Introducing Embellished Presentation Folders! Folders printed on 14 PT C2S paper with spot UV varnish in flat or variable raised patterns, plus foil. Create unique styles with the depth and visual movement provided by the spot UV varnish.
Embellished Presentation Folders.
Standard Sizes/Styles:
9 X 12 Standard Size: Includes one or two 4" pockets, with or without business card slits. The option to upgrade to universal business card holders is also available.
9 X 12 Standard Size with 1/2" Expanded Spine: Includes two 4" pockets, with or without business card slits. The expansion spine contains two score lines. For safe packaging and shipping, this folder ships with just one of the two scores in the spine folded.
9 X 14.5 Legal Size: Includes one or two 4" pockets, with or without business card slits.
9 X 14.5 Legal Size with 1/2" Expanded Spine: Includes one or two 4" pockets, with or without business card slits. The expansion spine contains two score lines. For safe packaging and shipping, this folder ships with just one of the two scores in the spine folded.
For instructions on art file preparation use this link: https://www.ourprintingdept.com/en/faq.html#c91
Additional upgrades include shrink wrapping or banding
Other options by custom quote
Quotes: Looking for something you don't see on our website? We are happy to help! You can request a quote either online - just click "Request a Quote" at the bottom of this page - or by phone at 727-812-7367 (Estimating Department).
For a guide to presentation folder styles, see below
For templates, click the "Templates" tab above
Other paper stocks and folder options available by custom quote
Universal slits available: Universal slits allow use of vertical (portrait) and horizontal (landscape) business cards centered on the flaps of pocket folders.
Important Notice:
Thin typefaces may become filled or break up when using foil. This process differs from traditional foil application. We recommend a minimum font size of 12 points. Additionally, please note that certain fonts are inherently thinner and may not produce optimal results even at larger sizes.