Examples of the present disclosure are related systems and methods for lead-ins for anti-fatigue floor mats. More particularly, embodiments disclose lead-ins with tapered ends with variable heights that transition from a floor level to a mat surface level to enable drop stitch-mats to be used in residential and commercial areas.

A packaging material for batteries including a laminate in which at least a base material layer, a metal layer, and a sealant layer are laminated in order. The battery packaging material satisfies the relationships of: (A1−A2)≥60 N/15 mm; and (B1−B2)≥50 N/15 mm. A1 is a stress in elongation by 10% in the MD direction and B1 is a stress in elongation by 10% in the TD direction in the laminate, and A2 is a stress in elongation by 10% in the MD direction and B2 is a stress in elongation by 10% in the TD direction in the base material layer.

Disclosed is a method of adhering a translucent floor material on top of a central wooden platform of a weight lifting station to make a unitary structure, where the wooden platform or a design positioned between the wooden platform and the translucent floor material is visible through the translucent floor material after the translucent floor material and the wooden platform are adhered together.

A packaging material for batteries including a laminate in which at least a base material layer, a metal layer, and a sealant layer are laminated in order, the sum (A+B) of a value A of stress when 40% extended/stress when 10% extended in the direction MD and a value B of stress when 40% extended/stress when 10% extended in the direction TD of the laminate satisfying the relationship A+B≧2.50.

A dimensionally stable universal floor covering includes a tufted textile having stitches and a reinforcement layer operatively connected to the stitches to provide dimensional stability for the entire floor covering. The reinforcement layer is made of fibers that are initially contained within a composition of adhesive and fibers. Mixing of the adhesive/fibers composition and/or injection of compressed air, assists in preparing the adhesive and fiber composition to be in the preferred condition and position prior to the forming of the reinforcement layer. Multiple sources of pressure, including vacuum, are applied in a controlled manner for moving the adhesive and fiber composition to form a reinforcement layer of fibers that is operatively connected to the stitches and/or to form a layer of fibers and adhesive that is contained within the stitches. The universal floor covering is selectively cut and transported in a roll for installation, and it can be conveniently recycled if necessary.

A composite ballistic panel provides cost-effective ballistic protection against projectiles. The composite ballistic panel comprises a composite ballistic assembly with an impact/strip layer that alters the projectile during striking contact with the projectile by flattening the projectile, distorting the shape of the projectile, reducing rotation of the projectile, reducing the velocity of the projectile, and inducing yaw to the projectile; a non-ballistic deflection layer that forms a cavity to inhibit propagation of the projectile's shock wave; and a containment layer that stops and captures the projectile within the composite ballistic assembly. Additionally, the composite ballistic panel may have a protection layer and a boundary edge to enhance capture of the projectile and ballistic characteristics, and an intermediate layer that acts as spacer between layers.

A direct thermal printable construct, such as a ticket, game piece, coupon, collection piece, label, security card, or voucher includes a thermally printable medium and a metallized layer bonded directly or indirectly to the thermally printable medium. A thermosensitive imaging layer of the thermally printable medium is printable by exposing the metallized layer to localized heat of a thermal printer for inducing local changes in the color of the thermosensitive imaging layer that are obscured from view through both the metallized layer and a base substrate of the thermally printable medium. One or more areas of the metallized layer are arranged to be removable by a scratching action using a fingernail or coin for revealing the underlying local changes in the color of the thermosensitive imaging layer.

The present invention relates to a method for producing a single-sided adhesive film (1) for securing a load, comprising providing a backing layer (2) and coating a first side of the backing layer (2) with an adhesive layer (3), wherein a plastic (4) is applied to a second side of the backing layer (2) in order to form a non-slip surface on the adhesive film (1). Moreover, the present invention relates to a single-sided adhesive film (1) produced by the above method.

The disclosure relates to a multilayer panel for producing a floor covering, comprising a wear layer bonded to a back layer, said back layer being made up of at least a thermoplastic material, a plasticizer and fillers, the wear layer comprising a surface layer made up at least of PVC, said surface layer having a Shore D hardness greater than or equal to 60 and a Young's modulus greater than or equal to 1000 MPa.

A detachable carpet includes a carpet surface and an anti-slip mat. The carpet surface includes a surface layer and a bottom three-dimensional mesh fabric structure layer. The anti-slip mat includes a bottom anti-slip and water-repellent layer and an upper bonding layer, and the bonding layer is a single-sided fabric on which are arranged a plurality of polyester, polypropylene or nylon monofilament protrusions. The protrusions can be inserted into corresponding meshes of the three-dimensional mesh fabric structure layer. The bonding layer of the anti-slip mat of the present invention adopts a single-sided structure layer formed by cutting the middle of the three-dimensional mesh fabric structure layer, or a single-sided fabric that is made of at least 20D monofilament and provided with protrusions. The 20D-120D polyester, polypropylene or nylon monofilament on the bonding layer forms thick and rigid protrusions with a certain stiffness.