Mahasweta Mandal scite author profile

This study describes the lightfastness properties of printed foil samples due to long-time exposure. Lightfastness is an important property for any kind of print products to assess their print stability. The fastness properties of prints can be described in terms of print durability and image stability. It may also be used for verification of printed expiry date and authenticity or validity of the product. Moreover, any kind of deterioration in package print quality will affect the product's sale adversely. Little work has been conducted to study the fastness properties of printed films and foils. In this work, blister foils printed in the gravure printing process have been taken as the sample as they have extensive usage in food and medicine packaging. An artificial lightfastness tester BGD 865/A Bench Xenon Test Chamber (B-SUN) is used to study the light fastness of Cyan, Magenta, Yellow, and Black inks on the foil. The spectral curves and colorimetric values are measured using an Ocean Optics Spectroradiometer (DH2000BAL) before and after exposure. A kinetic model is proposed to predict the fading rate of the printed foil. The optimal model has given excellent prediction with a correlation coefficient of 0.90 to 0.93 for Cyan, Magenta, Yellow, and Black prints, respectively. The largest color difference ΔE 00 is achieved for Yellow print followed by Magenta. Cyan and Black prints have shown small changes with time when the gravure prints are exposed to the artificial aging chamber. K E Y W O R D S

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Inventory Model for Damagable Items with Stock-Dependent Demand and Shortages

Mandal

Maiti

1997

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Mahasweta Mandal

Inventory of damagable items with variable replenishment rate, stock-dependent demand and some units in hand

Introduction of control points in splines for synthesis of optimized cam motion program

Pentagonal fuzzy number, its properties and application in fuzzy equation

Study of the lightfastness properties of prints on blister foils by spectral reflectance

Inventory Model for Damagable Items with Stock-Dependent Demand and Shortages

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