Thermoplastic composite materials for portable information handling system enclosures

What is claimed is: 1. A method, comprising: heat pressing material layers to form a rectangularly shaped enclosure part for a portable information handling system, wherein the material layers include: a first fiber-reinforced thermoplastic outer layer including a first surface; a core thermoplastic layer comprising a plurality of thermoplastic film layers and a hexagonal pattern including cell walls forming hexagonal cells and multiple voids within each hexagonal cell separated by ribs each having a thickness of less than that of the cell walls; a second fiber-reinforced thermoplastic outer layer including a second surface; and a thermoplastic attachment feature bonded to the second fiber-reinforced thermoplastic outer layer at the second surface; wherein the thermoplastic attachment feature enables assembly of the enclosure part to the portable information handling system, and wherein the thermoplastic attachment feature includes a plurality of boss clusters, each boss cluster of the plurality of boss clusters provides a plurality of attachment points that are configured to attach the enclosure part to the portable information handling system and that protrude from the second surface of the second fiber-reinforced thermoplastic outer layer and a thermoplastic attachment layer covering the second surface of the second fiber-reinforced thermoplastic outer layer to enable attachment to the portable information handling system; wherein the thermoplastic attachment feature shares a common thermoplastic material with the second fiber-reinforced thermoplastic outer layer; and wherein a ratio of a maximum diagonal dimension to a minimum thickness of the enclosure part is between 170 and 400. 2. The method of claim 1 , further comprising: prior to the heat pressing, die cutting the core thermoplastic layer to remove thermoplastic material and reduce a density of the core thermoplastic layer, wherein the die cutting hexagonally patterns the core thermoplastic layer. 3. The method of claim 1 , wherein the heat pressing consolidates the material layers, and wherein each of the material layers comprise at least one of: polycarbonate and polysulfonate. 4. The method of claim 1 , further comprising: prior to the heat pressing, treating the thermoplastic film layers with a foaming agent to generate a foam structure in the thermoplastic film layers that reduces a density of the thermoplastic film layers. 5. The method of claim 1 , wherein the first fiber-reinforced thermoplastic outer layer and the second fiber-reinforced thermoplastic outer layer each comprise woven-fiberglass-reinforced thermoplastic material. 6. The method of claim 1 , wherein the first fiber-reinforced thermoplastic outer layer and the second fiber-reinforced thermoplastic outer layer each comprise: a first thermoplastic tape layer comprising unidirectional carbon fibers having a first orientation of the unidirectional carbon fibers; and a second thermoplastic tape layer comprising unidirectional carbon fibers having a second orientation of the unidirectional carbon fibers, wherein the second orientation is different from the first orientation. 7. The method of claim 1 , wherein the material layers further comprise: a finishing layer covering the first fiber-reinforced thermoplastic outer layer, wherein the finishing layer forms an exterior surface of the enclosure part.