The multi-ply tissue products that are both durable and dispersible may be manufactured using a creping process that employs a non-crosslinked vinyl acetate-ethylene polymer as a creping agent. The products generally have a Slosh time less than 2 minutes, such as less than about 60 seconds, such as less than about 45 seconds. Surprisingly, the foregoing Slosh times are achieved despite the tissue products having relatively high cross-machine direction (CD) wet tensile strength, such as greater than about 100 g/3. Typically, increasing wet tensile strength, particularly wet CD tensile strength, negatively effects dispersability and increases Slosh time. Despite this trend, the multi-ply tissue products have a relatively high degree of wet strength and good dispersability.

An embossing group includes: a first embossing roller and at least one embossing unit associated with the first roller. The embossing unit includes a second embossing roller, a third embossing roller, and a sleeve surrounding the second roller and the third roller by coupling them. The sleeve faces the first roller and is configured to contact the first roller. The embossing unit and the first roller are configured to emboss at least one paper sheet wound between the first roller and the embossing unit.

A method is provided for cutting, creasing and/or embossing a cardboard in a cardboard processing machine (10) comprising a rotary die cutting machine (12), the rotary die cutting machine (12) comprising a first rotating cylinder (22) and a second rotating cylinder (24), wherein each of the first and the second cylinder (22, 24) has a cutting, creasing and/or embossing area (26) and a compensation area (28) that extends along the circumference of the respective cylinder (22, 24). A continuous cardboard web (11) being printed with a plurality of repetitive printed sections (40, 41, 42) is run between the two cylinders (22, 24) in a processing direction, wherein a printing length (l) of a printed section (40, 41, 42) is shorter than a circumference of the rotating cylinders (22, 24). Afterwards the cardboard web (11) is pulled back in a direction opposite to the processing direction to such an extent that after a full rotation of the rotating cylinders (22, 24) the cutting, creasing and/or embossing area of the rotating cylinders (22, 24) meets the beginning of the second printed section (41). Moreover, a cardboard processing machine (10) is provided.

Provided is an embosser that contains a first embossing unit configured to emboss a first ply (P) of tissue paper wound between a first upper roller and a first lower roller; and a second embossing unit configured to emboss a second ply (P) of tissue paper wound between a second upper roller and a second lower roller. The first lower roller and the second upper roller are at least close defining a coupling zone (C) of the plies (P) and (P). The embosser further contains at least one dispenser placed upstream of the coupling zone (C) and configured to dispense a predetermined amount of a stiffening substance on a predetermined area A of the embossed ply (P) or (P). Also provided are a converting line for processing tissue paper and a process to stiffen a ply of tissue paper to be coil-winded around a core to be extracted.

An embossing device and a method for embossing, employing an electromagnetic induction device such as to induce an eddy current prevalently on the outer surface of an embossing roller. The eddy currents are such as to prevalently heat the outer surface of the embossing roller.

The embosser includes two load-bearing structures that are mutually movable to approach and move away from each other. The first load-bearing structure supports a plurality of first embossing rollers that can be selectively brought to an operating position, in which they cooperate with a first pressure roller. The second load-bearing structure supports one or more second embossing rollers cooperating with a second pressure roller. The two support structures can be moved away from each other to allow the selection movement of the first embossing rollers.

Disclosed are embossed and structured multi-ply tissue products having improved softness, strength, embossment clarity and/or embossment height. The embossed and structured multi-ply tissue products include at least one embossed structured and/or textured tissue ply. The unique combination of the embossment elements provide for improved embossment element clarity and definition while using at least one thick and structured basesheet.

The present disclosure provides an aerosol-generating article including an aerosol generator including: an aerosol generator comprising an aerosol-generating material configure to vaporize into an aerosol; a tobacco filling part comprising an inner wrapper on which a plurality of folds are formed, and granules of a tobacco material attached to the plurality of folds such that a tobacco component is added to the aerosol passing through the tobacco filling part; and a thermally conductive wrapper wrapped around at least part of outer surfaces of the aerosol generator and the tobacco filling part, and configured to transmit heat to the aerosol-generating material and the tobacco material.

An embossing device and a method for embossing, employing an electromagnetic induction device such as to induce an eddy current prevalently on the outer surface of an embossing roller. The eddy currents are such as to prevalently heat the outer surface of the embossing roller.