At least one aspect of the present disclosure features a reclosable fastener for use on a non-woven article having a first part and a second part. The reclosable fastener includes a first fastener component, a second fastener component, and an adhesive layer attaching the second fastener component to the second part of the non-woven article. The first fastener component has first fastening elements. The first fastener component is attached to or integrated with the first part of the non-woven article. The second fastener component includes second fastening elements configured to engage with first fastening elements. The second fastener component includes one or more inactive regions. The second fastening elements within an inactive region are substantially deactivated.

At least one aspect of the present disclosure features a reclosable fastener for use on a non-woven article having a first part and a second part. The reclosable fastener includes a first fastener component, a second fastener component, and an adhesive layer attaching the second fastener component to the second part of the non-woven article. The first fastener component has first fastening elements. The first fastener component is attached to or integrated with the first part of the non-woven article. The second fastener component includes second fastening elements configured to engage with first fastening elements. The second fastener component includes one or more inactive regions. The second fastening elements within an inactive region are substantially deactivated.

A package and method of making a package are provided, where the package includes a removable flap portion built into one panel and a resealable flap portion built into the opposing panel. The package is constructed such that the removable flap portion overlies the resealable flap portion, and peeling away of the removable flap portion reveals a pressure sensitive adhesive (PSA) of the resealable flap portion and also provides a tamper-evident feature. Once the removable flap portion is peeled away, the consumer can access the contents of the package. The resealable flap portion can be folded over the newly-cut edge of the opposing panel and applied to the outer surface of that panel so as to reclose the package and maintain the contents of the package therein for later consumption.

A package and method of making a package are provided, where the package includes a removable flap portion built into one panel and a resealable flap portion built into the opposing panel. The package is constructed such that the removable flap portion overlies the resealable flap portion, and peeling away of the removable flap portion reveals a pressure sensitive adhesive (PSA) of the resealable flap portion and also provides a tamper-evident feature. Once the removable flap portion is peeled away, the consumer can access the contents of the package. The resealable flap portion can be folded over the newly-cut edge of the opposing panel and applied to the outer surface of that panel so as to reclose the package and maintain the contents of the package therein for later consumption.

A shirr-stable, tubular food casing having a glued, permanently elastic longitudinal seam based on a flat fibrous textile material coated with acrylic, collagen and/or a protein derived therefrom is provided. The seam is generated using a reactive hotmelt glue. The glued seam is resistant to boiling for a long time and also exhibits sufficient stability thereafter. Exemplary textile materials include a consolidated nonwoven or spunbonded nonwoven, a woven fabric, loop-formingly knitted fabric, laid fabric, loop-drawingly knitted fabric. To form the casing, the textile material is coated in the flat state. The coated textile material is cut into strips according to the diameter of the casing to be produced and glued using a reactive hotmelt glue, such as a PUR hotmelt glue, to form the tube. The food casing is preferably used as artificial sausage casing or for wrapping cheese or fish.

A shirr-stable, tubular food casing having a glued, permanently elastic longitudinal seam based on a flat fibrous textile material coated with acrylic, collagen and/or a protein derived therefrom is provided. The seam is generated using a reactive hotmelt glue. The glued seam is resistant to boiling for a long time and also exhibits sufficient stability thereafter. Exemplary textile materials include a consolidated nonwoven or spunbonded nonwoven, a woven fabric, loop-formingly knitted fabric, laid fabric, loop-drawingly knitted fabric. To form the casing, the textile material is coated in the flat state. The coated textile material is cut into strips according to the diameter of the casing to be produced and glued using a reactive hotmelt glue, such as a PUR hotmelt glue, to form the tube. The food casing is preferably used as artificial sausage casing or for wrapping cheese or fish.

A system and method for forming reinforced packages. The method can comprise forming an attached web by adhering a construct to a web of material, and moving the attached web in a downstream direction through at least a web edge forming assembly. The moving the attached web can comprise moving the construct with the web of material. The method further can include at least partially forming a folded web by folding at least a portion of the web of material as the attached web moves through the web folding assembly and forming a reinforced package comprising a liner and the construct by separating the liner from a remainder of the folded web. The construct is adhered to the liner.

A system and method for forming reinforced packages. The method can comprise forming an attached web by adhering a construct to a web of material, and moving the attached web in a downstream direction through at least a web edge forming assembly. The moving the attached web can comprise moving the construct with the web of material. The method further can include at least partially forming a folded web by folding at least a portion of the web of material as the attached web moves through the web folding assembly and forming a reinforced package comprising a liner and the construct by separating the liner from a remainder of the folded web. The construct is adhered to the liner.

Improved object wrapping materials exhibiting a number of beneficial properties to overcome prior deficiencies are provided. Such properties include the inclusion of a separation interface overlay that allows for greater rigidity at the leading and trailing edges of such wraps. Also, the inclusion of shear-reducing wrap material portions is described, as well as recoil reduction structures within the leading edge regions. Furthermore, core adhesive additions allow for greater resiliency to the base wrap material as it unwinds therefrom, reducing potential waste wrap products by permitting greater amounts of wrap materials in use. Other considerations include the ability, through proper configuration designs, to position a wrap separation indicator within a certain range of distances from the trailing edge, thereby providing greater reliability of wrap application device disengagement during wrap application. Such benefits are thus supplied individually and in tandem for improved versatility and utility of such wrap materials.

Improved object wrapping materials exhibiting a number of beneficial properties to overcome prior deficiencies are provided. Such properties include the inclusion of a separation interface overlay that allows for greater rigidity at the leading and trailing edges of such wraps. Also, the inclusion of shear-reducing wrap material portions is described, as well as recoil reduction structures within the leading edge regions. Furthermore, core adhesive additions allow for greater resiliency to the base wrap material as it unwinds therefrom, reducing potential waste wrap products by permitting greater amounts of wrap materials in use. Other considerations include the ability, through proper configuration designs, to position a wrap separation indicator within a certain range of distances from the trailing edge, thereby providing greater reliability of wrap application device disengagement during wrap application. Such benefits are thus supplied individually and in tandem for improved versatility and utility of such wrap materials.