Offering a smooth matte surface with a soft feel and an exceptional Dmax, Rag Photographique Paper from Canson Infinity will satisfy fine art photographers and printmakers looking for a spectacular museum-grade media. This 310 gsm version is available here as a 25-pack of 8.5 x 11" sheets and benefits from a 100% cotton rag base with a thickness of 18.3 mil. It achieves a smooth white tone of 89.8% by introducing natural minerals to the process and avoiding any OBA content. The paper is also acid free and internally buffered for longevity and benefits from instant drying and a high water resistance to ensure no damage during handling.
Hello, Log InAccount & Orders
Key Features
- 100% Cotton Rag Base
- Basis Weight: 310 gsm
- Thickness: 18.3 mil
- Whiteness: 89.8%
Offering a smooth matte surface with a soft feel and an exceptional Dmax, Rag Photographique Paper from Canson Infinity will satisfy fine art photographers and printmakers looking for a spectacular museum-grade media. This 310 gsm version is available here as a 25-pack of 8.5 x 11" sheets and benefits from a 100% cotton rag base with a thickness of 18.3 mil. It achieves a smooth white tone of 89.8% by introducing natural minerals to the process and avoiding any OBA content. The paper is also acid free and internally buffered for longevity and benefits from instant drying and a high water resistance to ensure no damage during handling.
Open Box
In Stock
$32.99
Reg Price $41.58
Open Box Savings 21%
Canson Infinity Rag Photographique Overview
Canson Infinity Rag Photographique Specs
Item Type | |
Size | |
Surface Finish | |
Basis Weight | |
Thickness | |
Materials | |
Single/Double-Sided | |
Whiteness | |
OBA Content |
Packaging Info
Package Weight | |
Box Dimensions (LxWxH) |
Canson Infinity Rag Photographique Reviews
See any errors on this page? Let us know
question
can I use this in my laser printer?
I don't believe so. Canson Photographique has an aqueous ink receptor coating designed for wet inks. Laser printers use a dry heat bonding toner. Two completely different processes.
Date published: 2018-08-27