desktop
calendars
A page is one side of a leaf of paper. 1 leaf of paper contains 2 pages.
Single sided printing means your calendar will contain double the amount of leaves printed to the face only. Both the covers and inside pages will be single sided when this option is chosen.
Requirements:
Inside Stock Weight must be less than or equal to Cover Stock Weight.
Silk:
Silk is a beautifully white, coated stock which has a low surface sheen. It reproduces images and text to an exceptionally high print quality and vibrancy.
Gloss:
Gloss is a coated stock that has a higher surface sheen than silk. The extra surface sheen ensures that the print has an enhanced vibrancy.
Uncoated:
Our Uncoated stock has excellent whiteness, is incredibly smooth and luxurious. Uncoated stocks are perfect if you plan to write onto your printed product.
Requirements:
Cover Stock Weight must be greater than or equal to Inside Stock Weight.
Silk:
Silk is a beautifully white, coated stock which has a low surface sheen. It reproduces images and text to an exceptionally high print quality and vibrancy.
Gloss:
Gloss is a coated stock that has a higher surface sheen than silk. The extra surface sheen ensures that the print has an enhanced vibrancy.
Uncoated:
Our Uncoated stock has excellent whiteness, is incredibly smooth and luxurious. Uncoated stocks are perfect if you plan to write onto your printed product.
Requirements:
Cover Lamination requires a minimum Cover Stock Weight of 250gsm.
Matt lamination:
A popular lamination which gives a very matt finish without dulling ink vibrancy.
Gloss lamination:
Creates a high-shine, glossy finish and makes printed colours stand out.
Soft Touch lamination:
Exudes a feeling of quality. Soft touch lamination gives a wonderfully tactile experience due to its smooth, velvety texture.
Clear Acetate Cover:
Clear Acetate covers are a very common finishing touch to any Desktop Calendar. They quickly add a professional, sleek, glossy finish to your calendar as well as extra protection. Our acetate covers are 220 microns.