A surfboard wax packaging apparatus for an ingot of surfboard wax includes a heated paraffin tank configured for holding the ingot of surfboard wax and heating paraffin wax until molten. A quantity of 100% neutral inert paraffin wax is placed in the heated paraffin tank sufficient to cover the ingot of surfboard wax when submerged therein. A holder having a handle portion, an extension portion and a mount is provided. The handle portion is configured for hanging the holder on a rod, and the mount is configured to securely hold the ingot of surfboard wax, the extension portion keeps the handle portion outside the heated paraffin tank when the ingot is submerged in the paraffin tank, and a rod is provided for hanging the handle portion to allow the paraffin-encased ingot of surfboard wax to cool and dry prior to re-submersion.

An apparatus includes a flexible container, a port, and a support structure. The container includes a first layer coupled to a second layer to define a storage volume within which a tissue specimen can be contained. The first layer is characterized by a first stiffness and the second layer characterized by a second stiffness. An edge of the first layer is spaced apart from an edge of the second layer to define an opening into the storage volume. The edge of the first layer and the edge of the second layer are configured to form a peelable seal that hermetically seals the storage volume such that the first layer can be peeled away from the second layer to expose the storage volume. The port is coupled to the flexible container and allows fluid communication between the storage volume and an external volume. The support structure is configured to support the tissue specimen within the storage volume and is characterized by a third stiffness. The third stiffness is greater than the first stiffness and the second stiffness.

An apparatus includes a flexible container, a port, and a support structure. The container includes a first layer coupled to a second layer to define a storage volume within which a tissue specimen can be contained. The first layer is characterized by a first stiffness and the second layer characterized by a second stiffness. An edge of the first layer is spaced apart from an edge of the second layer to define an opening into the storage volume. The edge of the first layer and the edge of the second layer are configured to form a peelable seal that hermetically seals the storage volume such that the first layer can be peeled away from the second layer to expose the storage volume. The port is coupled to the flexible container and allows fluid communication between the storage volume and an external volume. The support structure is configured to support the tissue specimen within the storage volume and is characterized by a third stiffness. The third stiffness is greater than the first stiffness and the second stiffness.

The present invention relates to a plant-based wrapping paper for wrapping food. The plants (raw materials) may be fruits, herbs, medicinal plants, tea, vegetables and/or spices. The invention further relates to a method for producing said wrapping paper, its use for wrapping food or its use as packaging material.

The present invention relates to a plant-based wrapping paper for wrapping food. The plants (raw materials) may be fruits, herbs, medicinal plants, tea, vegetables and/or spices. The invention further relates to a method for producing said wrapping paper, its use for wrapping food or its use as packaging material.

The disclosure pertains to a wrapper (22) for an absorbent article (10) comprising a release paper (51,51′) comprising a layer of cellulosic fibers (33), a layer of peeling agent (32) arranged onto the layer of cellulosic fibers (33). According to the disclosure, the layer of cellulosic fibers (33) comprises a basis weight comprised between 10 gsm and 40 gsm. The disclosure also relates to an assembly comprising an absorbent article (10) and such wrapper (22) and a process to manufacture such assembly (10).

The present invention relates to inkjet printable twist and/or fold wrap film for packaging applications, to inkjet printed twist and/or fold wrap film for packaging applications, to packaging including said inkjet printable or inkjet printed twist and/or fold wrap film, the use of the inkjet printable or inkjet printed twist and/or fold wrap film for as well as to the method of making a filled packaging.

The present invention relates to inkjet printable twist and/or fold wrap film for packaging applications, to inkjet printed twist and/or fold wrap film for packaging applications, to packaging including said inkjet printable or inkjet printed twist and/or fold wrap film, the use of the inkjet printable or inkjet printed twist and/or fold wrap film for as well as to the method of making a filled packaging.

A packaging material (material) of the present invention is used to cover and wrap the metal parts during transportation and storing and in order to prevent rusting and corrosion. The material includes an inner layer and a pair of outer layers sandwiching the inner layer. The inner layer is formed from extruded rigid PET material wherein the outer layers are fabricated from VCI (vapor corrosion inhibitor) embedded into extruded sheets of rigid PET. The material is used for packaging for all ferrous metals for anti-rust. As VCI is thermoformed to embed corrosion inhibitors directly into rigid plastic material of the outer layers it improves quality by ensuring corrosion inhibitors are incorporated into all packaging.

A packaging material (material) of the present invention is used to cover and wrap the metal parts during transportation and storing and in order to prevent rusting and corrosion. The material includes an inner layer and a pair of outer layers sandwiching the inner layer. The inner layer is formed from extruded rigid PET material wherein the outer layers are fabricated from VCI (vapor corrosion inhibitor) embedded into extruded sheets of rigid PET. The material is used for packaging for all ferrous metals for anti-rust. As VCI is thermoformed to embed corrosion inhibitors directly into rigid plastic material of the outer layers it improves quality by ensuring corrosion inhibitors are incorporated into all packaging.