A mechanically-interlocked decorative column assembly, and methods for forming such a column assembly without the use of adhesives. The column assembly includes at least first and second panel members that may be joined together form a column. Each panel member may be formed from extruded from cellular foam polyvinyl chloride (PVC) material. First and second interlocking structures provided on the first and second panel members, respectively, engage to maintain the panel members in the assembled condition during the service life of the column assembly, without the need for adhesives.

A cladding or siding assembly for use as cladding or siding for a wall of a building or structure having a face includes at least one panel member and at least two parallel and spaced support rail members which are arranged to allow at least one panel member to slidably interfit in between the support rail members, to be located and be removable at any time during construction or any time later after completion. The panel member is slotted between an upper support rail member and a parallel lower support rail member, whereby at an upper end of the panel member recess slidably interfits with the lower tab member of the upper support rail member having second end leg of perimeter frame within lower recess and the recess at a lower end of the same panel member slidably captures shorter upper tab member of the lower support rail member whereby second end leg is captured in upper recess of lower support rail member. A panel member and method of assembly are also disclosed.

Disclosed is a corner bead for mounting on an internal or external corner of a building construction, the corner bead including a first flange and a second flange which are configured with a longitudinal extension and a generally L-shaped cross-section. Furthermore, the first flange has a first surface intended for facing the building construction and the second flange has a second surface also intended for facing the building construction, wherein at least one of the first surface and the second surface is at least partially coated with an adhesive element. Also disclosed is a method for manufacturing an absorbent article of the above-mentioned type.

Methods of manufacturing thin brick sheets are disclosed. The thin brick sheets can be used as a wall or floor covering. The methods can include adhering a plurality of thin bricks to a backing layer with an adhesive. The backing layer defines a grid that includes a plurality of holes, is non-stretchable, and can provide strength and rigidity to the thin brick sheets.

A fiber enforced sheet for use as a wall or floor covering which comprises of adhered thin bricks bonded to a fiber-reinforced, backing layer. Thin brick is adhered to the fiber enforced sheet. The fiber enforced backing increases strength and rigidity to the thin brick during handling, and installation permits the thin bricks to be adhered to proper specification and spacing to be cut using ordinary tile or thin brick tools.

A fiber enforced sheet for use as a wall or floor covering which comprises of adhered thin bricks bonded to a fiber-reinforced, backing layer. Thin brick is adhered to the fiber enforced sheet. The fiber enforced backing increases strength and rigidity to the thin brick during handling, and installation permits the thin bricks to be adhered to proper specification and spacing to be cut using ordinary tile or thin brick tools.

A tile system for a burn room includes a plurality of interlocking surface tiles, each surface tile having an upper portion and a lower portion. The lower portion extends beyond at least a portion of a perimeter of the upper portion to define a flange. The system further includes a plurality of interlocking corner tiles configured to interact with at least one of the plurality of surface tiles; and a bracket system for securing the plurality of surface tiles and the plurality of corner tiles to a surface.

Invention relates to glass fibre reinforced concrete (GRC) panels resembling a brick wall. The present invention is a panel (1) made of glass fibre reinforced concrete (GRC), wherein a inorganic colouring pigment is added to the GRC to acquire distinctive colouring of the GRC panel. A thickness of the GRC panel is in the range from 10 mm to 60 mm, preferably from 10 to 25 mm. A front face (2) of the GRC panel (1) is profiled so to resemble a bricked wall with a brick surfaces (4) and grooves (5) therebetween, wherein a mortar (10) is filled in the grooves (5).

A concrete wall has a back surface supported by a back panel while a decorative material is applied to an opposing front surface of the wall by hand or by pneumatic projection while the surface is still plastic, and without using bonding agents. The decorative material may be further exposed by a surface treatment before or after the front surface is floated and finished, with a sealant optionally applied thereafter. The front surface may be created by pneumatic methods or by pouring concrete into forms and removing the front panel to expose the front surface while it is still plastic but hydrated enough not to slump.

An improved cable molding product that can be easily installed to protect low voltage and line voltage electrical cables in new and existing building construction applications. Its primary benefits are found in decreasing the cost of installation procedures and improving the aesthetics of low voltage electronic system cable and lie voltage cable runs at exterior and interior openings in new and existing buildings. The two-part secure molding system is comprised of a base portion that is mounted for instance to an inside face of rectangular aluminum tubing or any interior wall. Low voltage wiring cable is placed into a rectangular base portion channel. The line voltage wiring is placed into the separate base portion channel. A rectangular cover snaps securely onto and over the base to conceal the cable and wire.