Ballistic resistant thermoplastic sheet, process of making and its applications

What is claimed is: 1. A process for forming a closed, thermally fused multilayer article comprising: a) providing a woven fabric comprising high tenacity elongate bodies having a width and being interwoven with transversely disposed binding elongate bodies, said high tenacity elongate bodies comprising a thermoplastic polymer, having a tenacity of at least about 14 g/denier and having a tensile modulus of at least about 300 g/denier, wherein adjacent high tenacity elongate bodies are spaced apart from each other by a distance equivalent to at least about 10% of the width of the high tenacity elongate bodies; and wherein said binding elongate bodies at least partially comprise a thermoplastic polymer having a melting temperature below a melting temperature of the high tenacity elongate bodies; b) at least partially melting the thermoplastic polymer of the binding elongate bodies; c) allowing the melted thermoplastic polymer of the binding elongate bodies to solidify, whereby the binding elongate bodies are bonded to the high tenacity elongate bodies, thereby forming a first dimensionally stable open fabric; and d) repeating steps a)-c) to form a second dimensionally stable open fabric; e) adjoining said first dimensionally stable open fabric with said second dimensionally stable open fabric, wherein the high tenacity elongate bodies of the first fabric are oriented at a non-parallel angle relative to the high tenacity elongate bodies of the second fabric, and thermally pressing the adjoined fabrics under conditions sufficient to attach the first fabric to the second fabric and to flatten the high tenacity elongate bodies in each fabric respectively, thereby causing longitudinal edges of the adjacent high tenacity elongate bodies in each fabric respectively to contact each other, whereby there are no gaps between said adjacent high tenacity elongate bodies in either fabric, achieving a full and complete closure of the spaces between adjacent high tenacity elongate bodies, and wherein said adjacent high tenacity elongate bodies forming each fabric do not overlap. 2. The process of claim 1 wherein all the elongate bodies of the multilayer article are multifilament fibers. 3. A process for forming a closed, fused sheet comprising: a) providing a woven fabric comprising high tenacity elongate bodies having a width and being interwoven with transversely disposed binding elongate bodies, said high tenacity elongate bodies comprising a thermoplastic polymer, having a tenacity of at least about 14 g/denier and having a tensile modulus of at least about 300 g/denier, wherein adjacent high tenacity elongate bodies are spaced apart from each other by a distance equivalent to at least about 10% of the width of the high tenacity elongate bodies; and wherein said binding elongate bodies at least partially comprise a thermoplastic polymer having a melting temperature below a melting temperature of the high tenacity elongate bodies; b) at least partially melting the thermoplastic polymer of the binding elongate bodies; c) allowing the melted thermoplastic polymer of the binding elongate bodies to solidify, whereby the binding elongate bodies are bonded to the high tenacity elongate bodies, thereby forming a dimensionally stable open fabric; and d) pressing the dimensionally stable open fabric under conditions sufficient to flatten the high tenacity elongate bodies, thereby causing longitudinal edges of the adjacent high tenacity elongate bodies to contact each other, whereby there are no gaps between adjacent high tenacity elongate bodies and wherein said adjacent high tenacity elongate bodies do not overlap, thereby forming said closed, fused sheet wherein the spaces between adjacent high tenacity elongate bodies are fully and completely closed. 4. The process of claim 3 wherein all the elongate bodies of said closed, fused sheet are multifilament fibers. 5. A process for forming a closed, fused multilayer article comprising attaching a first closed, fused sheet formed by the process of claim 3 with a second closed, fused sheet of claim 3 wherein each closed, fused sheet is thermally fused and wherein the high tenacity elongate bodies of the first closed, fused sheet are oriented at a non-parallel angle relative to the high tenacity elongate bodies of the second closed, fused sheet. 6. The process of claim 5 wherein all the elongate bodies of the multilayer article are multifilament fibers. 7. A process for forming a closed, thermally fused multilayer article comprising: a) providing a woven fabric comprising high tenacity elongate bodies having a width and being interwoven with transversely disposed binding elongate bodies, said high tenacity elongate bodies comprising a thermoplastic polymer, said high tenacity elongate bodies having a tenacity of at least about 14 g/denier and having a tensile modulus of at least about 300 g/denier, wherein adjacent high tenacity elongate bodies are spaced apart from each other by a distance equivalent to at least about 10% of the width of the high tenacity elongate bodies; and wherein said binding elongate bodies at least partially comprise a thermoplastic polymer having a melting temperature below a melting temperature of the high tenacity elongate bodies; b) at least partially melting the thermoplastic polymer of the binding elongate bodies; c) allowing the melted thermoplastic polymer of the binding elongate bodies to solidify, whereby the binding elongate bodies are bonded to the high tenacity elongate bodies, thereby forming a dimensionally stable open fabric; d) pressing the dimensionally stable open fabric under conditions sufficient to flatten the high tenacity elongate bodies, thereby causing longitudinal edges of the adjacent high tenacity elongate bodies to contact each other, whereby there are substantially no gaps between adjacent high tenacity elongate bodies and wherein said adjacent high tenacity elongate bodies do not overlap, thereby forming a closed, fused sheet; and adjoining said closed, fused sheet with a web comprising a parallel array of high tenacity elongate bodies, wherein the high tenacity elongate bodies of the web are positioned perpendicular to the high tenacity elongate bodies of the fused sheet, and thermally pressing the adjoined fused sheet and web under conditions sufficient to attach the fused sheet to the web and to flatten the high tenacity elongate bodies of the web, thereby causing longitudinal edges of the adjacent high tenacity elongate bodies in the web to contact each other whereby there are substantially no gaps between said adjacent high tenacity elongate bodies of the web and wherein said adjacent high tenacity elongate bodies of the web do not overlap. 8. The process of claim 7 wherein all the elongate bodies of the multilayer article are multifilament fibers.