A wall panel system for attachment to a building surface includes a plurality of generally vertical supports, and a plurality of generally horizontal mounting rails interconnected with the vertical supports to define a panel mounting gridwork. The horizontal mounting rails have an upper mounting feature and a lower mounting feature, on a side opposite from the building surface. A plurality of panels each have a rear surface, an upper extrusion mounted to a top of the rear surface, and a lower extrusion mounted to a bottom of the rear surface. The upper extrusion mates with a corresponding lower mounting feature on the gridwork, and the lower extrusion mates with a corresponding upper mounting feature on the gridwork. The plurality of panels have a gap about a periphery thereof relative to any adjacent panels, whereby the panels can be non-sequentially mounted to the gridwork.

A wall panel system for attachment to a building surface includes a plurality of generally vertical supports, and a plurality of generally horizontal mounting rails interconnected with the vertical supports to define a panel mounting gridwork. The horizontal mounting rails have an upper mounting feature and a lower mounting feature, on a side opposite from the building surface. A plurality of panels each have a rear surface, an upper extrusion mounted to a top of the rear surface, and a lower extrusion mounted to a bottom of the rear surface. The upper extrusion mates with a corresponding lower mounting feature on the gridwork, and the lower extrusion mates with a corresponding upper mounting feature on the gridwork. The plurality of panels have a gap about a periphery thereof relative to any adjacent panels, whereby the panels can be non-sequentially mounted to the gridwork.

A panel configured for attachment to a mounting surface includes a plurality of raised faces that are formed between an upper edge and a lower edge of the panel. A shoulder is defined on the raised faces adjacent the upper edge and is spaced from the mounting surface, when assembled or attached thereto, by a shoulder offset. A plurality of keyways are recessed between each of the raised faces and are spaced from the mounting surface by a bottom keyway offset adjacent to the butt edge. The bottom keyway offset is substantially aligned with the shoulder offset.

Halogen-free decorative surface covering compositions comprising a polymer blend, the polymer blend comprising: a) at least one thermoplastic elastomer, the thermoplastic elastomer being a block copolymer comprising hard and soft sequences, wherein the hard sequence is a (co)polymer of one or more vinyl aromatic monomer(s) and wherein the soft sequence is a (co)polymer of one or more alkylene(s) or of a mixture of one or more alkylene(s) and one or more vinylaromatic monomers; b) at least one thermoplastic polyurethane.

Halogen-free decorative surface covering compositions comprising a polymer blend, the polymer blend comprising: a) at least one thermoplastic elastomer, the thermoplastic elastomer being a block copolymer comprising hard and soft sequences, wherein the hard sequence is a (co)polymer of one or more vinyl aromatic monomer(s) and wherein the soft sequence is a (co)polymer of one or more alkylene(s) or of a mixture of one or more alkylene(s) and one or more vinylaromatic monomers; b) at least one thermoplastic polyurethane.

A panel assembly covers a bearing surface. The panel assembly includes a panel and a plurality of panel supports. Each one of the panel supports includes a mounting plate, first and second panel edge engaging portions and a protruding rib engaging portion. The panel includes a first edge region, an opposed second edge region, a covering portion extending between the first and second edge regions, and at least one rearwardly protruding rib extending between the first and second edge regions. The first edge region, the second edge region, and the at least one rearwardly protruding rib of the panel are respectively engageable with the first panel edge engaging portions, the second panel edge engaging portions, and the protruding rib engaging portions of the supports. The panel assembly is translatable with respect to the panel supports when engaged together.

A cladding kit is provided for a structure cladding, the structure cladding comprising a first panel that extends away from a structure location along a first surface portion of the structure and a second panel that extends away from the structure location along a second surface portion of the structure. The cladding kit comprises a base piece couplable to the structure at the structure location, the base piece comprising a base connector, and a trim piece comprising first and second wings and a trim connector shaped to make a connection with the base connector to thereby couple the trim piece to the base piece. The first wing is shaped to contact, and be deformed by, the first panel when a connection is made. The second wing is shaped to contact, and be deformed by, the second panel when the connection is made.

A cladding kit is provided for a structure cladding, the structure cladding comprising a first panel that extends away from a structure location along a first surface portion of the structure and a second panel that extends away from the structure location along a second surface portion of the structure. The cladding kit comprises a base piece couplable to the structure at the structure location, the base piece comprising a base connector, and a trim piece comprising first and second wings and a trim connector shaped to make a connection with the base connector to thereby couple the trim piece to the base piece. The first wing is shaped to contact, and be deformed by, the first panel when a connection is made. The second wing is shaped to contact, and be deformed by, the second panel when the connection is made.

A method for producing a surface covering system comprising magnetically receptive layers affixed to surface covering units and magnetized underlayments for use in securing surface covering units to supporting surfaces. The system includes isotropic magnetized floor covering units and anisotropic magnetized underlays for securing surface covering units. The system includes a set of formulations including ferrites and rare earth materials, oils and plasticizer and binding agents to optimize performance to meet design and application criteria.

A method for producing a surface covering system comprising magnetically receptive layers affixed to surface covering units and magnetized underlayments for use in securing surface covering units to supporting surfaces. The system includes isotropic magnetized floor covering units and anisotropic magnetized underlays for securing surface covering units. The system includes a set of formulations including ferrites and rare earth materials, oils and plasticizer and binding agents to optimize performance to meet design and application criteria.