Actinic energy radiation curable inkjet ink and actinic energy radiation curable inkjet recording method

摘要

Provided are an actinic energy radiation curable ink, which can achieve a high fineness and natural glossiness when recording is carried out onto a non-absorptive recording medium such as a film or a laminated paper or a slightly absorptive recording medium such as a coated paper; and an actinic energy radiation curable inkjet recording method. This actinic energy radiation curable ink, which is to be used in inkjet recording, is characterized by: said actinic energy radiation curable ink undergoing reversible sol/gel phase transition depending on temperature; said actinic energy radiation curable ink containing from 1% or more by mass to less than 10% by mass of a gelling agent; and, at temperature Tm (° C.) that is separately defined, the storage elastic modulus (G′) of the actinic energy radiation curable ink being from 0.1 or more Pa to less than 1000 Pa and the storage elastic modulus (G′) being smaller than the loss elastic modulus (G″) thereof.

主权项

1. An actinic energy radiation curable inkjet ink for an inkjet recording, wherein the actinic energy radiation curable inkjet ink undergoes reversible sol/gel phase transition depending on temperature,
the actinic energy radiation curable inkjet ink contains a gelling agent selected from the group of petroleum based waxes, vegetable based waxes, animal based waxes, mineral based waxes, modified waxes, higher fatty acids, higher alcohols, fatty acid amides, N-substituted fatty acid amides, special fatty acid amides, higher amines, fatty acid ester compounds, synthetic waxes, polymerized waxes, dimer acids and dimer diols in the range from not less than 1% by mass to less than 10% by mass, and the actinic energy radiation curable inkjet ink has a storage elastic modulus G′ at temperature Tm (° C.) in the range from not less than 0.1 Pa to less than 1,000 Pa and the storage elastic modulus G′ smaller than a loss elastic modulus G″ thereof, provided that Tm (° C.) is a temperature defined by Tm=Tgel−ΔT, wherein ΔT is further represented by a temperature difference between a solation temperature Tsol (° C.) and a gelation temperature Tgel (° C.) of the actinic energy radiation curable inkjet ink as ΔT=Tsol−Tgel, and the solation temperature Tsol is defined by a temperature where the storage elastic modulus G′ reaches 0.1 Pa when a temperature change of a dynamic viscoelasticity is measured under a temperature raising rate of 0.1° C./s, a strain of 5% and an angle frequency of 10 radian/s, and the gelation temperature Tgel is further defined by a temperature where the storage elastic modulus G′ reaches 0.1 Pa when a temperature change of a dynamic viscoelasticity is measured under a temperature lowering rate of 0.1° C./s, a strain of 5% and an angle frequency of 10 radian/s.