To provide a thermal transfer image-receiving sheet which can form printed matters having less void or less roughness by the void, and especially, to provide the thermal transfer image-receiving sheet which can form printed matters having less void and less roughness by the void even after having been stored for a predetermined period of time in a comparatively high temperature environment.
This thermal transfer image-receiving sheet includes at least a base material sheet, a heat-insulating layer containing a hollow particle and a binder, and an accepting layer in this order. In the thermal transfer image-receiving sheet, the base material sheet is equipped with an inside paper, and two layers of resin coating layers which are formed of resins having different flexural moduli at least on the heat-insulating layer laminated side surface of the inside paper. When the two layers of the resin coating layers are used as a first resin coating layer and a second resin coating layer from the inside paper side, the second resin coating layer is constituted of a resin with the flexural modulus of 50 MPa to 130 MPa. The first resin coating layer is formed in such a manner that the flexural modulus of the resin which constitutes the first resin coating layer may become larger than the flexural modulus of the second resin coating layer for the thermal transfer image-receiving sheet.
OSHIMA ASUKA
OTSUMARU TAKUO
SHIODA SATOSHI
TAKAHASHI TORU
JP2006103157A | 2006-04-20 | |||
JP2001277451A | 2001-10-09 | |||
JP2007098693A | 2007-04-19 | |||
JP2008162155A | 2008-07-17 | |||
JP2006103157A | 2006-04-20 | |||
JP2001277451A | 2001-10-09 |
Yukiko Kurita
Atsushi Naka
Tasuke Sato
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