A textured glass article includes: a body comprising an aluminosilicate glass comprising greater than or equal to 16 wt % Al.sub.2O.sub.3 and a Al.sub.2O.sub.3/SiO.sub.2 ratio less than or equal to 0.3, the body having at least a first surface; a plurality of polyhedral surface features extending from the first surface, each of the plurality of polyhedral surface features comprising a base on the first surface, a plurality of facets extending from the first surface, and a surface feature size at the base greater than or equal to 10 μm and less than or equal to 100 μm, wherein the plurality of facets of each polyhedral surface feature converge toward one another; and a transmittance haze greater than or equal to 50%.

A textured glass article includes: a body comprising an aluminosilicate glass comprising greater than or equal to 16 wt % Al.sub.2O.sub.3, the body having at least a first surface; and a plurality of polyhedral surface features extending from the first surface, each of the plurality of polyhedral surface features comprising a base on the first surface, a plurality of facets extending from the first surface, and a surface feature size at the base greater than or equal to 10 μm and less than or equal to 350 μm, wherein the plurality of facets of each polyhedral surface feature converge toward one another.

A recycling production line for horseshoe-fired-melting-furnace waste glass is provided, which includes a pre-flushing mechanism used for cleaning, a secondary cleaning mechanism and a drying mechanism. Two conveying mechanisms are mounted at a lower end of the pre-flushing mechanism and a lower end of the drying mechanism, respectively. The secondary cleaning mechanism is arranged between the two conveying mechanisms. An oscillating mechanism is arranged between the pre-flushing mechanism and the conveying mechanism. Through the cooperation of the pre-flushing mechanism and the oscillating mechanism, when glass cullet is flushed for the first time, the effective vibration force and the flushing force can be provided, the cleaning effect is guaranteed, water resources can be recycled, and energy resources are saved. The ultrasonic cleaning, and the drying that is performed at a drying temperature with temperature ranges are utilized, to improve the cleaning degree for later use.

The present invention relates to a chemically strengthened glass having a sheet shape, having a compressive stress layer on a glass surface, having a compressive stress value on the glass surface of 800 MPa or more, having a sheet thickness (t) of 100 μm or more, having a depth of the compressive stress layer (DOL) of (t×0.1) μm or more, and satisfying: CS.sub.B>CS.sub.A>0, where D.sub.B is a depth in a range of 10 μm or more and not more than DOL from the glass surface, at which a compressive stress value is maximum; CS.sub.B is the compressive stress value at the depth D.sub.B; D.sub.Λ is a depth in a range of equal to or less than D.sub.B from the glass surface, at which a compressive stress value is minimum; and CS.sub.A is the compressive stress value at the depth D.sub.A.

A cleaning device for cleaning a single-curved glass includes: a box body, a transmission mechanism, a cleaning mechanism and a drying mechanism. The box body includes two openings. Each of the two openings is disposed on one side of the box body. The single-curved glass enters the box body through one opening and exits the box body through the other opening. The transmission mechanism includes a first drive group and two second drive groups. The first drive group is slidably disposed on the box body. The second drive groups are disposed on two sides of the first drive group on the box body. The second drive groups are to deliver the single-curved glass in the box body. The cleaning mechanism is slidably disposed on the box body to clean the single-curved glass. The drying mechanism is slidably disposed on the box body to dry the single-curved glass.

A glass composite includes a first glass member and a second glass member. The first glass member and the second glass member are at least partially connected with each other at the surfaces. The glass composite has a light transmittance not lower than 95% of the light transmittance of the one, with the lower light transmittance, of the first glass member and the second glass member.

A glass composite includes a first glass member and a second glass member. The first glass member and the second glass member are at least partially connected with each other at the surfaces, and a contact interface is formed on the contacting position of the first glass member and the second glass member. The contact interface is visually observed to have no crevices; and when the glass composite is in contact with an acid solution, crevices are suitably formed in the glass composite at the contact interface.

A method for processing of glass containers includes: simultaneously subjecting the glass containers to a first processing step; and simultaneously subjecting the glass containers to a second processing step after the first processing step. At least one of before or during at least one of the first processing step or the second processing step an outer container surface of each glass container is contact-free or in contact with a material having a lower hardness than that of the glass container or only in contact with such materials.

Provided is a dry type ultrasonic cleaner having a multi-suction port that can quickly, uniformly, and reliably remove particles on a product through the multi-suction port without scattering, and in particular, can remove a wide range of particles having a size of several micrometers to several millimeters, thereby securing product competitiveness.

Glare-free glass articles and methods for producing are provided. The glass article includes a surface with an area having a roughness RMS from 10 nm to 1000 nm, a distinctness of image DOI from 30 to 70, a gloss value of less than 40 at a viewing angle of 60°, and a haze value, determined in transmission, of less than 3%. The area also has a ratio of mean height of peaks above core surface (Spk) to mean depth of valleys below core surface (Svk) that is equal to 1±0.1 within a measured surface area of more than 0.1 mm.sup.2 and less than 3 mm.sup.2.