The present disclosure relates to a cover window for a flexible display device comprising: a light-transmitting substrate; and a first hard coating layer and a second hard coating layer which are formed on both sides of the light-transmitting substrate, respectively, wherein each of the first hard coating layer and the second hard coating layer has IR spectra in which a ratio of the amide C═O peak to the ester C═O peak is in a predetermined range, and a flexible display device including the cover window for a flexible display device.

An energy-sensitive composition that yields a cured product with excellent thermal resistance and crack resistance, a cured product of the composition, and a method of forming a cured product. The energy-sensitive composition includes a polysilane and a thermal base generator, in which the thermal base generator includes an ionic compound and a nonionic compound. An anion moiety in the ionic compound preferably includes at least one of an anion having an oxaxanthone skeleton, an anion having a ketoprofen skeleton, and an anion having a fluorenone skeleton.

Applying aerogel-containing insulation layer(s) to an article. The insulation layer comprising: aerogel particles; and at least one binder, comprising the steps of: providing the article to be coated; mixing the aerogel particles with the particles of a pulverulent binder and/or a pulverulent solid, for example expanded glass, to give a particle mixture; applying the particle mixture to the article to be coated by scattering the particle mixture onto the article to be coated; and activating the at least one binder of the at least one insulation layer, in order to provide a bond of the particle mixture to the article, wherein the aerogel particles are present in the particle mixture in a proportion of 5 to 95 percent by weight of the particle mixture.

An eco-friendly aqueous acrylic emulsion OPP tape and a method for manufacturing the same and, more particularly, to a method for manufacturing an OPP tape using an aqueous acrylic emulsion adhesive that adopts an optimized drying process to significantly enhance the production efficiency, and an OPP tape using an aqueous acrylic emulsion adhesive that is produced by the manufacturing method and has non-toxicity, durability secured by stability, and excellent adhesiveness and retention.

A coating method is provided which includes the steps of applying a base paint on a workpiece, blowing air at 19° C. or higher and 26° C. or lower to the applied base paint to pre-dry the base paint, applying a clear coating on the pre-dried base paint, and finally drying the workpiece with the clear coating applied thereon.

An industrial oven includes an oven chamber configured to receive a plurality of work pieces. A heater box of the oven has a heating element therein operable to heat air for delivery to the oven chamber. A circulation system of the oven is operable to force hot air from the heater box into the oven chamber. The circulation system includes a delivery manifold extending from the heater box to the oven chamber. A duct has an inlet coupled with an outlet of the delivery manifold, and the duct has a plurality of hot air outlet apertures therein for expelling hot air into the oven chamber. The duct is constructed of fabric sheet and suspended within the oven chamber.

The present application provides an oven drying apparatus and a coating device. The oven drying apparatus comprises an oven drying chamber and a heating assembly. The oven drying chamber is equipped with a first oven drying side having a plurality of first air inlet portions for fluid medium to enter the oven drying chamber. The heating assembly is disposed on the first oven drying side. The first oven drying side is further provided with at least one air return portion provided between two adjacent first air inlet portions, and the air return portion being configured for fluid medium in the oven drying chamber to be discharged from the oven drying chamber. The arrangement of an air return portion between two first air inlet portions can discharge fluid medium between the two first air inlet portions and take away the heat, thus avoiding accumulation of heat between the two first air inlet portions.

Systems and processes for curing a wet coating of a coated substrate are disclosed. The system includes a ventilation system and a curing room configured to receive the coated substrate being displaced along a displacement axis and includes at least an upstream curing section and a downstream curing section. The upstream curing section includes an upstream catalytic infrared heating system for producing an upstream infrared radiation at an upstream radiation intensity to heat and partially cure the wet coating while the coated substrate is being displaced through the upstream curing section. On the other hand, the downstream curing section includes a downstream catalytic infrared heating system for producing a downstream infrared radiation at a downstream radiation intensity, being lower than the upstream radiation intensity, to further cure the wet coating while the coated substrate is being displaced through the downstream curing section for producing a cured coating.

A method for manufacturing an environmental-friendly heat shielding film using a non-radioactive stable isotope includes: a substrate layer providing step of providing a substrate layer; and a heat shielding layer forming step of, after the substrate layer providing step, forming, on one surface of the substrate layer, a heat shielding layer containing a non-radioactive stable isotope tungsten bronze compound that does not emit radiation.

A coating device includes a first coating mechanism configured to coat a first surface of a substrate, a first oven drying mechanism arranged downstream of the first coating mechanism and configured to oven dry a coating on the first surface, a second coating mechanism arranged downstream of the first oven drying mechanism and configured to coat a second surface of the substrate opposite to the first surface, a second oven drying mechanism arranged downstream of the second coating mechanism and configured to oven dry a coating on the second surface, and a third oven drying mechanism arranged downstream of the second oven drying mechanism and configured to oven dry the coating on the second surface.