Injection molding systems and methods useful for making microcellular foamed materials are provided as well as microcellular articles. Pressure drop rate and shear rate are important features in some embodiments, and the invention provides systems for controlling these parameters in an injection mol
Injection molding systems and methods useful for making microcellular foamed materials are provided as well as microcellular articles. Pressure drop rate and shear rate are important features in some embodiments, and the invention provides systems for controlling these parameters in an injection molding system. Another aspect involves an injection molding system including a nucleator that is upstream of a pressurized mold. Another aspect involves an extrusion system with the reciprocating screw for forming a single phase solution of non-nucleated blowing agent and polymeric material. Another aspect involves very thin walled microcellular material and very thin walled polymeric material. Another aspect provides a method for producing high weight reductions in very thin-walled parts with surfaces that have no noticeable differences from non-foamed parts.
대표청구항▼
1. An article comprising:a molded microcellular polymeric article formed by urging a flowable material into a molding chamber and allowing the microcellular article to form therein having a shape essentially identical to that of the molding chamber, including at least one portion having a cross-sect
1. An article comprising:a molded microcellular polymeric article formed by urging a flowable material into a molding chamber and allowing the microcellular article to form therein having a shape essentially identical to that of the molding chamber, including at least one portion having a cross-sectional dimension of no more than about 0.125 inch. 2. An article as in claim 1, having a void volume of at least about 5%.3. An article as in claim 1, having a void volume of at least about 10%.4. An article as in claim 1, having a void volume of at least about 15%.5. An article as in claim 1, having a void volume of at least about 20%.6. An article as in claim 1, having a void volume of at least about 25%.7. An article as in claim 1, having a void volume of at least about 30%.8. An article as in claim 1, the article having a surface, corresponding to an interior surface of a molding chamber, that is free of splay and swirl visible to the naked human eye.9. An article as in claim 1, having a void volume of at least about 50%.10. An article as in claim 1, including residual chemical blowing agent or reaction by-product of chemical blowing agent in an amount less than that inherently found in articles blown with about 0.1 percent by weight chemical blowing agent or more.11. An article as in claim 1, including at least one portion having a cross-sectional dimension of no more than about 0.100 inch.12. An article as in claim 1, including at least one portion having a cross-sectional dimension of no more than about 0.075 inch.13. An article as in claim 1, including at least one portion having a cross-sectional dimension of no more than about 0.050 inch.14. An article as in claim 1, including at least one portion having a cross-sectional dimension of no more than about 0.025 inch.15. An article as in claim 1, including at least one portion having a cross-sectional dimension of no more than about 0.010 inch.16. An article as in claim 1, having an average cell size of less than about 100 microns.17. An article as in claim 1, having an average cell size of less than about 30 microns.18. An article as in claim 1, having a maximum cell size of about 50 microns.19. An article as in claim 1, having a maximum cell size of about 5 microns.20. An article as in claim 1, wherein the microcellular material is essentially closed-cell.21. An article comprising:a three-dimensional microcellular polymeric article formed by urging a flowable material into a molding chamber and allowing the microcellular article to form therein, the article having three intersecting, principal axes corresponding to the three dimensions, one of the dimensions associated with a first axis varying as a function of position along a second, perpendicular axis, the article including at least one portion having a cross-sectional dimension of no more than about 0.125 Inch. 22. An article as in claim 1, wherein the article is injection-molded.23. An article as in claim 1, wherein the article is form ed by urging a thermoplastic polymer into a mold and allowing the article to form therein.24. An article comprising:a molded microcellular polymeric foam article including at least one portion having a cross-sectional dimension of no more than-about 0.075 inch and a void volume of at least about 5%. 25. An article as in claim 24, having a void volume of at least about 10%.26. An article as in claim 24, having a void volume of at least about 15%.27. An article as in claim 24, having a void volume of at least about 20%.28. An article as in claim 24, having a void volume of at least about 30%.29. An article as in claim having a void volume of at least about 40%.30. An article as in claim 24, having a void volume of at least about 50%.31. An article as in claim 24, including at least one portion having a cross-sectional dimension of no more than about 0.050 inch.32. An article as in claim 24, including at least one portion having a cross-sectional dimension of no more than about 0.025 inch.33. An article as in claim 24, including at least one portion having a cross-sectional dimension of no more than about 0.010 inch.34. An article as in claim 24, wherein at least 25% of the area of the article comprises said portion.35. An article as in claim 24, wherein at least 50% of the area of the article comprises said portion.36. An article as in claim 24, wherein 100% of the area of the article comprises said portion.37. An article comprising:a molded microcellular polymeric foam article including at least one portion having a cross-sectional dimension of between about 0.075 inch and about 0.125 inch and a void volume of at least about 10%. 38. An article as in claim 37, having a void volume of at least about 20%.39. An article as in claim 37, having a void volume of at least about 30%.40. An article as in claim 37, having a void volume of at least about 40%.41. An article as in claim 37, having a void volume of at least about 50%.42. An article as in claim 37, wherein at least 25% of the area of the article comprises said portion.43. An article as in claim 37, wherein at least 50% of the area of the article comprises said portion.44. An article as in claim 37, wherein 100% of the area of the article comprises said portion.45. An article comprising:a molded microcellular polymeric foam article including at least one portion having a cross-sectional dimension of between about 0.125 inch and about 0.150 inch and a void volume of at least about 15%. 46. An article as in claim 45, having a void volume of at least about 20%.47. An article as in claim 45, having a void volume of at least about 30%.48. An article as in claim 45, having a void volume of at least about 40%.49. An article as in claim 45, having a void volume of at least about 50%.50. An article as in claim 45, wherein at least 25% of the area of the article comprises said portion.51. An article as in claim 45, wherein at least 50% of the area of the article comprises said portion.52. An article as in claim 45, wherein 100% of the area of the article comprises said portion.53. An article comprising:a molded microcellular polymeric foam article including at least one portion having a cross-sectional dimension of between about 0.150 inch and about 0.350 inch and a void volume of at least about 20%. 54. An article as in claim 53, having a void volume of at least about 30%.55. An article as in claim 53, having a void volume of at least about 40%.56. An article as in claim 53, having a void volume of at least about 50%.57. An article as in claim 53, having a void volume of at least about 60%.58. An article as in claim 53, having a void volume of at least about 70%.59. An article as in claim 53, wherein at least 25% of the area of the article comprises said portion.60. An article as in claim 53, wherein at least 50% of the area of the article comprises said portion.61. An article as in claim 53, wherein 100% of the area of the article comprises said portion.62. An article as in claim 53, wherein the article includes at least one portion having a cross-sectional dimension of between about 0.150 inch and about 0.200 inch.63. An article comprising:a molded microcellular polymeric article including a plurality of cells wherein at least 70% of the total number of cells have a cell size of less man 150 microns and a portion having a cross-sectional dimension of no more than about 0.125 inch. 64. An article as in claim 63, wherein less than 20% of the total number of cells have a cell size of greater than 800 microns.65. An article as in claim 63, wherein less than 20% of the total number of cells have a cell size of greater than 500 microns.66. An article as in claim 63, wherein less than 20% of the total number of cells have a cell size of greater than 200 microns.67. An article as in claim 63, having a void volume of at least 10%.68. An article as in claim 63, having a void volume of at least 20%.69. An article as in claim 63, having a void volume of at least 30%.70. An article as in claim 63, having a void volume of at least 40%.71. An article as in claim 63, having a void volume of at least 50%.72. An article as in claim 63, wherein at least 80% of the total number of cells have a cell size of less than 150 microns.73. An article as in claim 63, wherein at 90% of the total number of cells have a cell size of less than 150 microns.74. An article as in claim 63, wherein at least 95% of the total number of cells have a cell size of less than 150 microns.75. An article as in claim 63, wherein at least 99% of the total number of cells have a cell size of less than 150 microns.76. An article as in claim 63, wherein at least 70% of the total number of cells have a cell size of less than 1100 microns.77. An article as in claim 63, wherein at least 80% of the total number of cells have a cell size of less than 100 microns.78. An article as in claim 63, wherein at least 90% of the total number of cells have a cell size of less than 100 microns.79. An article as in claim 63, wherein at least 95% of the total number of cells have a cell size of less than 100 microns.80. An article as in claim 63, wherein at least 99% of the total number of cells have a cell size of less than 100 microns.81. An article comprising:a three dimensional microcellular polymeric foam article having three intersecting, principal axes corresponding to the three dimensions, one of the dimensions associated with a first axis varying as a function of position along a second, perpendicular axis, the article including at least one portion having a cross-sectional dimension of no more than about 0.125 inch, the article having a void volume of at least about 20%. 82. An article as in claim 1, having a cell density of greater than at least 106 cells per cubic centimeter.83. An article as in claim 1, having an average cell size of less than 50 micron.84. An article as in claim 1, having a length-to-thickness ratio of at least about 75:1.85. An article as in claim 1, having a length-to-thickness ratio of at least about 150:1.86. An article as in claim 1, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.87. An article as in claim 1, having a section of less than 0.100 inch, the section having a strength-to-density ratio of at least about 280,000 psi/g/cubic centimeter.88. An article as in claim 1, wherein the article is a molded microcellular thermoplastic elastomeric article.89. An article as in claim 1, including an outer skin having a thickness of at least three times an average cell size of the article.90. An article as in claim 1, comprising two dissimilar polymeric materials.91. An article as in claim 24, having a cell density of greater than at least 106 cells per cubic centimeter.92. An article as in claim 24, having an average cell size of less than 50 micron.93. An article as in claim 24, having an average cell size of less than 100 micron.94. An article as in claim 24, having a length-to-thickness ratio of at least about 75:1.95. An article as in claim 24, having a length-to-thickness ratio of at least about 150:1.96. An article as in claim 24, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.97. An article as in claim 24, wherein the polymeric foam article is a molded microcellular thermoplastic elastomeric foam article.98. An article as in claim 24, wherein the article is a molded microcellular thermoplastic foam article.99. An article as in claim 24, wherein the article is an injection-molded microcellular polymeric foam article.100. An article as in claim 24, including an outer skin having a thickness of at least three times an average cell size of the article.101. An article as in claim 24, comprising two dissimilar polymeric materials.102. An article as in claim 24, wherein the article is essentially closed-cell.103. An article as in claim 37 having a cell density of greater than at least 106 cells per cubic centimeter.104. An article as in claim 37, having an average cell size of less than 50 micron.105. An article as in claim 37, having an average cell size of less than 100 micron.106. An article as in claim 37, having a length-to-thickness ratio of at least about 75:1.107. An article as in claim 37, having a length-to-thickness ratio of at least about 150:1.108. An article as in claim 37, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.109. An article as in claim 37, wherein the polymeric foam article is a molded microcellular thermoplastic elastomeric foam article.110. An article as in claim 37, wherein the article is a molded microcellular thermoplastic foam article.111. An article as in claim 37, wherein the article is an injection-molded microcellular polymeric foam article.112. An article as in claim 37, including an outer skin having a thickness of at least three times an average cell size of the article.113. An article as in claim 37, comprising two dissimilar polymeric materials.114. An article as in claim 37, wherein the article is essentially closed-cell.115. An article as in claim 45, having a cell density of greater than at least 106 cells per cubic centimeter.116. An article as in claim 45, having an average cell size of less than 50 micron.117. An article as in claim 45, having an average cell size of less than 100 micron.118. An article as in claim 45, having a length-to-thickness ratio of at least about 75:1.119. An article as in claim 45, having a length-to-thickness ratio of at least about 130:1.120. An article as in claim 45, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.121. An article as in claim 45, wherein the polymeric foam article is a molded microcellular thermoplastic elastomeric foam article.122. An article as in claim 45, wherein the article is a molded microcellular thermoplastic foam article.123. An article as in claim 45, wherein the article is an injection-molded microcellular polymeric foam article.124. An article as in claim 45, including an outer skin having a thickness of at least three times an average cell size of the article.125. An article as in claim 45, comprising two dissimilar polymeric materials.126. An article as in claim 45, wherein the article is essentially closed-cell.127. An article as in claim 53, having a cell density of greater than at least 106 cells per cubic centimeter.128. An article as in claim 53, having an average cell size of less than 50 micron.129. An article as in claim 53, having an average cell size of less than 100 micron.130. An article as in claim 53, having a length-to-thickness ratio of at least about 75:1.131. An article as in claim 53, having a length-to-thickness ratio of at least about 150:1.132. An article as in claim 53, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.133. An article as in claim 53, wherein the polymeric foam article is a molded microcellular thermoplastic elastomeric foam article.134. An article as in claim 53, wherein the article is a molded microcellular thermoplastic foam article.135. An article as in claim 53, wherein the article is an injection-molded microcellular polymeric foam article.136. An article as in claim 53, including an outer skin having a thickness of at least three times an average cell size of the article.137. An article as in claim 53, comprising two dissimilar polymeric materials.138. An article as in claim 53, wherein the article is essentially closed-cell.139. An article as in claim 63, having a cell density of greater than at least 106 cells per cubic centimeter.140. An article as in claim 63, having an average cell size of less than 50 micron.141. An article as in claim 63, having an average cell size of less than 100 micron.142. An article as in claim 63, having a length-to-thickness ratio of at least about 75:1.143. An article as in claim 63, having a length-to-thickness ratio of at least about 150:1.144. An article as in claim 63, wherein the article is essentially free of residual chemical blowing agent or reaction-by-products of chemical blowing agent.145. An article as in claim 63, wherein the polymeric foam article is a molded microcellular thermoplastic elastomeric foam article.146. An article as in claim 63, wherein the article is a molded microcellular thermoplastic foam article.147. An article as in claim 63, wherein the article is an injection-molded microcellular polymeric foam article.148. An article as in claim 63, including an outer skin having a thickness of at least three times an average cell size of the article.149. An article as in claim 63, comprising two dissimilar polymeric materials.150. An article as in claim 63, wherein the article is essentially closed-cell.
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