Ink formulations and film constructions thereof

What is claimed is: 1. A water-based ink formulation comprising: (a) a solvent containing water; (b) at least one colorant dispersed or at least partly dissolved within the solvent; and (c) at least one organic polymeric resin, dispersed within the solvent; and (d) a softening agent selected to reduce a glass transition temperature (T g ) of said polymeric resin, the ink formulation forming, when dried, a substantially dry ink residue having: (i) a first dynamic viscosity within a range of 10 6 cP to 3·10 8 cP over at least part of a first temperature range of 60° C. to 110° C.; and (ii) a second dynamic viscosity of at least 6·10 7 cP, over at least a part of a second temperature range of 50° C. to 55° C.; said second dynamic viscosity at 55° C. exceeding the first dynamic viscosity at 85° C.; said softening agent having a pure vapor pressure of at most 0.40 kPa at 150° C.; at least one particular resin of said organic polymeric resin having an elevated glass transition temperature (T g ) of at least 56° C.; wherein said softening agent is selected and/or added in an amount to reduce said elevated glass transition temperature by at least 5° C.; wherein the ink formulation is devoid of inorganic filler particles; and wherein a weight ratio of said organic polymeric resin to said colorant is at least 3.5:1. 2. The ink formulation of claim 1 , wherein the formulation is an aqueous inkjet ink having at least one of: (i) a viscosity of 2 to 25 cP at at least one particular temperature in a jetting temperature range of 20-60° C.; and (ii) a surface tension of at most 50 milliNewton/m at at least one particular temperature within said jetting temperature range. 3. A water-based aqueous inkjet ink formulation comprising: (a) a solvent containing water; (b) at least one colorant dispersed or at least partly dissolved within the solvent; and (c) at least one organic polymeric resin, dispersed within the solvent; and (d) a softening agent selected to reduce a glass transition temperature (T g ) of said polymeric resin, the ink formulation forming, when dried, a substantially dry ink residue having: (i) a first dynamic viscosity within a range of 10 6 cP to 3·10 8 cP over at least part of a first temperature range of 60° C. to 110° C.; and (ii) a second dynamic viscosity of at least 6·10 7 cP, over at least a part of a second temperature range of 50° C. to 55° C.; said second dynamic viscosity at 55° C. exceeding the first dynamic viscosity at 85° C.; said softening agent having a pure vapor pressure of at most 0.40 kPa at 150° C.; at least one particular resin of said organic polymeric resin having an elevated glass transition temperature (T g ) of at least 54° C.; wherein said softening agent is selected and/or added in an amount to reduce said elevated glass transition temperature by at least 5° C.; wherein the ink formation is devoid of inorganic filler particles: and wherein the ink formulation has at least one of the following properties: (i) a viscosity of 2 to 25 cP at at least one particular temperature in a jetting temperature range of 20-60° C.; and (ii) a surface tension of at most 50 milliNewton/m at at least one particular temperature within said jetting temperature range. 4. The formulation of claim 3 , wherein said softening agent is selected and/or added in an amount to reduce said elevated glass transition temperature by at least 7° C. 5. The formulation of claim 3 , wherein said softening agent is selected and/or added in an amount to reduce said elevated glass transition temperature by at least 10° C. 6. The formulation of claim 3 , wherein said softening agent is selected and/or added in an amount to reduce said elevated glass transition temperature by at least 15° C. 7. The ink formulation of claim 3 , the formulation having a total solids content, and wherein a weight ratio of said softening agent to said total solids content is at least 0.08. 8. The ink formulation of claim 3 , the formulation having a total solids content, and wherein a weight ratio of said softening agent to said total solids content is at least 0.10. 9. The formulation of claim 3 , wherein ΔT defines a temperature differential between a temperature (T F ) at which said dried ink residue begins to exhibit a particular degree of flowability, and a baseline temperature (T B ): Δ T=T F −T B said degree of flowability being defined by a critical viscosity (μ CR ) at which said degree of flowability is achieved, and wherein, when said baseline temperature equals 50° C., and said critical viscosity equals 10 8 cP, said temperature differential is at least 3° C. 10. The formulation of claim 3 , said polymeric resin including, mainly including, or consisting essentially of an acrylic-based polymer selected from the group consisting of an acrylic polymer and an acrylic-styrene copolymer. 11. The ink formulation of claim 3 , wherein a weight ratio of said organic polymeric resin to said colorant is at least 3.5:1. 12. The formulation of claim 11 , wherein said weight ratio of said organic polymeric resin to said colorant is at least 4:1. 13. The formulation of claim 11 wherein said weight ratio of said organic polymeric resin to said colorant is at least 5:1. 14. The formulation of claim 13 , wherein said elevated glass transition temperature (T g ) is at least 60° C. 15. The formulation of claim 14 , wherein a weight ratio of said softening agent to said substantially dry ink residue is within a range of 0.06 to 0.25. 16. The ink formulation of claim 13 , the formulation having a total solids content, and wherein a weight ratio of said softening agent to said total solids content is at least 0.08. 17. The formulation of claim 11 , wherein said elevated glass transition temperature (T g ) is at least 60° C. 18. An ink film construction including: (a) a printing substrate; and (b) at least one substantially dry ink film, fixedly adhered to a surface of the printing substrate, the ink film containing at least one colorant dispersed in an organic polymeric resin; wherein a dynamic viscosity of the ink film is within a range of 10 6 cP to 5·10 7 cP over at least part of a first temperature range of 60° C. to 87.5° C., and at least 6·10 7 cP over at least a part of a second temperature range of 50° C. to 55° C., wherein a weight ratio of said organic polymeric resin to said colorant is at least 3.5:1 and wherein the substantially dry ink film is devoid of inorganic filler particles. 19. The ink film construction of claim 18 , a viscosity of said substantially dry ink residue monotonically increasing with temperature decreasing from 85° C. to 55° C.