Features:
Safety: broken with small obtusely uniform particle to avoid hurting people
Strength: 4 times that of ordinary glass
Thermal changing resistance: 300c
JHG silk-screen printed glass is one kind of decorative glass made by printing layer of ceramic ink on the surface of glass through the screen mesh for tempering or heat-strengthening process after. As a result silk-screen printed glass is durable, scratch-proof, solar shading and with anti-glare effect. Silk screen glass is widely usded for architecture ,home application ,furniture , auto window shild. Max size 2440*3660mm ,All colour is available .
JHG offer 3-5mm from 90-98% LT glass with rectangular sizes, shape sizes for greenhouse,hobby glass house. JHG may offer different greenhouse glass items: Tempered low iron glass 91+ Tempered clear glass 89+ Tempered AR glass� 95+ Tempered diffuse glass with 30-75 Haze Greenhouse Glass Advantage: Durability, Glass is the strongest of all greenhouse materials Becautiful Appearance. High light transmission, high UV available Shatter-Resistant
It is processed by controlled thermal or chemical treatments to increase its strength compared with normal glass, about four times stronger than annealed, glass. When broken, tempered glass fractures into small, relatively harmless pieces, it is widen used for window, door, railing, furniture, vehicle.
Name Tempered glass Categories Physical tempered glass ; Full-tempered glass; semi-tempered glass ; Super toughened glass railing, architectural shielding, windshield, stadium baffle, glass table and counters, fence glass , hotels etc. Applicable in vehicle, steamer, bank, jeweler's shop, villa, etc as well. Remarks We can customize other types as per your request Wooden case
1, Semi-tempered glass is ordinary about the strength of float glass 2 times. 2, Effectively resist heat stress and avoid the heat Zhalie glass. 3, Rupture, the semi-tempered glass debris tends to remain in the framework of not falling. 4, Not a glass of self phenomenon. Applications : 1, business and civil buildings 2, glass escalator railings and parapets 3, vehicles and ships, such as the windows 4, decoration and furniture 5, the existence of thermal shock Specifications++ thickness of the :3-19 mm Maximum size: 2440 X 6000mm Minimum size: 150 X250mm.
The processing principle of heat strengthened glass is similar to that of tempered class. Its heating temperature is a little lower than that for tempered glass. Besides, its cooling speed is low just like that of tempered glass. The only difference between such glass and tempered glass is that its strength is lower than that of tempered glass, about twice that of common glass. However, like annealed glass, its pieces (when broken) are large in size. Thus, it can't be used as safety glass. The bending of heat strengthened glass is smaller than that of tempered glass and the thermo stability of heat strengthened glass is much better than that of annealed glass. As heat strengthened glass does not explode by itself, it is widely used in glass curtain walls, green Applications: houses, partitions and decoration industry. Specification: Thickness: 3~19mm; Max. size: 2440mm x 6000mm; Min. size: 150mm x 250mm.
Tempered Glass
Toughened glass is a safety glass that has undergone processes of controlled thermal treatment to increase its strength. Also known as 'Tempered glass', toughened glass is made from annealed glass that has been heated to approximately 650â?°C and then rapidly cooled, making it four times stronger than ordinary glass. Due to the increased heat treatment and rapid cooling of the glass, the treatment produces different physical properties. This results in compressive stress on the surface and improved bending strength of the glass. Before toughening, the glass must be cut to the correct size or pressed to shape. The Process of Toughening The glass is carried by rollers and goes through the furnace. Three types of modes are used to heat the glass - conduction, convection, and radiation. While the rollers help to conduct the heat, the coils enable radiation of heat. This ensures that the glass is evenly heated on every side. By blasting air on both the surfaces, the heated glass is then cooled uniformly.