TH18488A - Porous membranes and processes for producing porous membranes; - Google Patents

Abstract

Details of the invention according to this invention Has revealed a perforated membrane Passing from one side to the other a number It is obtained by casting into a spherical shape with a resin compound containing ethylene-0 (-olifin copolymer, thermoplastic elastomer and Inorganic filler And then stretching the piece Has to arrange (orientation) the porous membranes have the ability to fold Extensibility and tolerability Provides excellent moisture permeability, can make To have these properties By using each component in specific proportions Cast the resulting mixture into the shape of a piece and then stretch the piece to have a hole through it. Pass within that piece for To have the ability to accept moisture permeability equal to 2,000 g / m 2. 24 hrs. Or more

Claims (9)

1. A large number of porous membranes that pass through the autoclave from side to side are obtained by processing them into parallels with a resin mixture containing ethylene-0 (-olphi Nocopolymer, thermoplastic elastomer, and inorganic filler and then stretched the resulting membranes. According to the guidelines, where (a) ethylene-0 (-olifin copolymer has a density of 0.86-0.90 g / cm3 and has a molecular mass distribution represented by Mw / Mn of 3. Or less and has a melting point of 60-100 ํ and is contained in an amount of 65-90% by weight compared to the weight of the total resin (b). There is a thermoplastic elastomer. At least kind One to choose from The group consists of basic elastomer mystyrene, polyethylene elastomer and polyurethane elastomer and is present in The volume is 35-10% by weight compared to weight. Of all resins (c) contain inorganic fillers. In quantity equal to 50-300 parts by weight per 100 parts by weight of Ethylene-0 (--olifin, copolymer and thermoplastic elasto-mer, all and porous membranes have a moisture permeability) 2,000 G / m 2 24 hrs. Or more 2. Porous membranes according to claim 1 at ethylene-0 (--olifin copolymer with a density of 0.87-0.89 g / cm3. The porosity according to claim 1 at ethylene-0 (--olifin copolymer has a molecular mass distribution expressed by Mw / Mn equal to 1.5-3. Claim 1 that ethylene-0 (-olifin copolymer is distributed The molecular mass body represented by Mw / Mn is 1.5 to 2.5 5. 5. Porous membranes according to claim 1 at ethylene-0 (- orifin copo The polymer has a melting point of 65-90 ํ 6. Porous membranes according to claim 1 at ethylene-0 (-olifin copolymer has a melting point of 70-85 ํ. 7. Porous membranes according to claim 1 at ethylene-0 (--olifin copolymer has a molten flow index of 0.5-20 g / 10 na measured at 190 ํ At a load of 2,160 g 8. Porous membranes according to claim 1 at ethylene-0 (-olifin copolymer has a molten index 1.0-10 g / 10 min. Measured at 190 ํ at a load of 2,160 g 9. Porous membranes according to claim 1 at 0 (- Ethyl olfin Lean-0 (- orifin copolymer is 0 (- orifin with 4-10 carbon atoms 1 0. Porous membrane according to claim 1 at 0 (- orifin of Ethylene-0 (-Olifin copolymer is 1-butene 1. Porous membranes according to claim 1 with a quantity of 0 (- olifin in ethylene -0 (-olifin copolymer equal to 2-40 mol% 1 2. Porous membranes according to claim 1 with a quantity of 0 (-olifin in ethylene-0 (-Olfin copolymer equal to 5-20 mol% 1 3. Porous membrane according to claim 1 at ethylene-0 (-Olfin copolymer has a It is crystal equal to 5-25% as measured. X-ray refraction 1 4. Porous membranes according to claim 1 where the elastomer has a surface The base is styrene. It is a series of styrene-butadiene copolymer, styrene-isoprene copolymer series, styrene-ethylene-butene series. Nocopolymer or Styrene-Ethylene-Propylene Copolymer Series 1 5. Porous membranes according to claim 1 that the elastomer has floor The base is a classy styrene. Hydrogenation equal to 99% or more 1 6. Porous membranes according to claim 1 with the amount of styrene in Containing elastomer The basis is 10-20% styrene by weight 1 7. Porous membranes according to claim 1 that the elastomer has a The base is styrene, with a melt index of 0.1-20 g / 10 min, measured at 190 ํ at a load of 2,160 g. 1 8. Porous membranes according to claim 1 at the anion filler. Tree Me Diameter of The average particle size was 0.1-50 μm 1 9. Porous membranes according to claim 1 that the inorganic filler had. Diameter of The average particles are 0.5-10 μm 2 0. Porous membranes according to claim 1 where the inorganic filler is Metal, metal oxide, metal Hydroxides, Metal Cars Botan, metal sulfate, metal carbide, metal nitride or metal sulfide 2 1. Porous membrane according to claim 20 where metal hydroxide is magnesium hydroxide. , Calcium hydroxide or aluminum hydroxide 2 2. Porous membranes according to claim 20 where metal carbonate is magnesium carbonate, calcium carbonate, Barium Carbonate or Sodium Carbonate 2 3. Porous membranes according to claim 20 where metal sulfate is sodium sulfate, calcium sulfate, barium sulfate, alu. Minum Sulfate Or iron sulphate 2. 4. Porous membranes according to claim 1 containing ethylene-0 (--olifin copolymer in the amount of 70-85% by weight compared to Total resin weight And there is a thermoplastic elastomer in the amount of 30-15% by weight when compared with water. The weight of all resins 2 5. Porous membranes according to claim 1 with inorganic fillers in the amount of 80-250 parts by weight per 100 parts by weight. Of ethylene-0 (--olifin copolymer and thermoplastic elastomer 2 6. Porous membranes according to claim 1, which has the ability to Surrender Let moisture seep Passable equal to 2,500-6,000 g / m 2. 24 hrs. 2 7. Porous membrane according to claim 1, which has the ability to tolerate Let moisture seep Passability equal to 3,000-5,000 g / m 2 24 hrs. 2 8. Perforated membrane according to claim 1, whose strength at 50% elongation equal to 100-500 g / 25 mm. Rights 1 with 50% elongation strength equal to 120-450 g / 25 mm 3 0.Positive membranes according to claim 1 with residual stress after 50% elongation equal to 10% or less 3. 1. Porous membrane according to claim 1, which has the strength to withstand Tear according to the following formula, Tr is greater than or equal to 15 + t, where Tr is the tear-resistant strength (g) of the porous membrane and t is the thickness (μm) of the porous membrane 3. 2. Porous membranes according to claim 1, whose porosity is 5-40% 3. 3. Porous membranes according to claim 1 with a porosity of 10-30% 3. 4. Porous membrane according to claim 1, with a thickness of 10-100 micrometers 3. 5. Porous membranes according to claim 1, whose thickness is 20-50 micrometers 3. 6. Porous membranes according to claim 1, whose water resistance is 5,000 mm H2O or more than 3. 7. Porous membranes according to claim 1, whose water resistance is 10,000 mm H2O or more than 3. 8. Porous membranes according to claim 1, which has no yield point 3. 9. Process for producing porous membranes according to claim 1, which includes Process to form a piece of matter with substance Mixed with resin Ethylene-0 (--olifin copolymer with a density of 0.86-0.90 g / cm3 and has a molecular mass distribution expressed by Mw / Mn of 3 or less and has The melting point was 60-100 ํ 65-90% by weight of the total resin weight. The thermoplastic elastomer selected from the composite group. With elastomer The basis is styrene, polyester elastomer and 35-10% polyurethane elastomer by weight as compared to the weight of the resin. And contains 50-300 parts by weight of inorganic filler 100 parts by weight of ethylene-0 (-olifin, copolymer and thermoplastic E All lasers and at least the orientation of the membranes in Uniaxial at temperature Not higher than the melting point of eth Lean-formula-orifin copolymer