A repair kit for use in repairing damaged portions of a surface or adhering objects and methods of using the repair kit are described herein. The repair kit comprises a housing having a first end and as second end, packaging in the form of a sealed container enclosing a resin component and a reactive component that react to form a polymeric composite material when mixed, a dispensing cap configured to engage with the first end of the housing and a pusher configured to engage with a second end of the housing. The sealed container includes a first removable divider engaged with the sealed container in a manner to form and create a first compartment and a second compartment. The polymeric composite material of the repair kit may be used as an adhesive, as a filler or sealant to repair damaged surfaces, pavements, walls, and wooden materials, and as a coating.

A packaged product unit including a package with an inner cavity having a pocket portion containing a product and communicating with an elongated portion in which a straw is housed. The straw has a proximal end which leads into the pocket portion and a distal end which is closed by a cap portion of the package. An outer wall of the straw is welded perimetrically to the package in a proximal sealing area at the proximal end of the straw to prevent leakage of the product from the pocket portion along an outer surface of the straw.

A vial formed two pouches of thermoformed material has a planar top portion and a lower portion with a bulbous portion. The top portion has a notch forming a hook adapted to receive the top of a bottle to hold the vial on the bottle. The bulbous portion defines a cavity for holding contents to be added to the bottle. A line of weakening extends across the vial for opening.

In one aspect, a disposable container for hygienic dispensing of a consumable liquid is disclosed. The container comprises a bag made from a flexible, liquid-impermeable material and has a flexible body portion for containing a consumable liquid and a flexible neck portion with a hermetically sealed mouth. The mouth is for dispensing the consumable liquid upon when opened. The neck portion is in a stored position, tucked inside-out inside the body portion. The tucking results in a continuous fold in the bag. The container also comprises a closure for holding together opposite sides of the bag at the continuous fold to maintain the neck portion of the bag in the stored position, tucked inside-out within the body portion, and to shield the neck portion from external contaminants pending opening or removal of the closure and eversion of the neck portion into a dispensing position.

In methods of making disposable, flexible containers for fluent products, methods of sealing the flexible containers when such containers include expansion materials, are disclosed. The methods include forming a partially completed container blank that has layers of flexible materials. The layered structure includes a first space for a fluent product, and a second space for an expansion material. The methods of sealing the flexible containers include adding an expansion material into the second space and pressing parts of at least some of the layers together to close off the second space.

A package containing a plurality of disposable absorbent articles, the package being formed of flexible polymeric film, and having a path defining a hood opening structure is disclosed. The hood may be configured so as to serve as an effective package reclosure device whereby the package may be used to store the unused supply of articles following opening.

A dispenser device for opening multiple packs of medical electrodes in a single action. The dispenser device includes a plurality of connected pouches including a first terminal pouch and a second terminal pouch. An electrode is disposed within each pouch and a seal extends along each pouch. The dispenser device also includes a tear strip that is substantially aligned with at least a portion of the seal. The tear strip can extend across all pouches. In one single tearing or pulling motion along the tear strip, each pouch of the plurality of connected pouches can be opened.

An agent dose delivery system including: a first water-soluble film; a second film adhered to the first film; a first compartment and second compartment formed by the first film and the second film; a first agent composition in the first compartment; a second agent composition in the second compartment; and a perforated tear line between the two compartments allowing separation of the two compartments by hand without opening either compartment.

The present disclosure provides a flexible pouch. In an embodiment, the flexible pouch includes opposing flexible films. The flexible films define a common peripheral edge. A microcapillary strip is sealed between the opposing flexible films. A first side of the microcapillary strip is located at a first side of the common peripheral edge and a second side of the microcapillary strip located at a second side of the common peripheral edge. A peripheral seal extends along at least a portion of the common peripheral edge. The peripheral seal comprises a sealed microcapillary segment. The peripheral seal forms a closed flexible pouch having a storage compartment. A liquid is present in the storage compartment.

A fluid dispensing container is provided. The container includes a container body formed from a first flexible material defining an interior cavity. The container includes a membrane formed from a second flexible material and a seal coupling the membrane to the inner surface of the container body. The membrane divides the interior cavity into a contents chamber and a dispensing chamber, and the membrane and the seal are configured to be fluid tight to maintain fluid within the contents chamber prior to rupture of the membrane. The rupture stress of the second flexible material is less than the rupture stress of the first flexible material such that, as fluid pressure within the contents chamber increases, the membrane is configured to rupture without the container body rupturing.