ORALITE 5960 High Intensity Prismatic Grade 038-Fluro Orange 1235mm x 1m
Item No. R5960HIPI12FO
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ORALITE® retroreflective films series 5960 High Intensity Prismatic Construction Grade are highly reflective, weatherproof, self-adhesive films with excellent corrosion and solvent resistance. The product was specifically developed for the manufacture of traffic control, guidance, warning and
mtr
Description
ORALITE® retroreflective films series 5960 High Intensity Prismatic Construction Grade are highly reflective, weatherproof, self-adhesive films with excellent corrosion and solvent resistance. The product was specifically developed for the manufacture of traffic control, guidance, warning and information signs, which are intended for temporary vertical outdoor use. ORALITE® 5960 sheeting is composed of a UV stabilised acrylic front film. Its retroreflective system consists of sealed cells of air backed microprisms, using total internal reflection.
Specifications
- Colour Code
- 5960-038
- Colour Name
- Fluro Orange
- Width
- 1235
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ORALITE 5960 High Intensity Prismatic Grade 038-Fluro Orange 1235mm x 1m
Item No. R5960HIPI12FO
ORALITE® retroreflective films series 5960 High Intensity Prismatic Construction Grade are highly reflective, weatherproof, self-adhesive films with excellent corrosion and solvent resistance. The product was specifically developed for the manufacture of traffic control, guidance, warning and
mtr
Specifications
- Colour Code
- 5960-038
- Colour Name
- Fluro Orange
- Width
- 1235
Description
ORALITE® retroreflective films series 5960 High Intensity Prismatic Construction Grade are highly reflective, weatherproof, self-adhesive films with excellent corrosion and solvent resistance. The product was specifically developed for the manufacture of traffic control, guidance, warning and information signs, which are intended for temporary vertical outdoor use. ORALITE® 5960 sheeting is composed of a UV stabilised acrylic front film. Its retroreflective system consists of sealed cells of air backed microprisms, using total internal reflection.