The invention relates to recording material for dye sublimation printing comprising base paper (1) having a front and a rear side, at least one synthetic resin layer (4) on at least the rear side of the base paper (1), a dye-receiving layer (2) which is arranged on the front side of the base paper (1), at least one plastic film (3) which is arranged between the base paper (1) and the dye-receiving layer (2) and optionally a barrier layer which is arranged between the plastic film (3) and the dye-receiving layer (2), wherein the synthetic resin layer (4) has an elastic modulus of at least 0.8 GPa.

The invention relates to recording material for dye sublimation printing comprising base paper (1) having a front and a rear side, at least one synthetic resin layer (4) on at least the rear side of the base paper (1), a dye-receiving layer (2) which is arranged on the front side of the base paper (1), at least one plastic film (3) which is arranged between the base paper (1) and the dye-receiving layer (2) and optionally a barrier layer which is arranged between the plastic film (3) and the dye-receiving layer (2), wherein the synthetic resin layer (4) has an elastic modulus of at least 0.8 GPa.

Compositions and methods of using and making the same for laser marking substrates such as metal and plastic are disclosed. A marking composition is applied to the surface of the substrate, followed by irradiation of a portion of the marking composition to form a durable marking on the substrate. The non-irradiated portion of the marking composition is then removed from the substrate. The marking compositions described herein can create markings of black, grey, or iridescent, grey markings. The marking composition can comprise silicates, such as hydrated magnesium silicate and be oxide-free. The marking composition can comprise silicates and a combination of bismuth oxide and molybdemum oxide. The marking composition can optionally be combined with a anionic or nonionic surfactant. The compositions and methods of using are useful to create durable marks of high resolution and contrast without damage to the substrate.

The invention relates to recording material for dye sublimation printing comprising base paper (1) having a front and a rear side, at least one synthetic resin layer (4) on at least the rear side of the base paper (1), a dye-receiving layer (2) which is arranged on the front side of the base paper (1), at least one plastic film (3) which is arranged between the base paper (1) and the dye-receiving layer (2) and optionally a barrier layer which is arranged between the plastic film (3) and the dye-receiving layer (2), wherein the synthetic resin layer (4) has an elastic modulus of at least 0.8 GPa.

The invention relates to recording material for dye sublimation printing comprising base paper (1) having a front and a rear side, at least one synthetic resin layer (4) on at least the rear side of the base paper (1), a dye-receiving layer (2) which is arranged on the front side of the base paper (1), at least one plastic film (3) which is arranged between the base paper (1) and the dye-receiving layer (2) and optionally a barrier layer which is arranged between the plastic film (3) and the dye-receiving layer (2), wherein the synthetic resin layer (4) has an elastic modulus of at least 0.8 GPa.