 2 mm and a nozzle exit tube with a length of 20 cm, at a yarn feed speed of 274 m / min and pressure air 310 kPa, and the laminate has a bending strength in the filling direction above 3 • 10 ⁷ kg / m ² and a layer of polymer matrix material deposited on at least part of the woven material; as well as an electrically conductive layer located on the necessary areas of the desired sides of the laminate.  41. An electronic circuit board including a base laminate, including a woven material, including filaments at least partially coated with a coating containing (1) polyester; and (2) at least one polymer selected from the group consisting of vinyl pyrrolidone polymers, vinyl alcohol polymers and starches, and a layer of polymer matrix material deposited on at least a portion of the woven material and an electrically conductive layer located on the required areas of the right sides of the laminate. 42. An electronic printed circuit board including a laminate for warp, comprising a first composite layer comprising a woven material including fiberglass yarns, wherein the loss on ignition for the yarns is 0.01-0.6 weight. % and the force of the transport thrust under the influence of an air stream is more than 100,000 g of force per gram mass of yarn, using a needle air-jet nozzle assembly with an internal air-jet chamber with a diameter of 2 mm and a nozzle exit tube with a length of 20 cm, at a yarn feed speed of about 274 m / min and an air pressure of 310 kilosPasquel, the laminate having a flexural strength in the filling direction above 3 • 10 ⁷ kg / m ² and a layer of polymer matrix material deposited on at least a portion of the woven material; and a second composite layer, different from the first composite layer; as well as an electrically conductive layer located on the necessary areas of the desired sides of the laminate.  43. An electronic circuit board comprising a base laminate comprising a first composite layer comprising a woven material including glass fiber strands at least partially coated with a coating comprising (A) polyester; and (B) at least one polymer selected from the group consisting of vinyl pyrrolidone polymers, vinyl alcohol polymers and starches; and a layer of polymer matrix material deposited on at least a portion of the woven material; and a second composite layer, different from the first composite layer, and an electrically conductive layer located on the necessary areas of the desired sides of the laminate.  44. The electronic printed circuit board according to claim 43, wherein at least one of the glass fibers is selected from the group consisting of E-glass fibers, D-glass fibers, S-glass fibers, Q-glass fibers, derivatives of E- glass and their combinations.  45. Electronic circuit board according to any one of paragraphs. 40-43 further comprising at least one hole passing through at least a portion of the printed circuit board.  46. Electronic circuit board, according to any one of paragraphs. 40-43, including the packaging of the first, second or third level. 47. Copper-clad reinforced laminate for the base of electronic printed circuit boards, comprising a polymer matrix material, and one or more layers of reinforced woven material, each layer comprising 30-75 weight. % fiberglass filaments, at least partially coated with a coating compatible with the polymer matrix material, the laminate having a coefficient of thermal expansion in / direction of the z axis of less than 4.5% at a temperature of 288 ^o C. 48. The laminate according to claim 47 with a coefficient of thermal expansion in the direction of the z axis, in the range of 1-4.5% at a temperature of 288 ^o C.  49. The laminate according to claim 47, wherein at least one of the glass fibers is selected from the group consisting of E-glass fibers, D-glass fibers, S-glass fibers, Q-glass fibers, fibers of E-glass derivatives, and their combinations.  50. The electronic circuit board of claim 47, further comprising at least one hole passing through at least a portion of the circuit board.  51. The electronic circuit board according to claim 47, including the packaging of the first, second or third level.  52. The laminate according to claim 47, wherein the laminate contains eight layers of woven fabric style 7628.  53. A method of producing a woven material by interlacing the first yarn with the second yarn to form a fabric, the method comprising: the first yarn comprising fiberglass is at least partially coated with a polyester compatible with the matrix matrix material; and (2) at least one polymer selected from the group consisting of vinylpyrrolidone polymers, vinyl alcohol polymers, starches and mixtures thereof.  54. The method according to p. 53, in which at least one of the glass fibers is selected from the group consisting of E-glass fibers, D-glass fibers, S-glass fibers, Q-glass fibers, fibers of E-glass derivatives and their combinations. 55. A method of producing a laminate from a woven material and a polymeric matrix material by at least partially coating the woven material with a polymeric matrix material to obtain a coated woven material and applying heat to the woven material, the woven material comprising fiberglass yarns, which : the glass fiber is at least partially coated with a coating compatible with the polymer matrix material, wherein the loss on ignition for the filaments is 0.01-0.6 weight. % and the force of the transport thrust under the influence of an air stream is more than 100,000 g of force per gram mass of yarn, using a needle air-jet nozzle assembly having an internal air-jet chamber with a diameter of 2 mm and an outlet tube of the nozzle 20 cm long at a yarn feed speed of 274 m / min and air pressure of about 310 kPa, and the laminate has a bending strength in the filling direction of more than 3 • 10 ⁷ kg / m ² .  56. The method of claim 55, wherein at least one of the glass fibers is selected from the group consisting of E-fibers of E-glass, fibers of D-glass, fibers of S-glass, fibers of Q-glass, fibers of derivatives E- glass and their combinations.  57. A method of producing a laminate from a woven material and a polymeric matrix material by at least partially coating the woven material with a polymeric matrix material to produce a coated woven material and applying heat to this woven material, the woven material comprising fiberglass yarns, the method comprising that: fiberglass is at least partially coated with a coating compatible with the polymer matrix material, including polyester; and (2) at least one polymer selected from the group consisting of vinylpyrrolidone polymers, vinyl alcohol polymers and starches.  58. The laminate according to claim 57, wherein at least one of the glass fibers is selected from the group consisting of E-fibers of E-glass, fibers of D-glass, fibers of S-glass, fibers of Q-glass, fibers of derivatives E- glass and their combinations.