Plates - Newspaper | Fujifilm [United
The new violet LP-NNV plate has been designed to stand up to the rigorous demands of tomorrows\' press hall. With most CTP plates, the image will sharpen or reduce in size
We are more than an aluminium alloy solution provider.
Do you need consumer aluminium alloy products or learn more info about aluminum alloy prices?
The new violet LP-NNV plate has been designed to stand up to the rigorous demands of tomorrows\' press hall. With most CTP plates, the image will sharpen or reduce in size
Positive CTCP plate is specifically designed for the commercial printing and newspaper printing, excellent dot reappearance, clear stratified structure, good ink-water
UCAP is a revolutionary ctp technology that combines the advantages of high quality aluminum plates with the low cost and simplicity of Printing. The proprietary top coat
Options include: Superia Z Series: The Superia Z series are processless thermal plates that can expand your portfolio through support for UV ink and improved run lengths in non
Lecai Thermal UV-CTP plates are made for UV ink. It is compatible with ordinary ink. When using ordinary ink, the run-length of plates will be doubled. It is use for high-end
Long Impression Aluminum Offset Printing CTP CTCP UV CTP Positive Offset Printing Aluminium. Positive CTCP plate is specifically designed for the commercial printing and
Commercial printing: CTP is for creating precise and intricate designs for quality commercial materials like newspapers, brochures, magazines and catalogs. Packaging
High-quality, positive working thermal plate for long press runs and demanding press conditions; Rated at 1,000,000 impressions* Suitable for UV and package printing *
The new violet LP-NNV plate has been designed to stand up to the rigorous demands of tomorrows\' press hall. With most CTP plates, the image will sharpen or reduce in size during the print run because of the aggressive press
Positive CTCP plate is specifically designed for the commercial printing and newspaper printing, excellent dot reappearance, clear stratified structure, good ink-water balance,long run-length and wide
UCAP is a revolutionary ctp technology that combines the advantages of high quality aluminum plates with the low cost and simplicity of Printing. The proprietary top coat makes it the world\'s premium pre-sensitised positive working long run
Options include: Superia Z Series: The Superia Z series are processless thermal plates that can expand your portfolio through support for UV ink and improved run lengths in non-UV prints. Without processing, you can mount your plate directly onto the press in a faster, easier
Lecai Thermal UV-CTP plates are made for UV ink. It is compatible with ordinary ink. When using ordinary ink, the run-length of plates will be doubled. It is use for high-end commercial color printing and newspaper printing. Characteristic. 1. UV ink resistance. 2. High.
High-quality, positive working thermal plate for long press runs and demanding press conditions; Rated at 1,000,000 impressions* Suitable for UV and package printing * Run length depends on press, stock, ink, and chemical
Long Impression Aluminum Offset Printing CTP CTCP UV CTP Positive Offset Printing Aluminium. Positive CTCP plate is specifically designed for the commercial printing and newspaper printing, excellent dot reappearance, clear stratified structure, good
Commercial printing: CTP is for creating precise and intricate designs for quality commercial materials like newspapers, brochures, magazines and catalogs. Packaging printing: Printing packaging requires accurate logos, product images and text replication, making CTP a primary
The Presstek JT Direct Inkjet Plate enables for a low-cost, simple plate production solution that provides pleasing color every time. Offering run lengths up to 20,000 impressions, the JT aluminum plate is designed to be imaged on a
High-quality, positive working thermal plate for long press runs and demanding press conditions; Rated at 1,000,000 impressions* Suitable for UV and package * Run Inquiry Development of Processless CTP Plates with High