An antimicrobial article includes a flexible substrate; and a plurality of first protrusions which is formed on at least one surface of the substrate, includes a crosslinked polymer resin and antimicrobial materials dispersed in the polymer resin, and is formed with first grooves in which at least one of bacteria, fungi, and viruses may be received. According to the present disclosure, in the antimicrobial article and the manufacturing method thereof, it is possible to greatly improve the antimicrobial effect of the antimicrobial article by minimizing a distance between bacteria, fungi, or viruses attached to the antimicrobial article and antimicrobial materials of the antimicrobial article to maximize the quantity of the antimicrobial materials that affect the bacteria, fungi, or viruses.

Provided is a method of manufacturing a sensor. The sensor has a casing having an opening portion, a clamp having a recessed part on its outer periphery and having one end inserted into the opening portion, and a sealing ring attached to the recessed part and disposed between the casing and the clamp. The method includes using a first divided mold to form a first component of the clamp, the first component including a main body portion and a first part located at one end side of the main body portion and forming a part of the recessed part. The first divided mold is divided so that a dividing surface intersects the main body portion and separates in an axial direction of the main body portion.

According to one embodiment, a template for imprint patterning processes comprises a template substrate having a first surface and a pedestal on the first surface of the template substrate, the pedestal having a second surface spaced from the first surface in a first direction perpendicular to the first surface. A pattern is disposed on the second surface. The pedestal has a sidewall between the first surface and the second surface that is at an angle of less than 90° to the second surface.

Described is a cap (1) for a container (2), a combination of a closing cap for a container and a neck of the container and a relative method for making the cap for the container. The cap comprises a lateral wall extending about an axis and a transversal wall positioned at one end of the lateral wall, a separation line being provided on the lateral wall to define a retaining ring, which is configured to remain anchored to a neck of the container and which extends up to a free edge; a closing element (302) removably engageable with the neck, so as to open or close the container; the separation line extends about an axis and being circumferentially interrupted to leave the retaining ring (301) and the closing element joined; wherein the retaining ring comprises a joining portion (305) at which the retaining ring is joined to the closing element; a first connecting band (306), which extends from a first end zone of the joining portion to the retaining portion (303), and a second connecting band (307), which extends from a second end zone of the joining portion, the second end zone being positioned circumferentially on the opposite side to the first end zone; a tab (308), interposed between the first connecting band (306) and the second connecting band (307) and being protruding, or aligned with respect to it, so that, when the closing element is in an open condition and the connecting bands keep the closing element connected to the retaining ring, the tab can rest on the neck (201). A method is also provided for making the cap in a cutting unit.

A method of forming a container (1) and a container (1) formed thereby. A preform (2), having a generally cylindrical body (60, 8) extending between a closed end (12) and an open mouth, is placed within a mold (20, 22) having surfaces corresponding in shape to the desired container (1). An incompressible medium, which is the end product that remains in the molded container (1), is injected under pressure into the preform (2). Under the influence of the incompressible medium, the preform (2) is expanded into contact with the surfaces defining the cavity, simultaneously forming and filling the container (1). During expanding of the preform (2), portions of the plastic material are forced into a series of recesses (72) defined in the cavity surface (82, 85). With the incompressible medium contained therein, the container (1) is removed from the mold (20, 22) and including a series of raised dots corresponding to the series of recesses (72) defined in the cavity surface (82, 85). A method of forming a container (1) and a container (1) formed thereby. A preform (2), having a generally cylindrical body (60, 8) extending between a closed end (12) and an open mouth, is placed within a mold (20, 22) having a surfaces corresponding in shape to the desired container (1). An incompressible medium, which is the end product that remains in the molded container (1), is injected under pressure into the preform (2). Under the influence of the incompressible medium, the preform (2) is expanded into contact with the surfaces defining the cavity, simultaneously forming and filling the container (1). During expanding of the preform (2), portions of the plastic material are forced into a series of recesses (72) defined in the cavity surface (82, 85). With the incompressible medium contained therein, the container (1) is removed from the mold (20, 22) and including a series of raised dots corresponding to the series of recesses (72) defined in the cavity surface (82, 85).

A hydroformed expanded spun bonded nonwoven has a first substantially planar surface on one side thereof and a second surface on an opposite side thereof. The second surface includes a plurality of protuberances in a pattern. The hydroformed expanded spun bonded nonwoven web has an average loft of at least about 1.3 times greater than an original average loft of an original unexpanded spun bonded nonwoven web from which the hydroformed expanded spun bonded nonwoven web was created and an air permeability of at least about 1.2 times greater than an original air permeability of the original unexpanded spun bonded nonwoven web. The hydroformed expanded spun bonded nonwoven web includes bicomponent fibers combining a polymer with PLA in a ratio of polymer/PLA within a range of about 20/80 to 80/20.

A method for preparing an object including at least one film including at least one layer including a composition including at least one semi-crystalline polyamide having a melt enthalpy of between 25 J/g and 75 J/g, the film having on all or part of at least one of its surfaces the texture of a texturing element, wherein the method includes: a. providing a mold set to a temperature less than or equal to 120° C.; b. applying to the wall of the mold, at least one texturing element, and having at least partially a textured surface, the textured surface being on the face opposite that facing the mold; c. applying to the textured surface of the texturing element, at least one film comprising at least one layer, the thickness of the layer being at least 10 μm; d. applying heat and pressure to the film.

A device for marking a work piece that is at least partially formed or reshaped through a thermal process is provided. The device includes a plurality of heating elements distributed laterally on a surface that is placed against the work piece and can be individually controlled for local heating of a work piece surface. Each of the heating elements includes a solid material with a surface structure and a heating structure. The surface structure includes at least one of a specifically or randomly varied topography. The surface structure can be at least partially heated through the heating structure.

The present invention provides a scaffold for tissue regeneration and a method of manufacturing the same. The scaffold for tissue regeneration of the present invention includes grooves and ridges formed on one surface thereof, wherein the grooves or ridges have a plurality of nanopores formed thereon, thereby providing an environment suitable for attachment, differentiation, growth, and migration of cells. Therefore, the scaffold may be effectively used as a material for tissue regeneration.

Described is a cap for a container, a combination of a closing cap for a container and a neck of the container and a relative method for making the cap for the container.

The cap comprises a lateral wall extending about an axis and a transversal wall positioned at one end of the lateral wall, a separation line being provided on the lateral wall to define a retaining ring, which is configured to remain anchored to a neck of the container and which extends up to a free edge; a closing element removably engageable with the neck, so as to open or close the container; the separation line extends about an axis and being circumferentially interrupted to leave the retaining ring and the closing element joined; wherein the retaining ring comprises a joining portion at which the retaining ring is joined to the closing element; a first connecting band, which extends from a first end zone of the joining portion to the retaining portion, and a second connecting band, which extends from a second end zone of the joining portion, the second end zone being positioned circumferentially on the opposite side to the first end zone; a tab, interposed between the first connecting band and the second connecting band and being protruding, or aligned with respect to it, so that, when the closing element is in an open condition and the connecting bands keep the closing element connected to the retaining ring, the tab can rest on the neck. A method is also provided for making the cap in a cutting unit.