Microporous materials that include thermoplastic organic polyolefin polymer (e.g., ultrahigh molecular weight polyolefin, such as polyethylene), particulate filler (e.g., precipitated silica), and a network of interconnecting pores, are described. The microporous materials of the present invention p
Microporous materials that include thermoplastic organic polyolefin polymer (e.g., ultrahigh molecular weight polyolefin, such as polyethylene), particulate filler (e.g., precipitated silica), and a network of interconnecting pores, are described. The microporous materials of the present invention possess controlled volatile material transfer properties. The microporous materials can have a density of at least 0.8 g/cm3; and a volatile material transfer rate, from the volatile material contact surface to the vapor release surface of the microporous material, of from 0.04 to 0.6 mg/(hour*cm2). In addition, when volatile material is transferred from the volatile material contact surface to the vapor release surface, the vapor release surface is substantially free of volatile material in liquid form.
대표청구항▼
1. A vapor permeable microporous material in contact with a volatile material, the microporous material comprising: (a) a matrix of substantially water-insoluble thermoplastic organic polymer comprising polyolefin, wherein the polyolefin comprises a mixture of substantially linear ultrahigh molecula
1. A vapor permeable microporous material in contact with a volatile material, the microporous material comprising: (a) a matrix of substantially water-insoluble thermoplastic organic polymer comprising polyolefin, wherein the polyolefin comprises a mixture of substantially linear ultrahigh molecular weight polyethylene and lower molecular weight polyethylene comprising high density polyethylene, wherein said substantially linear ultrahigh molecular weight polyethylene constitutes at least one percent by weight of said matrix and said substantially linear ultrahigh molecular weight polyethylene and said lower molecular weight polyethylene together constitute substantially 100 percent by weight of the polymer of the matrix;(b) finely divided, substantially water-insoluble particulate filler comprising particulate precipitated silica having a BET surface area ranging from 25 to 350 square meters per gram, said particulate filler being distributed throughout said matrix and constituting from 40 to 90 percent by weight, based on the total weight of said microporous material; and(c) a network of interconnecting pores communicating substantially throughout said microporous material, wherein said pores have a volume average diameter ranging from 0.02 to 0.50 micrometers;wherein said microporous material has: (1) a density of at least 0.8 g/cm3,(2) a volatile material contact surface and a vapor release surface, said volatile material contact surface and said vapor release surface being substantially opposed to each other, and(3) a volatile material transfer rate from said volatile material contact surface to said vapor release surface of from 0.04 to 0.6 mg/(hour*cm2) when the volatile material contact surface of the vapor permeable microporous material is placed in contact with a volatile material and said vapor release surface is not in direct contact with the volatile material, the density of the microporous material being such that when volatile material is transferred from said volatile material contact surface to said vapor release surface, said vapor release surface is substantially free of liquid volatile material in liquid form. 2. The microporous material of claim 1 wherein said microporous material has a density of from 0.8 to 1.2 g/cm3. 3. The microporous material of claim 1 wherein said volatile material transfer rate is from 0.30 to 0.55 mg/(hour*cm2). 4. The microporous material of claim 1 wherein said volatile material transfer rate is from 0.35 to 0.50 mg/(hour*cm2). 5. The microporous material of claim 1 wherein said volatile material contact surface and said vapor release surface are each free of a coating material. 6. The microporous material of claim 1 wherein at least a portion of said volatile material contact surface has a first coating thereon, and/or at least a portion of said vapor release surface has a second coating thereon. 7. The microporous material of claim 6 wherein said first coating and said second coating each independently is formed from an aqueous coating composition selected from the group consisting of aqueous poly(meth)acrylate dispersions, aqueous polyurethane dispersions, and combinations thereof. 8. The microporous material of claim 7 wherein each aqueous coating composition comprises a dispersion of particles having a particle size of from 200 to 400 nm. 9. The microporous material of claim 8 wherein said first coating and said second coating each independently have a coating weight of from 0.01 to 5.5 g/m2. 10. The microporous material of claim 1 wherein said polyolefin of the water-insoluble thermoplastic organic polymer comprises ultrahigh molecular weight polyethylene having an intrinsic viscosity of at least 10 deciliters/gram. 11. The microporous material of claim 10 wherein said ultrahigh molecular weight polyolefin is ultrahigh molecular weight polyethylene having an intrinsic viscosity of at least 18 deciliters/gram. 12. The microporous material of claim 1 wherein said substantially linear ultrahigh molecular weight polyethylene has an intrinsic viscosity of at least 10 deciliters/gram and said lower molecular weight polyethylene has an ASTM D 1238-86 Condition E melt index of less than 50 grams/10 minutes and an ASTM D 1238-86 Condition F melt index of at least 0.1 grams/10 minutes. 13. The microporous material of claim 1 wherein said pores constitute from 35 to 95 percent by volume of said microporous material, based on the total volume of said microporous material. 14. A vapor permeable microporous material in contact with a volatile material, the microporous material comprising: (a) a matrix of substantially water-insoluble thermoplastic organic polymer comprising polyolefin comprising a mixture of substantially linear ultrahigh molecular weight polyethylene and lower molecular weight polyethylene comprising high density polyethylene, wherein said substantially linear ultrahigh molecular weight polyethylene constitutes at least one percent by weight of said matrix and said substantially linear ultrahigh molecular weight polyethylene and said lower molecular weight polyethylene together constitute substantially 100 percent by weight of the polymer of the matrix, and wherein the substantially linear ultrahigh molecular weight polyethylene has an intrinsic viscosity of at least 10 deciliters/gram;(b) finely-divided, substantially water-insoluble particulate silica having a BET surface area ranging from 25 to 350 square meters per gram, said particulate silica being distributed throughout said matrix and constituting from 40 to 90 percent by weight, based on the total weight of said microporous material; and(c) a network of interconnecting pores communicating substantially throughout said microporous material, said pores having a volume average diameter ranging from 0.02 to 0.50 micrometers and constituting from 35 to 95 percent by volume of said microporous material, based on the total volume of said microporous material;wherein said microporous material has: (1) a density of from 0.8 to 1.2 g/cm3,(2) a volatile material contact surface and a vapor release surface, said volatile material contact surface and said vapor release surface being substantially opposed to each other, and(3) a volatile material transfer rate from said volatile material contact surface to said vapor release surface of from 0.04 to 0.6 mg/(hour*cm2), when the volatile material contact surface of the vapor permeable microporous material is placed in contact with a volatile material and said vapor release surface is not in direct contact with the volatile material, the density of the microporous material being such that when volatile material is transferred from said volatile material contact surface to said vapor release surface, said vapor release surface is substantially free of volatile material in liquid form. 15. The vapor permeable microporous material of claim 14 wherein: (a) the lower molecular weight polyethylene has an ASTM D 1238-86 Condition E melt index of less than 50 grams/10 minutes and an ASTM D 1238-86 Condition F melt index of at least 0.1 grams/10 minutes;(b) the particulate silica is precipitated silica; and(c) the volatile material transfer rate of the microporous material is 0.30 to 0.55 mg/(hour*cm2). 16. A vapor permeable microporous material in contact with a volatile material, the microporous material comprising: (a) a matrix of substantially water-insoluble thermoplastic organic polymer comprising polyolefin, wherein the polyolefin comprises a mixture of substantially linear ultrahigh molecular weight polyethylene and lower molecular weight polyethylene comprising high density polyethylene, wherein said substantially linear ultrahigh molecular weight polyethylene constitutes at least one percent by weight of said matrix and said substantially linear ultrahigh molecular weight polyethylene and said lower molecular weight polyethylene together constitute substantially 100 percent by weight of the polymer of the matrix;(b) finely divided, substantially water-insoluble particulate filler comprising particulate precipitated silica, said particulate filler being distributed throughout said matrix and constituting from 40 to 90 percent by weight, based on the total weight of said microporous material; and(c) a network of interconnecting pores communicating substantially throughout said microporous material, wherein said pores have a volume average diameter ranging from 0.02 to 0.50 micrometers;wherein said microporous material has: (1) a density of at least 0.8 g/cm3;(2) a volatile material contact surface and a vapor release surface, said volatile material contact surface and said vapor release surface being substantially opposed to each other; and(3) a volatile material transfer rate from said volatile material contact surface to said vapor release surface of from 0.04 to 0.6 mg/(hour*cm2) when the volatile material contact surface of the vapor permeable microporous material is placed in contact with a volatile material and said vapor release surface is not in direct contact with the volatile material, the density of the microporous material being such that when volatile material is transferred from said volatile material contact surface to said vapor release surface, said vapor release surface is substantially free of liquid volatile material in liquid form,wherein at least a portion of said volatile material contact surface has a first coating thereon, and/or at least a portion of said vapor release surface has a second coating thereon, wherein said first coating and said second coating each independently is formed from an aqueous coating composition selected from the group consisting of aqueous poly(meth)acrylate dispersions, aqueous polyurethane dispersions, and combinations thereof.
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