The invention is a process including the steps of manufacturing of compreg laminated wood and transforming the wood thus obtained to ornamental and utility products, including steps of quality checking, veneer selection, Impregnation of veneer with solution of dye and thermosetting resin, drying in kiln, glue spreading followed by bunching, followed by cooling resulting in creation of slab, followed by trimming & cutting of slabs into strips of small sizes, shaping drawing on the sheet as per the profile required, shaping and profiling by CNC Router Machines, grinding and shaping by expert craftsman to bring out the color patterns, end rounding for smooth edges, grinding using various grits of emery wheels for surface finish, polishing/buffing for mirror like surface finish.

A laminated steel sheet for a two-piece can body with a high strain level satisfying the following formulae, the polyester resin layer composing the laminated steel sheet having a center line surface roughness (Ra) of 0.2 m to 1.8 m:
r.sub.1r,0.1r.sub.1/R0.25, and 1.5h/(Rr)4 wherein h is the height of the two-piece can body, r is the maximum radius, r.sub.1 is the minimum radius, and R is the radius of the circular laminated steel sheet before forming having the same weight as the can body.

FF properties of a multilayer coating film configured to exhibit a red color through a lustrous layer (14) and a translucent colored layer (15) are improved to achieve a metallic textured color having a high-quality color tone. The lustrous layer (14) is configured such that Y(10) is 50 or more and 950 or less and that Y(25) is 0.05 or more and 0.35 or less times the Y(10), where Y(10) represents a Y value, of an XYZ color system, of reflected light measured at a light receiving angle of 10 and Y(25) represents a Y value of the reflected light measured at the light receiving angle of 25 in a case where a light incident angle is 45. An inclination of a tangent to the spectrum of the spectral transmittance of the colored layer (15) at the wavelength of 620 nm is 0.012 nm.sup.1 or more and 0.03 nm.sup.1 or less, defined as an absolute value.

A surface treatment method for a casing is disclosed, the casing being formed by the outer surface and four sidewalls of the casing. The surface treatment method includes a heat transferring film formed on the casing by a vacuum heat transfer process or a paint-drying process and a surface pattern layer formed on a portion of a surface of the heat transferring film opposite to the outer surface by a digital inkjet printer applying three different types of UV-curable ink.

A heterogeneous composite has a first layer which includes a fiber layer, a metal layer, a plastic layer or a combination thereof, a second layer which includes a fiber layer with a plastic layer, or a fiber layer with a non-woven cloth layer, and a base layer which is a thermoplastic layer. The first layer and the second layer are respectively mounted on the base layer by a glue layer, and the compressive strength value between the first layer and the second layer is less than 20%. The base layer enhances strength of the whole composite, and the heterogeneous composite provides a beautiful and competitive product.

A film having an A/B/A structure comprising an layer A and a layer B. The layer A is present in an amount ranging from 25 to 65 wt. %, based upon the total weight of the A/B/A structure, and the layer A comprises a first A layer and a second A layer each independently comprise linear low density polyethylene. The layer B is present in an amount ranging from 35 to 75 wt. %, based upon the total weight of the A/B/A structure, and the layer B, which comprises high density polyethylene, is positioned between the first A layer and the second A layer.

In a decorative material, a matting agent is added to, of a first gloss-adjusting layer and a second gloss-adjusting layer, one with lower gloss, where the matting agent has a particle diameter of less than 1.0 times the thickness of the gloss-adjusting layer with lower gloss. The matting agent can be thereby exposed to the surface while floating in the gloss-adjusting layer. Accordingly, a sufficient matting effect can be obtained in front observation, and unevenness imparted to the surface can be reduced; thus, the effect of scattering obliquely entering light is weakened, and the matting effect can be reduced when observed obliquely. Therefore, a picture pattern expressed by the difference in gloss, i.e., a design, can be made invisible when observed obliquely.

Provided are a vehicle interior structure in which a burden for passengers caused by reflected light generated due to a mirror phenomenon and the like can be reduced while at the same time the design can be enhanced, an interior member used therefor, a method for producing the same, and a method for producing a polarizing member. An instrument panel as an interior member includes a glossy portion and a polarizing layer formed on the surface of the glossy portion, the glossy portion being adapted to reflect light coming through a windshield and the polarizing layer being adapted to absorb optical oscillation components in the vehicle width direction.

A decoration method of a printed matter includes: forming a printed layer on a surface of a sheet or of a mounting paper with a transparent varnish, printing a predetermined pattern on the surface of the printed layer by an ink or by a resin which are capable of being adhered to the printed layer; and pressing a metal foil onto the pattern printed by the ink or the resin with an adhesive agent. The adhesive agent does not adhere to the printed layer but adheres to the pattern. As a result, the metal foil 6 is printed only to the pattern.

A multi-layer polymeric film substrate comprising at least a core layer and a coextruded oxygen barrier layer wherein the film exhibits an oxygen transmission rate (OTR) when measured in accordance with ASTM F1927-14 of below 200 cc/m.sup.2/24 hr at a relative humidity (RH) of 85% and/or of below 600 cc/m.sup.2/24 hr at a relative humidity (RH) of 90%.