Apparatus and methods for removing and/or destroying support structures associated with objects fabricated using additive manufacturing techniques are presented herein. Structural supports may be used during an additive manufacturing process to prevent deformation of a build piece (e.g., three dimensional (3D) printed structure). In some examples, a build piece may be manufactured such that the structural supports are internal to the completed build piece. However, removing the structural supports may reduce the weight of the build piece and reduce the amount of debris trapped within the build piece. Thus, certain aspects of the disclosure are directed to a hose including a bendable and elongated tube member as well as a fracturing member configured to fracture an internal support structure within an additively manufactured part.

A sanitary faucet (1) having at least: a faucet housing (2) having an outlet (3) and an outlet opening (4); and a hose (5) made of silicone having at least one first lumen (6) for routing a first liquid from a first source of liquid (7) to the outlet opening (4), a second lumen (8) for routing a second liquid from a second source of liquid (9) to the outlet opening (4) and a third lumen (10) for routing a third liquid from a third source of liquid (11) to the outlet opening (4), wherein the hose (5) contains at least in part a jacket (12).

A hose assembly includes a hose and a support member. The hose includes a first portion, a second portion and a third portion. The first portion defines a first diameter. The second portion defines a second diameter that is different from the first diameter. The third portion defines a third diameter that is different from the first diameter and the second diameter. A first flange portion is defined at an intersection of the first portion and the second portion. A second flange portion is defined at an intersection of the second portion and the third portion. The support member includes a first end portion and a second end portion. The first end portion is adapted to engage with the first flange portion. The second end portion is adapted to engage with the second flange portion.

A hose assembly includes a hose and a support member. The hose includes a first portion, a second portion and a third portion. The first portion defines a first diameter. The second portion defines a second diameter that is different from the first diameter. The third portion defines a third diameter that is different from the first diameter and the second diameter. A first flange portion is defined at an intersection of the first portion and the second portion. A second flange portion is defined at an intersection of the second portion and the third portion. The support member includes a first end portion and a second end portion. The first end portion is adapted to engage with the first flange portion. The second end portion is adapted to engage with the second flange portion.

Hose embodiments include an inner tube, a reinforcement layer disposed outwardly adjacent the inner tube, and an outer cover layer disposed outwardly adjacent the reinforcement layer. One or more of the inner tube and cover layer may be based upon a curable composition having EPDM, a filler package, and a sulfur curative, and after curing, the hose embodiments meet the testing requirements of the UL 94 standard. In some cases, the inner tube is based upon the curable composition, while in some other cases, the cover layer is based upon the curable composition. Yet, in other cases, the inner tube and the cover layer each is based upon the curable composition. In some aspects, the curable composition includes the EPDM in an amount of from 10% to 30% by weight, or even in an amount of from 30% to 80% by weight.

Hose embodiments include an inner tube, a reinforcement layer disposed outwardly adjacent the inner tube, and an outer cover layer disposed outwardly adjacent the reinforcement layer. One or more of the inner tube and cover layer may be based upon a curable composition having EPDM, a filler package, and a sulfur curative, and after curing, the hose embodiments meet the testing requirements of the UL 94 standard. In some cases, the inner tube is based upon the curable composition, while in some other cases, the cover layer is based upon the curable composition. Yet, in other cases, the inner tube and the cover layer each is based upon the curable composition. In some aspects, the curable composition includes the EPDM in an amount of from 10% to 30% by weight, or even in an amount of from 30% to 80% by weight.

Embodiments of the present disclosure generally relate to crosslinked TPE or TPV compositions, flexible pipes containing crosslinked TPE or TPV compositions, and methods for forming crosslinked elastomer polymer compositions and flexible pipes. In an embodiment, a flexible pipe includes a plurality of layers, where at least one layer includes a composition including: at least one polar elastomer, and a polymer having a crystallinity of about 20% or greater. In an embodiment, a pipe includes an inner sheath, an outer sheath, a first armor layer, and a second armor layer, where at least one of the inner sheath and the outer sheath comprises a crosslinked TPE or TPV composition that is the reaction product of an elastomer having a polarity of about 90° or less, a polymer having a crystallinity of about 20% or greater, and a crosslinking agent.

Embodiments of the present disclosure generally relate to crosslinked TPE or TPV compositions, flexible pipes containing crosslinked TPE or TPV compositions, and methods for forming crosslinked elastomer polymer compositions and flexible pipes. In an embodiment, a flexible pipe includes a plurality of layers, where at least one layer includes a composition including: at least one polar elastomer, and a polymer having a crystallinity of about 20% or greater. In an embodiment, a pipe includes an inner sheath, an outer sheath, a first armor layer, and a second armor layer, where at least one of the inner sheath and the outer sheath comprises a crosslinked TPE or TPV composition that is the reaction product of an elastomer having a polarity of about 90° or less, a polymer having a crystallinity of about 20% or greater, and a crosslinking agent.

The invention relates to a retractable pipe whose wall is formed of at least one flexible gas-impermeable and/or liquid-impermeable tape welded by its selvages in the form of a cylindrical helix and of at least one metal wire in the form of a cylindrical helix whose pitch is the same as the one formed by said band, characterized in that said tape is a double fabric textile comprising at least two regions where the two fabrics work together to delimit at least one inflatable zone, said textile being covered with a coating layer of a gas and/or liquid-impermeable material.

Woven irrigation tubing comprising a woven, extrusion coated & laminated tube formed of a high density polyethylene (HDPE) outer layer, a low density polyethylene (LDPE) middle layer and a linear low density polyethylene (LLDPE) inner layer. The finished tubing is treated for ultraviolet resistance. The tubing is tied off at a distal end with a proximal end connected to a pressurized irrigation source. Watering holes are created in the tubing at spaced intervals and the resulting water streams are directed into parallel plowed furrows. The tubing is completely recyclable. The tubing is formed by manufacturing tape for the woven outer tubing cover, stretching the tape along its length to strengthen it, weaving the outer layer from the tape, flattening the woven outer layer, extrusion coating each surface of the outer layer with LDPE, laminating the LLDPE inner layer to the LDPE, reversing and winding the tubing for storage and distribution.