Thermosol Glass Tuff, Toughened Glass, is processed by heating glass to its transition stage (610-650 degrees Celsius), and then cooling it rapidly with blasts of air through specially designed air nozzles. This gives the glass high surface stress and tensile strength and it becomes four to five times stronger than annealed glass of the same thickness.
Thermosol Glass Tuff, Toughened Glass, is processed by heating glass to its transition stage (610-650 degrees Celsius), and then cooling it rapidly with blasts of air through specially designed air nozzles. This gives the glass high surface stress and tensile strength and it becomes four to five times stronger than annealed glass of the same thickness.
Toughened glass is four to five times stronger than annealed glass of its equal thickness. It provides greater thermal strength. It provides greater resistance to unexpected sudden changes in temperatures, as well as withstands different temperatures as compared with normal annealed glass.
Toughened glass is four to five times stronger than annealed glass of its equal thickness. It provides greater thermal strength. It provides greater resistance to unexpected sudden changes in temperatures, as well as withstands different temperatures as compared with normal annealed glass.
Parabolic trough solar technology is credited by being synonymous with “the very first application of solar energy.” Presently, it is the most advanced and lowest cost large scale solar power technology available. Considerable R&D has been done in last 3 decades and is also being currently conducted to enhance this technology.
Parabolic trough solar technology is credited by being synonymous with “the very first application of solar energy.” Presently, it is the most advanced and lowest cost large scale solar power technology available. Considerable R&D has been done in last 3 decades and is also being currently conducted to enhance this technology.
We provide both Monolithic Parabolic Mirrors and Laminated Parabolic Mirrors for CSP application. We use the highest performing solar float glass to create monolithic and laminated parabolic mirrors with high, trend setting reflectivity. Thermosol’s precise manufacturing process yields a smooth and accurate mirror.In this design, the Mirror is heat bent before silvering and the backing paint is the protective layer for silver andor copper metals against the environment.In this design, the Mirror is heat bent before silvering and the backing paint is the protective layer for silver andor copper metals against the environment.
We provide both Monolithic Parabolic Mirrors and Laminated Parabolic Mirrors for CSP application. We use the highest performing solar float glass to create monolithic and laminated parabolic mirrors with high, trend setting reflectivity. Thermosol’s precise manufacturing process yields a smooth and accurate mirror.In this design, the Mirror is heat bent before silvering and the backing paint is the protective layer for silver andor copper metals against the environment.In this design, the Mirror is heat bent before silvering and the backing paint is the protective layer for silver andor copper metals against the environment.
We provide both Monolithic Parabolic Mirrors and Laminated Parabolic Mirrors for CSP application. We use the highest performing solar float glass to create monolithic and laminated parabolic mirrors with high, trend setting reflectivity. Thermosol’s precise manufacturing process yields a smooth and accurate mirror.
We provide both Monolithic Parabolic Mirrors and Laminated Parabolic Mirrors for CSP application. We use the highest performing solar float glass to create monolithic and laminated parabolic mirrors with high, trend setting reflectivity. Thermosol’s precise manufacturing process yields a smooth and accurate mirror.
Insulating glass is of flawless quality with high degree of resistance to heat, retarding the flux of heat during the summer and heat loss during winter. It saves electricity being used for heating or cooling by decreasing air to air heat transfer. The air enclosed within the insulated glass panes makes insulating capability twice that of monolithic glass. Therefore load of air-conditioning is greatly reduced, with insulating glass; the insulating effect of air layer makes it tough for the glass to become cold and is relatively difficult for dew condensation.
Insulating glass is of flawless quality with high degree of resistance to heat, retarding the flux of heat during the summer and heat loss during winter. It saves electricity being used for heating or cooling by decreasing air to air heat transfer. The air enclosed within the insulated glass panes makes insulating capability twice that of monolithic glass. Therefore load of air-conditioning is greatly reduced, with insulating glass; the insulating effect of air layer makes it tough for the glass to become cold and is relatively difficult for dew condensation.
Heat strengthened glass, due to the special process it goes through, has high impact and shock resistance properties and is at least two times stronger than annealed glass. Due to its medium tensile strength it is very safe as it does not fall from its frame even if it breaks, making it ideal for use in glazing. It is also capable of withstanding temperature differences up to 20 degree Celsius on its surface. While its medium surface stress makes it resistant to scratches, sudden impacts, shocks and wind pressure during storms. Heat strengthened glass is very popular among the professional designers due to all these properties.
Heat strengthened glass, due to the special process it goes through, has high impact and shock resistance properties and is at least two times stronger than annealed glass. Due to its medium tensile strength it is very safe as it does not fall from its frame even if it breaks, making it ideal for use in glazing. It is also capable of withstanding temperature differences up to 20 degree Celsius on its surface. While its medium surface stress makes it resistant to scratches, sudden impacts, shocks and wind pressure during storms. Heat strengthened glass is very popular among the professional designers due to all these properties.
Thermosol Glass Ceramic Frit Glass is made by printing ceramic frit on float glass by a silk screen process before tempering or heat strengthening. After heat strengthening the ceramic frit fuses into the glass and becomes a permanent coating that cannot be removed or damaged by scrubbing or cleaning.
Thermosol Glass Ceramic Frit Glass is made by printing ceramic frit on float glass by a silk screen process before tempering or heat strengthening. After heat strengthening the ceramic frit fuses into the glass and becomes a permanent coating that cannot be removed or damaged by scrubbing or cleaning.
17 mm to 25 mm : For small Arms wiz; pistols, 9mm carbines.
30mm to 40mm : For 7.62mm Ak47 rifle
40 mm to 50 mm : For 7.62 mm SLR rifle + 5.5 Insas
55 mm to 80 mm
100 mm : Rocket Resistance
17 mm to 25 mm : For small Arms wiz; pistols, 9mm carbines.
30mm to 40mm : For 7.62mm Ak47 rifle
40 mm to 50 mm : For 7.62 mm SLR rifle + 5.5 Insas
55 mm to 80 mm
100 mm : Rocket Resistance
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