Abstract: A mosaic concrete product, methods of creating the same, and methods of fabricating a module for use in creating the mosaic are provided. The methods of installing the mosaic upon an uncured concrete surface utilize the module. The module may be fabricated by mapping out tile in a design corresponding to the mosaic; adhering the tile to a template utilizing an adhesive, the tile being positioned thereon corresponding to the design; and allowing the adhesive to set. The module may define upper and lower surfaces, the upper surface including the tile adhered thereto. The methods of installing the mosaic comprises: positioning the module upon the uncured concrete surface; embedding the tile into the concrete surface; massaging the tile into the concrete surface to interpose a quantity of cement/fines paste between the adjacent tiles; and finishing the concrete surface.

Abstract: A method for making a carbon nanotube film is provided. First, a carbon nanotube array is formed on a grown substrate. The carbon nanotube array is pressed with a first substrate using a first pressing force to form a carbon nanotube film precursor. Then the first substrate and the grown substrate are separated, and the carbon nanotube film precursor is transferred onto the first substrate. After that, the carbon nanotube film precursor is pressed using a second substrate with a second pressing force. Lastly, the first substrate and the second substrate is separated, with part of the carbon nanotube precursor transferred to the second substrate to form the carbon nanotube film.

Abstract: Advantageous films and coatings (e.g., transparent conductive films), and improved methods for fabricating such films and/or coatings, are provided. The improved methods for fabricating transparent conductive films/coatings may involve trapping at least a portion of a layered material (e.g., graphene sheet(s) or layer(s) of graphite) at an interface of a phase separated system (e.g., at an interface of two non-mixing solvents). Transparent, one to four layer, conductive films/coatings of pristine natural flake graphene are produced by kinetically trapping graphene sheets at an interface of a phase separated system (e.g., at an oil/water interface).

Abstract: A vacuum drying apparatus and method to dry and cure paint is disclosed. The method provides a substantially particle free environment that shortens drying time, reduces cost and improves surface finish. The apparatus includes an enclosed drying tunnel that is maintained at a reduced pressure relative to ambient conditions. Heat lamps with the drying tunnel aid in curing and provide the desired particle free environment.

Abstract: A method of applying a surface decorative layer on a surface of an article by water pressure transfer in which transfer film 316 which has a print pattern 340 comprising a first area 312A having an ink layer and a second area 312B having no ink layer and has a whole outer surface formed thereon has an activating agent 320 applied onto the surface of the transfer film 316 to activate the ink and to collect a surplus portion of the activating agent in a convex form in the second area, whereby a three-dimensional unevenness is imparted onto the surface of the article.

Abstract: A transfer apparatus includes a plurality of holders respectively coming into contact with a carrier and a roller member. Each of the holders is sequentially separated from the carrier in accordance with a movement of the roller member, moves to a retracted position where the holder does not interfere with the roller member, comes into contact with the other surface of the carrier again after the passage of the roller member, and moves in the direction away from the carrier while sucking the carrier by the suction unit.

Abstract: According to one embodiment, a method for manufacturing a display device is disclosed. The method can include bonding a display body to a filter body, irradiating light and separating. The display body includes a first support unit and a display unit. The first support unit includes a first substrate, a first metal layer, and a first resin layer. The display unit has a first region and a second region. The filter body includes a second support unit and a filter unit. The second support unit includes a second substrate, a second metal layer and a second resin layer. In the bonding, the display unit and the filter unit are disposed between the first and second substrates. The light is irradiated onto the first and second metal layers. The first substrate is separated from the first resin layer and the second substrate is separated from the second resin layer.

Abstract: A graphene transfer method comprising: attaching a first end of a first stacked structure, including a catalyst metal, graphene, and a supporting body stacked in the order stated, to a point of a target film that is transported in a roll-to-roll manner in a first direction; forming a second stacked structure by removing the catalyst metal of the first stacked structure, the second stacked structure having a surface whereon the graphene is exposed; and transferring the exposed graphene to a transfer surface of the target film by transporting the target film in a roll-to-roll manner and the second stacked structure in the first direction.

Abstract: Provided are reflective thin film constructions including a reduced number of layers, which provides for increased solar-weighted hemispherical reflectance and durability. Reflective films include those comprising an ultraviolet absorbing abrasion resistant coating over a metal layer. Also provided are ultraviolet absorbing abrasion resistant coatings and methods for optimizing the ultraviolet absorption of an abrasion resistant coating. Reflective films disclosed herein are useful for solar reflecting, solar collecting, and solar concentrating applications, such as for the generation of electrical power.

Abstract: A next processing pin is applied as a follow-on pin to a stone, wherein the stone is held by a preceding pin and fixed to the stone by way of a first adhesive bonding location. The preceding pin is separated from the stone. The follow-on pin is fixed to the stone by way of a second adhesive bonding location spaced from the first adhesive bonding location. The follow-on pin frontally receives a fluid adhesive at a spacing from the stone and the spacing between the adhesive-coated front end and the stone is reduced until the adhesive front end contacts the stone. The adhesive is hardened at the contact location as the second adhesive bonding location and heat is transferred by way of the preceding pin to the first adhesive bonding location A force component is exerted on the preceding pin to release the pin from the stone and to hold the stone with the next pin.

Abstract: Provided are a material roll and a method for manufacturing the material roll in which lifting between base films and an optical film is hardly generated. Provided is a material roll (R), wherein a first base film (F12), a first pressure-sensitive adhesive layer (F14), an optical film (F11), a second pressure-sensitive adhesive layer (F15) and a second base film (F13) are wounded together in a manner that said layers are laminated in said order from outer side. An adhesive power A of the first pressure-sensitive adhesive layer (F14) at an interface on the first base film (F12) side, an adhesive power B of the first pressure-sensitive adhesive layer (F14) at an interface on the optical film (F11) side, an adhesive power C of the second pressure-sensitive adhesive layer (F15) at an interface on the optical film (F11) side, and an adhesive power D of the second pressure-sensitive adhesive layer (F15) at an interface on the second base film (F13) side satisfy the relationships A<B and A<C<D.

Abstract: A method for manufacturing a color electrophoretic display device includes the following steps. First, a substrate having a displaying region and a circuit region around the displaying region is provided. Next, a driving array is formed in the displaying region. Subsequently, an electrophoretic display layer is formed on the driving array. Afterwards, a thermal transfer process is performed so that a color filter layer is formed on the electrophoretic display layer. The method can increase the production eligibility rate of the color electrophoretic display device, thereby improving the display quality of the color electrophoretic display device.

Abstract: A method for forming an electronic device on a flexible substrate conditions a surface of the flexible substrate to increase its malleability and to provide a conditioned substrate surface. A master surface is impressed against the conditioned substrate surface. The master surface is then released from the conditioned substrate surface, thereby forming a circuit-side surface on the substrate. The electronic device is then formed on the circuit-side surface. The substrate may be supported on a carrier during the method.

Abstract: Provided are energy curable high-stretch inks and coatings for heat transfer labels. The inks and coatings include monofunctional monomers/oligomers, thermoplastic inert resins, and zero or a limited amount of multifunctional monomers/oligomers and exhibit good stretchability and surface resistance, such as scratch resistance and solvent (water, oil) resistance. Also provided are methods of using the high stretch inks in heat-transfer label (HTL) applications.

Abstract: A transfer film 316 which has a print pattern 340 comprising a first area 312A having an ink layer and a second area 312B having no ink layer and has no whole surface fixture layer formed thereon is prepared, an activating agent is applied onto the surface of the transfer film 316 to collect a surplus portion of the activating agent in a convex form in the second area by a repelling operation of the ink player 312I in the first area 312A and a collecting power of the activating agent 320, the convex collection portions 320C of the activating agent in the second area 312B have a concave-convex reversal made on the surface of the article 10 when the water pressure transfer is performed, and the convex collection portions of the activating agent are shrunk and protruded when the print layer is hardened whereby a three-dimensional unevenness is imparted onto the surface of the article.

Abstract: Label application devices and methods of printing and applying labels are described herein. One label application device can comprise a feed component configured to deliver a sheet of label material to a position, a product identification component configured to identify a type of a product that is approaching the position, a printing component configured to print data onto the sheet of label material, the data based on the identified type of product, a stripping component configured to remove a liner portion of the sheet of label material from a label portion of the sheet, and an applicator component configured to apply the label portion to the product.

Abstract: A decorating machine applies artwork to a product having a central axis and a frustoconical surface around its central axis. The decorating machine includes a film with artwork, a moveable deck, and a roller. The moveable deck includes a rotating mount on which the product is rotatably mounted. The product undergoes a pendulum-like movement on the deck while the product rotates relative to the moveable deck. The roller has a frustoconical shape that generally corresponds to the frustoconical surface of the product. The film is located between the roller and the product. The roller provides heat and pressure to the film such that the artwork attaches to the frustoconical surface of the product.

Abstract: The present invention discloses a method for transferring a graphene layer. The graphene layer formed on a metal carrier layer is electrostatically adsorbed on a substrate by electrostatic charges, and then the substrate having the graphene layer formed on the metal carrier layer is immersed in an etching solution to remove the metal carrier layer, thereby completing the transfer of the graphene layer. In addition to being able to provide a simple method for transferring the graphene layer, the present invention further solves a problem of retaining organic residues, thus enhancing electrical properties of the transferred graphene layer.

Abstract: The present invention provides an improved method and apparatus for placing alignment marks, such as arrows or lines, on golf balls. An alignment mark composed of dry transfer ink is provided on a clear transfer medium having a backing material. Once the position of the alignment mark is chosen, the clear transfer medium containing the alignment mark is removed from the backing. Warm air provided by the user's breath is applied to the transfer medium to aid in its adhesion to the golf ball surface. The transfer medium is then placed on the desired position on the ball and rubbed in the center and then front and back of the transfer medium to transfer the dry ink alignment mark from the clear transfer medium to the ball surface. Once the alignment mark has transferred to the ball surface, the clear transfer medium can be peeled away, leaving only the alignment mark on the ball surface. The alignment mark is then rubbed with the fingers to finalize the adhesion of the alignment mark with the bail surface.

Abstract: An apparatus for transferring decorative rigid bodies from a carrier strip onto a substrate includes a reciprocator adapted for individually bringing the decorative rigid bodies into contact with the substrate, and a tractor mechanism operatively coupled to the reciprocator such that an outward motion of the reciprocator is registered with transportation of the carrier strip such that one of the decorative rigid bodies is brought between the reciprocator and the substrate. The carrier strip has pockets accommodating decorative rigid bodies, and right and left side rims, the right and/or left side rims having engagement features adapted to receive one or more bosses of the tractor mechanism of the apparatus. A method is performed for transferring the decorative rigid bodies from the carrier strip onto the substrate.

Abstract: A method and apparatus are provided which include providing a rotatable roller with a cylindrical surface adapted to wrap the donor element on the surface. A donor element is secured to the roller and a first portion of the donor element is wrapped onto the cylindrical surface while applying tension to the media. The tension is then decreased to alter a region of contact between the first portion of the donor element and the cylindrical surface. An additional portion of the donor element is then wrapped onto the cylindrical surface. The donor element is then transferred from the roller to a substrate.

Abstract: A reduced solar aborptivity appliqué having a surface layer for adhering to an surface and high aspect ratio microstructures extending from the surface layer having pigmentation or spectral tailoring.

Abstract: A method for manufacturing an acoustic wave device includes: adhering wafer-shaped first and second piezoelectric substrates to a front face of a first and second adhesive sheet respectively and dividing the first and the second piezoelectric substrates into rectangles; adhering a third and fourth adhesive sheet to the first and second piezoelectric substrates respectively and moving at least one divided portions of the first and second piezoelectric substrates selectively to the third and fourth adhesive sheet respectively; moving the first piezoelectric substrate on the first adhesive sheet to the fourth adhesive sheet; and moving the second piezoelectric substrate on the second adhesive sheet to the third adhesive sheet.

Abstract: The present invention provides a foamed member capable of inhibiting or preventing foam breakage at the time when the foam member is peeled from a carrier tape, even when the foamed member has a high expansion ratio. The foamed member has a thermoplastic resin foam layer containing a thermoplastic resin foam formed through a step of impregnating a high-pressure inert gas into a thermoplastic resin and subsequently reducing pressure, and at least one of a thermoplastic polyester-based resin layer and a thermoplastic elastomer resin layer disposed on at least one side of the thermoplastic resin foam layer.

Abstract: A method for labeling fabrics, such as fabric garments, and a heat-transfer label well-suited for use in said method. In one embodiment, the heat-transfer label comprises (i) a support portion, the support portion comprising a carrier and a release layer; (ii) a wax layer, the wax layer overcoating the release layer; and (iii) a transfer portion, the transfer portion comprising an adhesive layer printed onto the wax layer and an ink design layer printed onto the adhesive layer. Preferably, at least a portion of the ink design layer is printed using a variable printing technique, such as thermal transfer printing.

Abstract: An adhesive material and articles incorporating the same is disclosed. The adhesive material includes at least three of epoxy resin; impact modifier; flexibilizer, blowing agent; curing agent; and filler. The adhesive material is preferably used for structural adhesion but may be used for sealing, baffling or reinforcing an article of manufacture such as an automotive vehicle.

Abstract: An appliqué having anti-corrosive adhesive is provided by embodiments of the present invention. This appliqué includes a thin polymer film and a pressure sensitive adhesive. The pressure sensitive adhesive hacks the thin polymer film and includes corrosion-inhibiting additives. These corrosion-inhibiting additives reduce or eliminate the need for a chromated primer layer beneath the appliqué. Elimination of a chromated primer layer has environmental advantages as well as cost benefits through the elimination of a processing step. Additionally, environmental benefits are realized by eliminating the toxic effects often associated with the use of chromated primers.

Abstract: The present invention relates to a mounting sheet comprising a mounting layer. The mounting layer comprises a mounting surface for mounting the substrate. The mounting surface comprises a first mounting area and a second mounting area, and wherein a mounting force of the first mounting area is stronger than a mounting force of the second mounting area. The sheet according to the invention has the different mounting areas, so that the substrate is easily unloaded when polishing is completed. Furthermore, the broken of the substrate due to removal and the duration and the difficulty of removal are reduced.

Abstract: A method of producing a motif having reflecting properties and transferring said motif onto a substrate includes providing an adhesive-repellent base medium; applying a transfer adhesive to the base medium over the full surface area; applying a reflection colorant which contains a multiplicity of reflection particles; cutting a motif into the layer structure produced, wherein a projecting region remains; removing said projecting region; and applying the layer structure having the motif, after removal of the base medium, to a substrate.

Abstract: A thermal transfer film at least including a substrate, a semi-cured protection layer, and an ink layer is provided. The semi-cured protection layer is coated on the substrate, and a material of the semi-cured protection layer includes thermal curing resin and radiation curing resin. Moreover, the resin of the semi-cured protection layer is at least partially cured. The ink layer is coated on the semi-cured protection layer.

Abstract: Techniques for producing a single-crystal phase change material and the incorporation of those techniques in an electronic device fabrication process flow are provided. In one aspect, a method of fabricating an electronic device is provided which includes the following steps. A single-crystal phase change material is formed on a first substrate. At least one first electrode in contact with a first side of the single-crystal phase change material is formed. The single-crystal phase change material and the at least one first electrode in contact with the first side of the single-crystal phase change material form a transfer structure on the first substrate. The transfer structure is transferred to a second substrate. At least one second electrode in contact with a second side of the single-crystal phase change material is formed. A single-crystal phase change material-containing structure and electronic device are also provided.

Abstract: In one aspect, an encapsulation sheet, a method of manufacturing an organic light emitting display device using the encapsulation sheet, and an organic light emitting display device is provided. The encapsulation sheet includes a carrier film; and a first sheet formed on the carrier film, wherein the first sheet comprises at least one of tin fluorophosphates glass, chalcogenide glass, tellurite glass, borate glass, and phosphate glass.

Abstract: Aspects of the invention are directed to a method of forming a thin film adhered to a target substrate. The method comprises the steps of: (i) forming the thin film on a deposition substrate; (ii) depositing a support layer on the thin film; (iii) removing the deposition substrate without substantially removing the thin film and the support layer; (iv) drying the thin film and the support layer while the thin film is only adhered to the support layer; (v) placing the dried thin film and the dried support layer on the target substrate such that the thin film adheres to the target substrate; and (vi) removing the support layer without substantially removing the thin film and the target substrate.

Abstract: A method of manufacturing a flexible piezoelectric device including laminating a first metal layer on a silicon oxide layer on a silicon substrate. The method further includes laminating a device on the first metal layer and annealing the first metal layer to oxidize the first metal into a first metal oxide. The method further includes etching the first metal oxide to separate the device from the silicon oxide layer and transferring the separated device to a flexible substrate using a transfer layer. The metal oxide layer laminated on the silicon substrate is etched to separate the device from the substrate. As a result, physical damage of the silicon substrate is prevented and a cost of using expensive single-crystal silicon substrate is reduced.

Abstract: A coating agent to be applied and permeated into a print pattern of a water pressure transfer film has a main ingredient of a ultraviolet hardening resin composite containing a photo-polymerization monomer, a photo-polymerization oligomer and a photo-polymerization initiator, said photo-polymerization monomer has 3 or less functional groups and a volume shrinkage coefficient of 20% or less, said photo-polymerization oligomer has 10 or less functional groups, the coating agent further contains polyurethane beads having an average particle diameter of 5 through 50 micrometer and the polyurethane beads are blended at 15 through 100 weight part relative to 100 weight part of said ultraviolet hardening resin composite. This coating agent can impart a softness feeling and a wetness feeling to the surface of the decoration layer by the polyurethane beads.

Abstract: Encapsulated organic electronic devices including organic light emitting diodes are made using an adhesive component as a mask while the device is being constructed. An adhesive-coated liner can be applied to the device substrate and openings created therein by removing portions of the liner and adhesive, or a patterned adhesive layer having openings therein can be formed on the device substrate, followed by deposition of the device layers and application of a sealing layer.

Abstract: The steps of a method for fabricating a proximity sensing module that is adapted to be attached to a mobile device, include: (a) patterning an upper conductive film to form a patterned conductive film which includes an upper connective pad that is adapted to be electrically connected to a respective contact on a circuit board of the mobile device, and an induced circuit pattern that is electrically connected to the upper connective pad; (b) adhering an adhesive sheet to the patterned conductive film; and (c) forming a through hole in the adhesive sheet such that the upper connective pad is exposed from the through hole.

Abstract: Manufacturing method is for manufacturing an optical display panel including an optical cell and a pressure-sensitive adhesive layer-carrying optical film provided thereon with the pressure-sensitive adhesive layer interposed therebetween, which includes the steps of unwinding a multilayer optical film from a roll, feeding the multilayer optical film, feeding an optical cell, peeling off the optical film from a carrier film, and bonding the optical film to one side of the optical cell with a pressure-sensitive adhesive interposed therebetween, wherein the longitudinal length (L) of the carrier film between a position at which the multilayer optical film begins to be unwound in the film feeding step and a position at which peeling is started in the peeling step is 15 times or more the width (W) of the carrier film.

Abstract: The present invention provides a prepreg comprising the following constituent elements (A), (B) and (C), the constituent element (A) being arranged on one surface or both surfaces of a layer containing the constituent elements (B) and (C), and not less than 90 area % of the constituent element (A) existing in the region from the surface of the prepreg to a position up to 20% of the average thickness of said prepreg: (A) epoxy particles having a tan ? at 10° C. of not less than 0.15 and having a three-dimensional cross-linked structure; (B) a first epoxy resin composition; and (C) reinforcing fibers. The present invention provides a prepreg suitable for formation of a fiber reinforced composite material having an excellent stiffness, strength, and damping performance.

Abstract: A method and apparatus for elimination of lamination defects on progressive addition lenses. The lamination method uses a flexible bladder designed to apply pressure evenly across the lens surface. A spacer is positioned between a Hard Multi-Coat carrier and the flexible bladder. The spacer is located in a region of the carrier which is designated to deliver a coating to a section of the lens which is farthest from the carrier. The spacer asymmetrically increases the pressure applied to the carrier to eliminate lamination defects.

Abstract: A light-emitting diode having a high output, high efficiency, and a long service life under a high-humidity environment is provided. The light-emitting diode (1) includes a compound semiconductor layer (2) having a light-emitting section (7), ohmic electrodes (4, 5) provided on the main light extraction surface of the compound semiconductor layer (2), and an electrode protection layer (6) for protecting the ohmic electrodes (4, 5), wherein the Al concentrations of the surfaces (2a, 2b) of the compound semiconductor layer (2), which include the main light extraction surface, are 20% or less and the As concentration of the surfaces (2a, 2b) is less than 1%, and the electrode protection layer (6) has a two-layer structure composed of a first protective film (12) provided so as to cover the ohmic electrodes (4, 5) and a second protective film (13) provided so as to cover at least an end portion of the first protective film (12).

Abstract: A thermal transfer film includes a base layer, and a light-to-heat conversion layer on the base layer, the light-to-heat conversion layer including at least one of particles selected from tungsten oxide particles and composite tungsten oxide particles, the particles being present in an amount of about 20 wt % to about 65 wt % in the light-to-heat conversion layer.

Abstract: Lamination transfer films and methods for transferring a structured layer to a receptor substrate. The transfer films include a carrier substrate having a releasable surface, a sacrificial template layer applied to the releasable surface of the carrier substrate and having a non-planar structured surface, and a thermally stable backfill layer applied to the non-planar structured surface of the sacrificial template layer. The sacrificial template layer is capable of being removed from the backfill layer, such as via pyrolysis, while leaving the structured surface of the backfill layer substantially intact.

Abstract: Device for affixing a visual marking on a surface to be marked of a rigid support (1) that is ready for use, which includes an assembly that is essentially inelastic, exhibits a certain degree of flexibility, forms a flat and thin cohesive multilayer stack that includes a protective back (6), a marked support (7), a stencil (8), and an application obverse (9), limited by a peripheral edge (22) with an adhesion of its rear face (23) and of the front face of the stencil (21) that can—during the use of the device (1)—allow the removal of the application obverse (9) by peeling.

Abstract: A curing process for curing a decorated article is provided. The decorated article includes a substrate, an adhesion layer and a pattern layer disposed on the substrate, sequentially. Processing conditions of the curing process include the following: a temperature ranged between 50° C. to 180° C., a relative humidity ranged between 30% to 100%, and a processing time ranged between 6 hours to 72 hours. A decorated article and a method for manufacturing the decorated article are also provided. The method for manufacturing the decorated article includes bonding a decoration film onto a substrate, and curing the decoration film and the substrate with the curing process. The decorated article is manufactured with the method for manufacturing the decorated article.

Abstract: The present invention relates to a coating composition that comprises a composite structure with a body of polysaccharide, into which carbonate has been precipitated. The invention also relates to a coated paper or board product, onto which the said composition has been spread on one or both sides into one or more layers; as well as to paint that is formed of the coating composition according to the invention, or that contains the said composition.

Abstract: An ultra removable booklet with label for application to media is described. The booklet with label includes a release liner, an ultra removable adhesive layer, a paper stock layer, a booklet, an adhesive layer, and a clear plastic cover layer. The clear plastic cover layer has the adhesive layer applied to a bottom surface thereof and the bottom surface is positioned over the booklet. The booklet is positioned over the paper stock. The ultra removable adhesive layer is attached to the lower surface of the paper stock. The release liner is applied to the ultra removable adhesive layer. A process for forming an ultra removable booklet with label for application to media is also described.

Abstract: Electromagnetic interference shielding structures and methods of shielding an object form electromagnetic radiation at frequencies greater than a megahertz generally include providing doped graphene sheets about the object to be shielded. The doped graphene sheets have a dopant concentration that is effective to reflect and/or absorb the electromagnetic radiation.

Abstract: A thermal image receiver element dry image receiving layer has a Tg of at least 25° C. and is the outermost layer. The dry image receiving layer has a dry thickness of at least 0.5 ?m and up to and including 5 ?m. It comprises a water-dispersible release agent and a polymer binder matrix that consists essentially of: (1) a water-dispersible acrylic polymer comprising chemically reacted or chemically non-reacted hydroxyl, phospho, phosphonate, sulfo, sulfonate, carboxy, or carboxylate groups, and (2) a water-dispersible polyester that has a Tg of 30° C. or less. The water-dispersible acrylic polymer is present in an amount of at least 55 weight % and at a dry ratio to the water-dispersible polyester of at least 1:1. The thermal image receiver element can be used to prepare thermal dye images after thermal transfer from a thermal donor element.

Abstract: A thermal image receiver element dry image receiving layer has a Tg of at least 25° C. as the outermost layer. The dry image receiving layer has a dry thickness of at least 0.5 ?m and up to and including 5 ?m. It comprises a polymer binder matrix that consists essentially of: (1) a water-dispersible acrylic polymer comprising chemically reacted or chemically non-reacted hydroxyl, phospho, phosphonate, sulfo, sulfonate, carboxy, or carboxylate groups, and (2) a water-dispersible polyester that has a Tg of 30° C. or less. The water-dispersible acrylic polymer is present in an amount of at least 55 weight % of the total dry image receiving layer weight and at a dry ratio to the water-dispersible polyester of at least 1:1. The thermal image receiver element can be used to prepare thermal dye images after thermal transfer from a thermal donor element.