In one or more arrangements, a method is provided for manufacturing a game call that incorporates ashes of cremated remains of a pet or loved one. The provided method incorporates the ashes into a polymer mixture used to form one or more components of the game call. In this manner, the resulting game call may serve as a memorial keepsake of the pet or loved one. The ashes are mixed with a polymer and poured into a mold. The mold is shaped for formation of at least one component of the game call. Once hardened, the polymer and remains mixture is removed from the mold and set to cure. After curing, a call profile is cut into the component. The component may be processed, for example, by sanding, wet sanding, finishing, painting, and/or polishing. The component is assembled with other components of the game call to form the game call.

An apparatus comprises: at least one mould for forming an object from a dose of polymeric material; a conveying device having a central support rotatable about a first axis the conveying device comprising at least one conveying element movable along a first closed path for collecting the dose and subsequently releasing the dose in the mould; a removing device having a central body rotatable about a second axis, the removing device comprising at least one removing element movable along a second closed path for conveying the object away from the mould.

The first axis is distinct from the second axis and at least one point exists at which one path selected from between the first closed path and the second closed path overlaps another path selected from between the second closed path and the first closed path.

An apparatus comprises: at least one mould for forming an object from a dose of polymeric material; a conveying device having a central support rotatable about a first axis the conveying device comprising at least one conveying element movable along a first closed path for collecting the dose and subsequently releasing the dose in the mould; a removing device having a central body rotatable about a second axis, the removing device comprising at least one removing element movable along a second closed path for conveying the object away from the mould.

The first axis is distinct from the second axis and at least one point exists at which one path selected from between the first closed path and the second closed path overlaps another path selected from between the second closed path and the first closed path.

Disclosed is a process for producing a thermoformable and/or embossable particle/polymer composite using a ground particulate biological substrate S of nutrient tissue and a polymer P, characterized in that (i) the substrate S and the polymer P are homogeneously mixed, then (ii) the substrate S/polymer P mixture is converted into a particle layer, and thereafter (iii) the resulting particle layer is densified at a temperature higher than or equal to the glass transition temperature of the polymer P [Tg.sup.P] to form a thermoformable and/or embossable particle/polymer composite,
where (a) the substrate S comprises extracted ground coffee beans; and (b) the polymer P is thermoplastic and has a Tg.sup.P≥20° C. measured according to DIN EN ISO 11357-2 (2013-09).

Furthermore, a process for the manufacturing of a particle/polymer molding, a particle/polymer molding and its use as an element in buildings or in furniture are disclosed.

An elastic membrane having a physical property required for each portion of the elastic membrane and capable of uniformly polishing a workpiece is disclosed. The elastic membrane includes: a contact portion having a workpiece pressing surface for pressing a workpiece against a polishing surface; and a partition wall extending upward from the contact portion and forming a pressure chamber. The contact portion and at least a part of the partition wall are composed of a first rubber structure and a second rubber structure which are integrally formed, the first rubber structure has a first hardness, and the second rubber structure has a second hardness lower than the first hardness, the first rubber structure includes the workpiece pressing surface, and the second rubber structure includes the at least a part of the partition wall.

Various textile materials and method of manufacturing the same are provide. A method of single layer garment includes providing a single layer of textile material with low melt yarn. The method also includes forming the structure of the single layer of textile 5 material using selective heating to provide material support. The textile material are formed via at least one of a molding machine or a robotic hot air machine.

Various textile materials and method of manufacturing the same are provide. A method of single layer garment includes providing a single layer of textile material with low melt yarn. The method also includes forming the structure of the single layer of textile 5 material using selective heating to provide material support. The textile material are formed via at least one of a molding machine or a robotic hot air machine.

A method for micro-molding a polymeric membrane and including pouring a predetermined volume of curable polymer unto a micro-fabricated mold having a post array with pillars, and overlaying the polymer with a support substrate. A spacer, such as a rubber spacer, is placed in contact with the support substrate and a force is applied to an exposed side of the spacer to compress the support substrate and the polymer together. While applying the force, the polymer is cured on the mold for a predetermined time period and at a predetermined temperature to form a polymeric membrane having a pore array with a plurality of pores corresponding to the plurality of pillars of the post array. The polymeric membrane is removed from the support substrate.

The invention disclosed herein is an automotive acoustic panel including a porous sound-absorption material made from a polymer and an expanded perlite. One or more silane compounds may be coupled or coated onto the expanded perlite while a coupling agent and a chemical foaming agent may additionally be added to the automotive acoustic panel.

A shaping system comprises a dispensing station configured to dispense formable material on a substrate, a shaping station configured to contact the dispensed formable material on the substrate with a plate, a positioning system configured to move the substrate having the dispensed formable material from the dispensing system to the shaping station, and a cover having one or more walls. While the substrate having the dispensed formable material is moved by the positioning system from the dispensing station to the shaping station, the cover is positioned to enclose the substrate and the dispensed formable material such that a ratio of a diameter of the substrate to a distance between the cover and the substrate to 80:1 to 30:1.