A method of forming a polymeric foam material is provided and includes providing a precursor material having a first thickness, the precursor material being an open-cell foam material and applying a uniaxial compressive force to the precursor material to compress the precursor material to a second thickness, the compressive force causing a cell structure of the precursor material to collapse. The method also includes heating the precursor material at a molding temperature for a first time period while the compressive force is applied, the first time period being sufficient to heat the precursor material to a softening temperature, removing the compressive force from the precursor material, and maintaining the cell structure of the precursor material in a collapsed state.

A method of manufacturing a medical component includes preparing a first sheet of an elastomeric material, arranging at least one electronic device in the first sheet of elastomeric material to obtain an elastomeric preform, and arranging the elastomeric preform in a mold and molding the elastomeric preform therein to cure the elastomeric material and form the medical component having the at least one electronic device embedded therein.

“IMPROVEMENT INTRODUCED IN THE PROCESS OF OBTAINING THERMO-STRUCTURAL COMPOSITES”, resulting from the union of various synthetic materials (F), which go through a phase of couplings (union of materials), to be subsequently heated and pressed into molds (M) of specific size for each part to be molded, at temperatures and pressure suitable for the fusion of these elements, featured by the fact that the thereto-structural composite (1) is obtained from the formation of the substrate (S), with the synthetic fiber molding (F), foams, etc., preferably Non-Woven (NW-TNT)+PE Film+Fiberglass+Semi-Rigid PU Foam embedded in a chemical formulation (FO) of Diphenylmethane Diisocyanate (MDI) in a ratio of 30% to 80% and Methylene Chloride (CM) in the ratio of 20% to 70%; and for processing the product, a catalyst prepared from Dabco Cristal in the ratio of 1% to 30% is used; by adding 70% to 99% water, said substrate (S) may, during the hot-molding phase, receive the addition of finishes (5) and, after the molding phase, receive the addition of minor and complementary structural elements (6).

Disclosed are a composite resin composition containing a thermosetting resin including an unsaturated polyester resin and a saturated polyester resin, a filler, and a processability-improving agent. More particularly, disclosed are a composite resin composition that is capable of providing a molded article having a lower specific gravity and improved surface quality compared to a conventional molded article by improving the compatibility and impregnability of a thermosetting resin and a filler using a processability-improving agent, and a molded article manufactured using the same.

A method of producing high modulus and strength polymer materials includes compressive rolling a semicrystalline polymer material in at least two different axial directions of the material; and axially orienting at least a portion of the compressive rolled material to a draw ratio less than the ultimate elongation or the elongation % at break of the material.

Embodiments described herein relate generally to systems and methods for manufacturing a master batch with a graphitic material dispersed in a polymer matrix. In some embodiments, a method for manufacturing the master batch can include combining the graphitic material with a polymer, adding a supercritical fluid to the mixture, and depressurizing the supercritical fluid to remove the supercritical fluid. In some embodiments, the method includes mixing the graphitic material and the polymer for a first time period to form a first mixture and transferring the supercritical fluid to the first mixture to form a second mixture. In some embodiments, the method includes mixing the second mixture for a second time period and depressurizing the second mixture to allow the supercritical fluid to transition to a gas phase.

Compression molded foam articles are provided having a closed cell foam structure comprising a plurality of cells having an anisotropic cell shape. The disclosed compression molded foam articles can be used as components or parts of a variety of articles, including articles of footwear and athletic equipment. Methods are disclosed for making the disclosed compression molded foam articles from a foamed preform having an elastomeric closed cell foam with substantially isotropic cell shape. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

Disclosed is a method of fabricating a mattress support platform comprising providing a core material; positioning a first fiber-based substrate on a first side of the core material and positioning a second fiber-based substrate on a second side of the core material; spraying an application material to the first and second fiber-based substrates; and molding the application material to form a vehicular mattress support platform. Also disclosed is a mattress support platform comprising a first fiber-based substrate positioned on a first side of a core material and a second fiber-based substrate positioned on a second side of the core material; and a spray applied application material on the first and second fiber-based substrates, the spray applied application material molded to form a vehicular mattress support platform.

A method and system reprocess soiled animal bedding material commingled with animal manure. In one aspect the soiled animal bedding material is separated in a shaker to send at least a preponderance of the manure to a holding tank. In another aspect the bedding is cleaned, rinsed and color is restored. The bedding material is subsequently dried and a bedding product, fertilizer product, and/or compacted product is formed. Alternatively, the bedding material is dried (without a compacting step) to form a product. In yet another aspect, the steps of separation, cleaning, rinsing and/or color restoration may be omitted.

A method of making a molded product. The method includes obtaining a mold having a cavity defined by interior surfaces and applying a gelcoat into the mold. The method further includes at least partially curing the gelcoat within the mold, dispensing a viscous polymeric material into the mold, and curing the polymeric material while the polymeric material is sandwiched between the gelcoat.