摘要:
A thermal transfer image-receiving sheet for a thermal transfer type printer comprises a sheet substrate, a front coating layer formed on the front surface of the sheet substrate and comprising a polyolefin resin, a polyolefin resin back coating layer formed on the back surface of the sheet substrate, and optionally, a surface coating layer formed on the front coating layer and comprising a resinous binder and a pigment.
摘要:
A thermal transfer dye image-receiving sheet capable of receiving clear, uniform colored images without a formation of curls and wrinkles therein, comprising (A) a substrate sheet composed of (a) core sheet having a Young's modulus E.sub.3, (b) a front coated thermoplastic film layer having a thickness T.sub.1 and a Young's modulus E.sub.1, and (c) a back coated thermoplastic film layer having a thickness T.sub.2 and a Young's modulus E.sub.2, the T.sub.1, T.sub.2, E.sub.1, E.sub.2 and E.sub.3 satisfying the following relationships (1) and (2):T.sub.2 .gtoreq.T.sub.1 (1)andE.sub.3 .gtoreq.2E.sub.1 .gtoreq.2E.sub.2 (2)wherein Y.sub.1, Y.sub.2 and Y.sub.3 are determined in accordance with ASTM D882-64T.
摘要:
A support sheet useful for a thermal transfer image receiving sheet having a high resistance to thermal curling and capable of recording clear and uniform images or pictures thereon, comprises a sheet substrate with a thickness of 20 to 300 .mu.m, and multilayer front and back surface coating plastic films each comprising a pigment and a polyolefin resin, each having at least one bi-axially oriented base layer, and bonded to the sheet substrate, and satisfies the following relationships:S.sub.1 /S.sub.2 .ltoreq.1/2S.sub.3
摘要:
A dye image-receiving sheet for thermal transfer printing systems, comprising a substrtate sheet composed of a support paper sheet, a front coated layer comprising a thermoplastic resin, and optionally, a back coated layer comprising a thermoplastic resin; and a dye image-receiving layer comprising a resinous material capable of being dyed with a sublimating dye, and characterized in that the front coating layer has a Bekk smoothness of 100 seconds or more and the substrate sheet has a rigidity of 700 mgf or less.
摘要:
A thermal transfer dye image-receiving sheet capable of forming full color dye images with a high reproducibility at a high speed, and having a high resistance to curling in a thermal printing operation, comprises a dye image-receiving layer comprising a dye-receiving resin material and formed on a front surface of a substrate sheet, which substrate sheet front surface is formed from a biaxially oriented thermoplastic resin film having a number of fine voids, the front surface of the thermoplastic resin film, on which the dye image-receiving layer is formed, having a Bekk smoothness of 1000 seconds or more and a glossiness of 50% or less.
摘要:
A thermal transfer image-receiving sheet for recording thermally transferred dye images having a uniform color density (darkness) and a high clarity at a high resolution, without curling, comprises an image-receiving resinous layer formed on a front surface of a substrate sheet and comprising a dye-receiving resinous material, for example, a polyester resin, in which the image-receiving resinous layer surface has a surface roughness wave form having a maximum wave height (R.sub.max) of 1.0 .mu.m or less at a wave length of 0.1 to 2 .mu.m.
摘要:
A thermal transfer image-receiving sheet capable of receiving clear, uniform colored images without a formation of curls and wrinkles therein, comprising (A) a substrate sheet comprising (a) a core sheet with a thickness of 10 to 300 .mu.m, and (b) at least one polyolefin resin coating layer formed on at least a front surface of the core sheet and having a porosity of 33% or more and a thickness of 20 .mu.m or more and (B) at least one image-receiving resinous layer formed on at least the front resinous coating layer and having a thickness of 10 .mu.m or less.
摘要:
In the present invention, a cardiomyocyte cluster is disposed on a transparent substrate, and the quality of the cardiomyocytes is evaluated from the response of the cells to a forced pulsation stimulus applied to the cardiomyocytes. The cardiomyocyte cluster is disposed on the transparent substrate, and is exposed to the flow of a liquid containing an agent in a manner so that the agent acts on the cells, which configure a network. The extent of cardiac toxicity resulting from the agent is evaluated from measuring the fluctuations obtained from a comparison of adjacent cardiomyocytes of the network.
摘要:
A cell sorting device using an inexpensive chip capable of being exchanged for each sample. The chip includes: a first flow path allowing buffer fluid containing cells to flow down; second and third flow paths which put the first flow path therebetween and allow buffer fluid not containing cells to flow down; a fourth flow path which allows the buffer fluid as a single flow path formed by joining the buffer fluids in the other three flow paths; a cell detecting region for detecting cells flowing with the buffer fluid down the fourth flow path; and a cell sorting region for sorting the cells according to a type of the cells detected. The first to fourth flow paths are cascaded, are supplied with the buffer fluid from reservoirs with the same fluid level, and have substantially the same width or cross-section area.
摘要:
This invention relates to a method and apparatus for processing cell cultures. The apparatus comprises a micro-chamber comprising no more than one absorption layer and at least one gel layer, in this order, laminated on a transparent base plate having no conspicuous absorbency in visible and infrared regions, and at least one light source, the absorption layer having absorbency in visible and infrared regions, and the gel-like material being a substance which has a gel dissolution temperature of 100 degree C. or less, solates when heated and is in a gel state at room temperature and has absorbency for a specific wave length of visible and infrared regions, and the light source having a monochromatic light in the specific wave length, wherein the light source is disposed such that it irradiates on the absorption layer and/or the gel layer, with the exception that when no absorption layer is provided, at least two layers each composed of a gel-like material are laminated on the transparent base plate.