RU2001110374A - FOAM PLASES APPLICABLE WHEN OPERATING WITH SOUND - Google Patents

Claims (83)

1. Cellular foamed polymer thermoplastic having an average cell diameter of more than 4 mm  2. A cellular foamed polymer thermoplastic having an average cell diameter of more than 2 mm, in which more than 50% of the cells are opened by mechanical means.  3. The cellular foamed polymer thermoplastic according to claim 2, wherein the average mesh size exceeds 3 mm.  4. The cellular foamed polymer thermoplastic according to claim 3, in which the average cell size exceeds 4 mm.  5. A cellular foamed polymer thermoplastic, the airflow resistance of which is less than 800,000 rail / m, and the average cell diameter is more than 2 mm, in which more than 50% of the cells are opened by mechanical means.  6. The cellular foamed polymer thermoplastic according to claim 5, wherein the average mesh size exceeds 3 mm.  7. The cellular foamed polymer thermoplastic according to claim 6, wherein the average mesh size exceeds 4 mm.  8. The cellular foam polymer thermoplastic according to claim 5, the airflow resistance of which is less than 400,000 rail / m.  9. The cellular foamed polymer thermoplastic according to claim 6, the air flow resistance of which is less than 400,000 rail / m.  10. The cellular foamed polymer thermoplast according to claim 7, the airflow resistance of which is less than 400,000 rail / m.  11. The cellular foamed polymer thermoplastic according to claim 5, the airflow resistance of which is less than 100,000 rail / m.  12. The cellular foam polymer thermoplastic according to claim 6, the airflow resistance of which is less than 100,000 rail / m.  13. The cellular foamed polymer thermoplastic according to claim 7, the airflow resistance of which is less than 100,000 rail / m.  14. The cellular foamed polymer thermoplastic according to claim 5, the airflow resistance of which is less than 50,000 rail / m.  15. The cellular foamed polymer thermoplastic according to claim 6, the air flow resistance of which is less than 50,000 rail / m.  16. The cellular foamed polymer thermoplast according to claim 7, the airflow resistance of which is less than 50,000 rail / m.  17. The cellular foamed polymer thermoplastic according to claim 1, also comprising a flame retardant.  18. The cellular foamed polymer thermoplastic according to claim 1, which is formed into a profile having low dynamic stiffness.  19. The cellular foamed polymer thermoplastic according to claim 1, which is obtained from an olefin polymer.  20. The cellular foamed polymer thermoplastic of claim 19, wherein the olefin polymer is selected from ethylene polymers, copolymers, or mixtures thereof.  21. The cellular foamed polymer thermoplastic of claim 19, wherein the olefin polymer is polypropylene.  22. The cellular foam polymer thermoplastic of claim 19, wherein the olefin polymer is a mixture of polypropylene and an ethylene-styrene copolymer.  23. The cellular foam polymer thermoplastic of claim 20, wherein the ethylene polymer is low density polyethylene.  24. The cellular foam polymer thermoplastic of claim 20, wherein the ethylene polymer is a mixture of low density polyethylene and ethylene-styrene copolymer.  25. The cellular foamed polymer thermoplast according to claim 24, wherein the ethylene-styrene copolymer has a styrene content of at least 60% by weight.  26. The cellular foamed polymer thermoplastic according to claim 24, wherein the mixture of low density polyethylene and ethylene-styrene copolymer contains at least 50 wt. low density polyethylene.  27. The cellular foam polymer thermoplastic of claim 18, wherein the profile includes a core of cellular foam thermoplastic, to which narrow strips of the same or different cellular foam polymer thermoplastic are alternately attached to opposite sides of the foam core.  28. The cellular foam polymer thermoplast according to claim 27, wherein the distance between the midpoints of the narrow stripes of the cellular foam polymer thermoplast is at least 250 mm.  29. The cellular foam polymer thermoplast according to claim 28, wherein the distance between the midpoints of the narrow strips of the cellular foam thermoplast on the same side of the foam core is from 300 mm to 600 mm.  30. The cellular foam polymer thermoplastic according to claim 18, wherein the profile includes a core of cellular foam thermoplastic to which narrow strips of the same or different structure of the cellular foam thermoplastic are attached to the same side and opposite ends of the foam core.  31. The cellular foamed polymer thermoplastic of claim 30, wherein the distance between the midpoints of the narrow strips is at least 350 mm.  32. The cellular foam polymer thermoplastic according to claim 31, wherein the distance between the midpoints of the narrow strips is from 450 to 600 mm.  33. The cellular foamed polymer thermoplastic according to claim 2, which is formed into a profile having low dynamic stiffness.  34. The cellular foam polymer thermoplastic according to claim 33, wherein the profile includes a core of cellular foam thermoplastic, to which narrow strips of the same or another cellular foam polymer thermoplastic are alternately attached to opposite sides of the foam core.  35. The cellular foam polymer thermoplast according to claim 34, wherein the distance between the midpoints of the narrow stripes of the cellular foam polymer thermoplast is at least 250 mm.  36. The cellular foamed polymer thermoplastic according to claim 35, wherein the distance between the midpoints of the narrow strips of the cellular foamed thermoplastic on the same side of the foamed core is from 300 to 600 mm.  37. The cellular foam polymer thermoplastic according to claim 33, wherein the profile includes a core of cellular foam thermoplastic to which narrow strips of the same or different structure of the cellular foam thermoplastic are attached to the same side and opposite ends of the foam core.  38. The cellular foam polymer thermoplastic of claim 37, wherein the distance between the midpoints of the narrow strips is at least 350 mm.  39. The cellular foam polymer thermoplastic of claim 38, wherein the distance between the midpoints of the narrow strips is from 450 to 600 mm.  40. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26, which can be obtained by extruding a foaming gel comprising a thermoplastic polymer containing a foaming agent introduced into it through a die into a low-pressure zone under atmospheric or subatmospheric pressure.  41. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26, which is obtained by extrusion, the cells have an elongated shape, and the orientation of the elongation of the cells has an extrusion direction.  42. The cellular foamed polymer thermoplastic according to claim 41, having closed cells.  43. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26 in the form of an adhered strip.  44. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1, 17-26, having a portion of previously closed cells that are opened mechanically.  45. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26 in the form of non-crosslinked granules.  46. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26, in which the polymer is grafted with vinyl-functional or azido-functional silane.  47. The cellular foamed polymer thermoplastic according to any one of paragraphs. 1 and 17-26, which is subjected to crosslinking.  48. A cellular foam polymer thermoplastic having an average cell diameter of more than 2 mm, in which more than 50% of the cells are opened by mechanical means in accordance with ASTM D2856, procedure C. 49. A method of obtaining a structure of a cellular foamed polymer thermoplastic, comprising the following stages:
a) obtaining the first structure of a cellular foamed polymer thermoplastic with an average cell diameter of 2 to 15 mm, in which at least some part of the cells is closed; and
b) the use of means for opening closed cells in a cellular foamed polymer thermoplastic to at least some part of at least one surface of said first structure of a foamed polymeric thermoplastic, and this application is sufficient to obtain a structure of a cellular foamed polymeric thermoplastic having the average cell diameter is from 2 to 15 mm, in which more than 50% of the cells are opened by means for opening closed cells in a cellular foamed polymer thermoplastic.  50. The method according to p. 49, in which the first structure of the cellular foamed polymer thermoplastic has essentially closed cells.  51. The method according to p. 49, in which the first structure of the cellular foamed polymer thermoplastic has essentially open cells.  52. The method according to p. 49, in which the first structure of the cellular foamed polymer thermoplastic has an average cell diameter of from 2 to 10 mm  53. The method according to p. 52, in which the first structure of the cellular foamed polymer thermoplastic has an average cell diameter of 3 to 10 mm.  54. The method according to p. 53, in which the first structure of the cellular foamed polymer thermoplastic has an average cell diameter of from 4 to 8 mm  55. The method according to p. 49, in which the first structure of a cellular foamed polymer thermoplastic is obtained from an olefin polymer.  56. The method of claim 55, wherein the olefin polymer is selected from ethylene polymers, copolymers, or mixtures thereof.  57. The method of claim 55, wherein the olefin polymer is polypropylene.  58. The method of claim 55, wherein the olefin polymer is a mixture of polypropylene and an ethylene-styrene copolymer.  59. The method according to p. 56, in which the ethylene polymer is a low density polyethylene.  60. The method according to p. 56, in which the ethylene polymer is a mixture of low density polyethylene and ethylene-styrene copolymer.  61. The method according to p. 60, in which the ethylene-styrene copolymer has a styrene content of at least 60% wt.  62. The method according to p. 60, in which the mixture of low density polyethylene and ethylene-styrene copolymer contains at least 50% wt. low density polyethylene.  63. The method according to p. 49, in which more than 70% of the cells of the structure of the cellular foam polymer thermoplastics are opened by means for opening the closed cells in the cellular foam polymer thermoplastics.  64. The method according to p. 49, in which more than 90% of the cells of the structure of the cellular foam polymer thermoplastics are opened by means for opening the closed cells in the cellular foam polymer thermoplastics.  65. The method according to p. 49, in which the resistance value of the structure of the cellular foamed polymer thermoplastic to the air flow is less than 800,000 rail / m.  66. The method according to p. 65, in which the resistance value of the structure of the cellular foamed polymer thermoplast to the air flow is less than 400,000 rail / m  67. The method according to p. 66, in which the resistance value of the structure of the cellular foamed polymer thermoplastic to the air flow is less than 100,000 rail / m  68. The method according to p. 67, in which the resistance value of the structure of the cellular foamed polymer thermoplastic to the air flow is less than 50,000 rail / m.  69. The method of claim 49, wherein said opening means is selected from perforation, slicing, compression, or a combination thereof.  70. The method of claim 69, wherein said opening means comprises slicing.  71. The method of claim 69, wherein said opening means comprises compression.  72. The method of claim 71, wherein said opening means is perforation followed by compression.  73. The method of claim 69, wherein said opening means comprises perforation.  74. The method according to p. 73, in which the perforation includes one or more square structures.  75. The method according to p. 73, in which the perforation is carried out in the form of one or more triangles.  76. The method according to p. 73, in which the means for opening are a compression followed by perforation.  77. The method according to p. 73, in which the perforation is carried out by a method that results in holes that are spaced from each other at a distance that is no more than two times the average cell diameter in the first structure of a cellular foam polymer thermoplastic.  78. The method according to p. 77, in which the perforation is carried out by a method that results in holes that are spaced from each other at a distance that is no more than 1.5 times the average cell diameter in the first structure of a cellular foam polymer thermoplastic.  79. The method according to p. 78, in which the perforation is carried out by a method that leads to the receipt of holes located from each other at a distance approximately equal to the average diameter of the cells in the first structure of a cellular foamed polymer thermoplastic.  80. The method according to p. 78, in which the perforation is carried out by a method that leads to the receipt of holes located from each other at a distance less than the average diameter of the cells in the first structure of a cellular foamed polymer thermoplastic.  81. The method according to p. 73, in which the perforation includes punching the first structure of a cellular foamed polymer thermoplastic with one or more pointed objects.  82. The method of claim 81, wherein the spiky objects are selected from needles, pins, spikes, or nails.  83. The method according to p. 80, in which the perforation includes punching the first structure of a cellular foamed polymer thermoplastic by drilling, laser cutting, liquid cutting under high pressure, as well as using air guns or shells.