Enhancing the physical properties of semi-crystalline polymers via solid state shear pulverization

We claim: 1. A method of processing a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of polymer scission and indigenous nucleation sites within said homopolymer, wherein said single homopolymer is selected from polyesters, polyolefins and polyamides. 2. The method of claim 1 wherein said single homopolymer is a polyethylene. 3. A method of processing a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of polymer scission and indigenous nucleation sites within said homopolymer, wherein said pulverized homopolymer is melt-processed. 4. A method of processing a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of polymer scission and indigenous nucleation sites within said homopolymer, wherein said pulverized homopolymer is molded into a film, said film having decreased gas permeability as compared to a molded film of said single homopolymer component absent shear pulverization and further wherein said pulverized homopolymer is incorporated into an article of manufacture. 5. A method of affecting crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of an increased crystallization temperature and reduced isothermal crystallization half-time of said single homopolymer as compared to said single homopolymer absent shear pulverization, wherein said single homopolymer is a polyethylene. 6. A method of affecting crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of an increased crystallization temperature and reduced isothermal crystallization half-time of said single homopolymer as compared to said single homopolymer absent shear pulverization, wherein said pulverized homopolymer is melt-processed. 7. A method of affecting crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer a single homopolymer comprising less than about 50% crystallinity; and applying a mechanical energy to said single homopolymer through solid-state shear pulverization in the presence of cooling at least partially sufficient to maintain said homopolymer in a solid state during said pulverization, said pulverization at least partially sufficient to induce at least one of an increased crystallization temperature and reduced isothermal crystallization half-time of said single homopolymer as compared to said single homopolymer absent shear pulverization, wherein said pulverized homopolymer is incorporated into an article of manufacture. 8. A method of using solid-state shear pulverization to affect crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer component a single homopolymer, comprising less than about 50% crystallinity; introducing said single homopolymer into a solid-state shear pulverization apparatus, said apparatus comprising a cooling component at least partially sufficient to maintain said homopolymer in a solid state; shear pulverizing said single homopolymer, said pulverization at least partially efficient to affect at least one of a crystallization temperature and isothermal crystallization half-time of said single homopolymer, and said pulverization substantially absent at least one of a nucleating agent and a filler component; and discharging said shear pulverized single homopolymer from said apparatus, wherein said single homopolymer is a polyethylene. 9. A method of using solid-state shear pulverization to affect crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer component a single homopolymer, comprising less than about 50% crystallinity; introducing said single homopolymer into a solid-state shear pulverization apparatus, said apparatus comprising a cooling component at least partially sufficient to maintain said homopolymer in a solid state; shear pulverizing said single homopolymer, said pulverization at least partially efficient to affect at least one of a crystallization temperature and isothermal crystallization half-time of said single homopolymer, and said pulverization substantially absent at least one of a nucleating agent and a filler component; and discharging said shear pulverized single homopolymer from said apparatus, wherein said pulverized homopolymer is melt-processed. 10. A method of using solid-state shear pulverization to affect crystallization kinetics of a semi-crystalline homopolymer, said method comprising: providing a solid semi-crystalline homopolymer component, said homopolymer component a single homopolymer, comprising less than about 50% crystallinity; introducing said single homopolymer into a solid-state shear pulverization apparatus, said apparatus comprising a cooling component at least partially sufficient to maintain said homopolymer in a solid state; shear pulverizing said single homopolymer, said pulverization at least partially efficient to affect at least one of a crystallization temperature and isothermal crystallization half-time of said single homopolymer, and said pulverization substantially absent at least one of a nucleating agent and a filler component; and discharging said shear pulverized single homopolymer from said apparatus, wherein said pulverized homopolymer is incorporated into an article of manufacture. 11. The method of claim 10 wherein said pulverized homopolymer is molded in