US2003008930A1PendingUtilityA1

Co-continuous interconnecting channel morphology composition

Priority: Mar 5, 1996Filed: May 16, 2002Published: Jan 9, 2003
Est. expiryMar 5, 2016(expired)· nominal 20-yr term from priority
Inventors:Ihab M. Hekal
F26B 21/331B01J 20/28014C08L 23/0861C08L 2203/16B65D 81/264C08L 77/00C08L 69/00Y10S521/905C08L 23/02C08L 101/00B65D 81/266C08J 9/26C08L 29/04C08L 71/02B01J 20/28097B29C 45/16C08L 23/10B01J 20/28033B01J 20/28042
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Claims

Abstract

The present invention includes a composition having a co-continuous interconnecting channel morphology. These co-continuous interconnecting channels are predominately occupied with a polymer and particles that control the percolation through the composition. The particles are composed of a material such as an absorbing agent, releasing agent and/or activation agent. The polymer composition may be used to form a desired shaped article such as plug type inserts and liners for closed containers, or it may be formed into a film, sheet, bead or pellet.

Claims

exact text as granted — not AI-modified
What is claimed is:  
     
         1 . A composition having a co-continuous interconnecting channel morphology comprising at least three components, 
 (a) wherein component A is selected from the group of polymers that are semicrystalline polymers and amorphous polymers, wherein the amorphous polymers have a shear modulus greater than about 8 MPa;    (b) wherein component B is a polymer;    (c) wherein components A and B are immiscible within each other and, if components A and B react after mixing, components A and B are immiscible prior to reaction;    (d) wherein component C is a particle;    (e) wherein the volume fraction of component A represents at least about 50% by volume of the total volume of components A, B and C;    (f) wherein the preferential affinity between component B and component C is greater than between component A and component C;    (g) wherein at least two phases are formed, one phase is composed of a majority of component A, and the second phase is composed of a majority of component B and a majority of component C; and    (h) wherein the two phases form the co-continuous interconnecting channel morphology.    
     
     
         2 . A composition having a co-continuous interconnecting channel morphology comprising at least three components, 
 (a) wherein component A is selected from the group of thermoplastics that are semicrystalline polymers and amorphous, wherein the amorphous polymers have a shear modulus greater than about 8 MPA;    (b) wherein component B is a polymer;    (c) wherein components A and B are immiscible within each other and, if components A and B react after mixing, components A and B are immiscible prior to reaction;    (d) wherein component C is a particle;    (e) wherein the volume fraction of component A represents at least about 50% by volume of the total volume of components A, B and C;    (f) wherein the preferential affinity between component B and component C is greater than between component A and component C;    (g) wherein at least two phases are formed, one phase is composed of a majority of component A, and the second phase is composed of a majority of component B and a majority of component C; and    (h) wherein the two phases form the co-continuous interconnecting channel morphology.    
     
     
         3 . A composition having a co-continuous interconnecting channel morphology comprising at least three components, 
 (a) wherein component A is selected from the group of thermosets that are semicrystalline polymers and amorphous polymers, wherein the amorphous polymers, have a shear modulus greater than about 8 Ma;    (b) wherein component B is a polymer;    (c) wherein components A and B are immiscible within each other and, if components A and B react after mixing, components A and B are immiscible prior to reaction;    (d) wherein component C is a particle;    (e) wherein the volume fraction of component A represents at least about 50% by volume of the total volume of components A, B and C;    (f) wherein the preferential affinity between component B and component C is greater than between component A and component C;    (g) wherein at least two phases are formed, one phase is composed of a majority of component A, and the second phase is composed of a majority of component B and a majority of component C; and    (h) wherein the two phases form the co-continuous interconnecting channel morphology.    
     
     
         4 . A composition having a co-continuous interconnecting channel morphology comprising at least three components, 
 (a) wherein component A is selected from the group of thermoplastics that are semicrystalline polymers and amorphous, wherein the amorphous polymers have a shear modulus greater than about 8 MPA;    (b) wherein component B is a polymer;    (c) wherein components A and B are immiscible within each other and, if components A and B react after mixing, components A and B are immiscible prior to reaction;    (d) wherein component C is a particle;    (e) wherein the volume fraction of component A represents at least about 50% by volume of the total volume of components A, B and C;    (f) wherein the preferential affinity between component B and component C is greater than between component A and component C;    (g) wherein at least two phases are formed, one phase is composed of a majority of component A, and the second phase is composed of a majority of component B and a majority of component C; and    (h) wherein the two phases form the co-continuous interconnecting channel morphology.    
     
     
         5 . A composition having a co-continuous interconnecting channel morphology comprising at least three components, 
 (a) wherein component A is selected from the group of thermosets that are semicrystalline polymers and amorphous polymers, wherein the amorphous polymers, have a shear modulus greater than about 8 Ma;    (b) wherein component B is a polymer;    (c) wherein components A and B are immiscible within each other and, if components A and B react after mixing, components A and B are immiscible prior to reaction;    (d) wherein component C is a particle;    (e) wherein the volume fraction of component A represents at least about 50% by volume of the total volume of components A, B and C;    (f) wherein the preferential affinity between component B and component C is greater than between component A and component C;    (g) wherein at least two phases are formed, one phase is composed of a majority of component A, and the second phase is composed of a majority of component B and a majority of component C; and    (h) wherein the two phases form the co-continuous interconnecting channel morphology.    
     
     
         6 . The composition of  claim 1 , wherein component A is selected from the group consisting of polyolefins, polycarbonates and polyamides.  
     
     
         7 . The composition of  claim 1 , wherein component B is selected from the group consisting of polyglycols, poly(ethylene vinyl alcohols), and polyvinyl alcohol.  
     
     
         8 . The composition of  claim 1 , wherein the composition is in the form, of a shaped article and the shaped article is selected from the group consisting of sheets, films, pellets and beads.  
     
     
         9 . The composition of  claim 1 , wherein component A is selected from the group consisting of polyolefins, polycarbonates and polyamides, and component B is selected from the group consisting of polyglycols.  
     
     
         10 . A composition having co-continuous interconnecting channel morphology comprising at least five components, 
 (a) wherein component A is selected from the group of polymers that are semicrystalline polymers and amorphous polymers, wherein the amorphous polymers have a shear modulus greater than about 8 MPa;    (b) component B and B′ are polymers;    (c) components A, B and B′ are immiscible within each other;    (d) components C and C′ are particles;    (e) the volume fraction of component A represents at least about 34% by volume of the total volume of components A, B, B′, C and C′;    (f) the preferential affinity between components B and C is greater than either between components A and C and between components B′ and C;    (g) the preferential affinity between components B′ and C′ is greater than either between components A and C′ and between components B and C′;    (h) at least three phases are formed, one phase is composed of a majority of component A, the second phase is composed of a majority of component B and a majority of component C, and the third phase is composed of a majority of components B′ and a majority of components C′; and    (i) at least three phases form the co-continuous interconnecting channel morphology.

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