Packages and methods of packaging glass sheets

The invention claimed is: 1. A method of packaging a plurality of glass sheets comprising the steps of: (I) providing a plurality of glass sheets that each includes a thickness defined between two opposed outer surfaces of the glass sheet, and at least one peripheral edge defining an outer periphery of the glass sheet; (II) providing an outer housing including a first pressure member and a second pressure member; (III) stacking the plurality of glass sheets with a plurality of interleaf protective sheets positioned between the plurality of adjacent pairs of glass sheets to form a stack of glass sheets, wherein each interleaf protective sheet includes a sandwiched portion engaging facing outer surfaces of the corresponding pair of glass sheets and an outer portion that extends away from the sandwiched portion; (IV) bending the outer portion of the plurality of interleaf protective sheets over a portion of the peripheral edge of one of the corresponding adjacent pair of glass sheets such that substantially all the edge surfaces of the glass sheets are protected by the bent portions of the interleaf protective sheets to discourage relative shifting of the glass sheets with respect to one another; and (V) sandwiching the stack of glass sheets between the pressure members of the outer housing such that the pressure members each applies a support pressure that is distributed over an outer surface of a corresponding one of the pair of outermost glass sheets of the stack of glass, wherein the plurality of glass sheets are packaged such that a tensile stress at the peripheral edge is less than 200 MPa. 2. A method according to claim 1 , wherein the plurality of glass sheets bear a coating on at least one of the opposed outer surfaces, and at least some of the adjacent pairs of the glass sheets are stacked against each other with the coating located therebetween but without an interleaf protective sheet positioned therebetween. 3. The method according to claim 1 , wherein each of the plurality of glass sheets extend along a curved or flat plane, and wherein each interleaf protective sheet is not continuous with the sandwiched portion of each interleaf protective sheet only extending between at least two edge portions, or all of the edge portions of the facing outer surfaces. 4. The method according to claim 1 , wherein the glass sheets are secured such that the outer periphery of the glass sheets are not subjected to a compressive stress exerted by the side walls of the housing. 5. The method according to claim 1 , wherein the interleaf protective sheets are successively staggered with respect to one another in a direction of the stack of glass sheets such that the outer portion of the interleaf protective sheets have alternating widths with respect to the corresponding peripheral edge of the glass sheet. 6. A package comprising: an outer housing including a first pressure member and a second pressure member; a stack of glass sheets sandwiched between the pressure members, wherein each pressure member applies a support pressure that is distributed over a corresponding one of a pair of outermost glass sheets of the stack of glass sheets; each glass sheet of the stack of glass sheets includes a thickness defined between two opposed outer surfaces of the glass sheet, and at least one peripheral edge defining an outer periphery of the glass sheet; and the stack of glass sheets includes a plurality of interleaf protective sheets positioned between the plurality of adjacent pairs of glass sheets in the stack, wherein each interleaf protective sheet includes a sandwiched portion engaging facing outer surfaces of the corresponding pair of glass sheets and an outer portion that extends away from the sandwiched portion, wherein the outer portions of the plurality of interleaf protective sheets are bent over a portion of the peripheral edge of one of the corresponding adjacent pair of glass sheets such that substantially all the edge surfaces of the glass sheets are protected by the bent portions of the interleaf protective sheets to discourage relative shifting of the glass sheets with respect to one another, wherein the plurality of glass sheets are packaged such that a tensile stress at the peripheral edge is less than 200 MPa. 7. A package according to claim 6 , wherein the plurality of glass sheets bear a coating on at least one of the opposed outer surfaces, and at least some of the adjacent pairs of the glass sheets are stacked against each other with the coating located therebetween but without an interleaf protective sheet positioned therebetween. 8. The package according to claim 6 , wherein each of the plurality of glass sheets have substantially the same shape. 9. The package according to claim 8 , wherein each interleaf protective sheet is not continuous with the sandwiched portion of each interleaf protective sheet only extending between at least two edge portions, or all of the edge portions of the facing outer surfaces. 10. The package according to claim 6 , wherein the outer housing does not directly contact the peripheral edge of any of the glass sheets. 11. The package according to claim 6 , wherein the interleaf protective sheets are successively staggered with respect to one another in a direction of the stack of glass sheets such that the outer portion of the interleaf protective sheets have alternating widths with respect to the corresponding peripheral edge of the glass sheet. 12. A method of packaging a plurality of glass sheets comprising the steps of: (I) providing a plurality of glass sheets that each includes a thickness defined between two opposed outer surfaces of the glass sheet, and at least one peripheral edge defining an outer periphery of the glass sheet; (II) providing an outer housing including a first pressure member and a second pressure member; (III) stacking the plurality of glass sheets with a plurality of interleaf protective sheets positioned between the plurality of adjacent pairs of glass sheets to form a stack of glass sheets, wherein each interleaf protective sheet includes a sandwiched portion engaging facing outer surfaces of the corresponding pair of glass sheets and an outer portion that extends away from the sandwiched portion; (IV) bending the outer portion of the plurality of interleaf protective sheets over a portion of the peripheral edge of one of the corresponding adjacent pair of glass sheets such that substantially all the edge surfaces of the glass sheets are protected by the bent portions of the interleaf protective sheets to discourage relative shifting of the glass sheets with respect to one another; and (V) sandwiching the stack of glass sheets between the pressure members of the outer housing such that the pressure members each applies a support pressure that is distributed over an outer surface of a corresponding one of the pair of outermost glass sheets of the stack of glass, wherein each of the plurality of glass sheets extend along a curved or flat plane, and wherein each interleaf protective sheet is not continuous with the sandwiched portion of each interleaf protective sheet only extending between at least two edge portions, or all of the edge portions of the facing outer surfaces. 13. The method according to claim 12 , wherein the glass sheets are secured such that the outer periphery of the glass sheets are not subjected to a compressive stress exerted by the side walls of the housing. 14. The method according to claim 12 , wherein the interleaf protective sheets are successively staggered with respect to one another in a direction of the stack of glass sheets such that the outer