Supplied with protective film on both sides to preserve its high gloss finish.
Pearloid acrylic sheet.
Cellulose nitrate celluloid sheet in a pearloid pattern.
It is an opaque pattern which will cover up any surface underneath apart from the thinner sheets which will allow a small amount of light through celluloid is a very early plastic its original development dating from the late 19th century.
The pattern is a central layer so is visible from both sides.
Ideal for jewellery projects craft pieces and signage.
Available in sheets from 300x200mm upwards.
Cuts easily with a laser cutter saw or mill.
The richness and dimension of these materials is achieved through a unique blend of pearlescent pigments and casting process.
Sheets measure 3mm in thickness.
Available in sheets from 300x200mm upwards.
Laminate material with celluloid sandwiched between two layers of premium cast clear acrylic offering the durability shine and ease of use of acrylic with a stunning pearloid celluloid pattern.
Cut your own custom inlays 075 average thickness.
The acriglas pearlescent acrylic sheet series adds a touch of elegance for designers seeking sophistication and upscale appeal for their applications.
Premium acrylic sheet in pearloid patterns.
The second picture in the above left shows the size in comparison to 3 sets of crown inlays.
Cuts easily with a laser cutter saw or mill.
Dyes may be added to achieve an aged look and the overall size of the figuring in pearloid comes as a result of how large the chips are at the beginning of the process.
To produce pearloid celluloid plastic chunks are swirled together in solvent cured sliced into sheets and then bonded to the backing laminates.
The pattern is all through the material so will show however it is cut or polished.
Rothko and frost limited registered office building 13 2 unit g1 vantage point mitcheldean gl17 0dd registered in england and wales company registration number 7743720 vat no.
4 x 8 and are 075 thickness.
The luxurious feel can be further enhanced through the addition of.