Method of shortening the time to compression mold a roofing shingle or tile and apparatus for facilitating same

What is claimed is: 1. A method of shortening the cycle time required to compression mold a roofing product, comprising the steps of: (a) providing a carrier plate that has a base and a surface material; (b) delivering the carrier plate to an induction heater and induction heating the carrier plate surface material to raise the temperature of the carrier plate surface material; (c) then delivering the carrier plate to an extruding means and extruding a hot, partially molten thermoplastic material onto the surface material of the carrier plate; (d) then, while the raised temperature of the carrier plate surface material keeps the extruded thermoplastic material in a partially molten state, delivering the carrier plate to a compression molding means and compression molding the thermoplastic material to a desired configuration while it is on the carrier plate surface material; (e) cooling the thermoplastic material by allowing heat transfer from the surface material of the carrier plate to the base of the carrier plate; wherein the improvement comprises: (f) the carrier plate base having a heat conduction capability and is comprised of a material that has a first level of receptivity to being heated by induction heating; (g) the carrier plate surface material comprising an exterior surface of the carrier plate and comprising a surface means for receiving hot, partially molten thermoplastic material thereon, with the surface material having heat conduction capability and is comprised of a material that has a second level of receptivity to being heated by induction heating, with said second level of receptivity being higher than said first level of receptivity; (h) with the carrier plate surface material being in bonded relation to the carrier plate base; (i) wherein the carrier plate base is responsive to receiving heat transferred thereto from the carrier plate surface material; and (j) wherein the carrier plate surface material is responsive to being cooled by heat transfer from the carrier plate surface material to the carrier plate base. 2. The method of claim 1 , wherein the carrier plate surface material comprises a metal material. 3. The method of claim 1 , wherein the carrier plate base is at a temperature below 200° F. 4. The method of claim 1 , wherein the carrier plate surface material is substantially thinner than the carrier plate base. 5. The method of claim 1 , wherein the carrier plate surface material comprises a thin skin. 6. The method of claim 1 , wherein the carrier plate surface material is a material of higher electrical resistivity than the electrical resistivity of the carrier plate base. 7. The method of claim 1 , wherein the carrier plate surface material comprises a magnetic material and wherein the carrier plate base comprises a non-magnetic material. 8. The method of claim 1 , wherein the carrier plate surface material is selected from the group consisting of a material containing a substantial amount of any of: (i) carbon; (ii) steel; (iii) tin; (iv) tungsten; and (v) any combination of any of the materials of (i) through (iv). 9. The method of claim 1 , wherein in the carrier plate base is a material selected from the group consisting of a material containing a substantial amount of any of: (i) aluminum; (ii) brass; (ii) copper; and (iv) any combination of any of the materials (i) through (iii). 10. A method of shortening the cycle time required to compression mold a product, comprising the steps of: (a) providing a carrier plate that has a base and a surface material; (b) delivering the carrier plate to an induction heater and induction heating the carrier plate surface material to raise the temperature of the carrier plate surface material; (c) then delivering the carrier plate to an extruding means and extruding a hot, partially molten thermoplastic material onto the surface material of the carrier plate; (d) then, while the raised temperature of the carrier plate surface material keeps the extruded thermoplastic material in a partially molten state, delivering the carrier plate to a compression molding means and compression molding the thermoplastic material to a desired configuration while it is on the carrier plate surface material; (e) cooling the thermoplastic material by allowing heat transfer from the surface material of the carrier plate to the base of the carrier plate; wherein the improvement comprises: (f) the carrier plate base having a heat conduction capability and is comprised of a material that has a first level of receptivity to being heated by induction heating; (g) the carrier plate surface material comprising an exterior surface of the carrier plate and comprising a surface means for receiving hot, partially molten thermoplastic material thereon, with the surface material having heat conduction capability and is comprised of a material that has a second level of receptivity to being heated by induction heating, with said second level of receptivity being higher than said first level of receptivity; (h) with the carrier plate surface material being in bonded relation to the carrier plate base; (i) wherein the carrier plate base is responsive to receiving heat transferred thereto from the carrier plate surface material; and (j) wherein the carrier plate surface material is responsive to being cooled by heat transfer from the carrier plate surface material to the carrier plate base. 11. The method of claim 10 , wherein the carrier plate surface material comprises a metal material. 12. The method of claim 10 , wherein the carrier plate base is at a temperature below 200° F. 13. The method of claim 10 , wherein the carrier plate surface material is substantially thinner than the carrier plate base. 14. The method of claim 10 , wherein the carrier plate surface material comprises a thin skin. 15. The method of claim 10 , wherein the carrier plate surface material is a material of higher electrical resistivity than the electrical resistivity of the carrier plate base. 16. The method of claim 10 , wherein the carrier plate surface material comprises a magnetic material and wherein the carrier plate base comprises a non-magnetic material. 17. The method of claim 10 , wherein the carrier plate surface material is selected from the group consisting of a material containing a substantial amount of any of: (i) carbon; (ii) steel; (iii) tin; (iv) tungsten; and (v) any combination of any of the materials of (i) through (iv). 18. The method of claim 10 , wherein in the carrier plate base is a material selected from the group consisting of a material containing a substantial amount of any of: (i) aluminum; (ii) brass; (ii) copper; and (iv) any combination of any of the materials (i) through (iii).