Their range covers the complete spectrum of building glass from commercial to residential and industries. They manufacture almost all types of glass which are used for the wide range of architectural requirements. The various types are float glass, laminated glass, toughened safety glass, energy efficient glass, and insulated glass units which are available in glazed, reflective & Low E (low emissivity) combinations. They are committed to Go green initiatives by following environmentally friendly methods and supplying innovative glass products which deliver superior energy efficiency. Building glass plays a very important and unique role in the design of the building and also affects the environment inside the building. It also affects the appearance of the building, thermal protection and the comfort of the occupants. It is because of this that the selection of the right glass plays a crucial role in the design process of a building.
The key decisions which have to be taken when selecting glass for facades, interiors of the building and for glazing systems are:
1) Thermal performance: The thermal performance of a glass is determined by the space between the two laminated glasses. Most double glazing units achieve maximum thermal performance when the space between the glasses id 16-18mm. The space between the glasses is filled with a low thermal conductivity gas like Argon.
2) Appearance: The appearance of glass refers to the colour and texture of the glass which is very important for the façade of any building.
3) Safety and security requirements: This refers to the assurance of greater safety and security from the glass without compromising the appearance and thermal requirements of the glass. The glass can be used to protect a building’s occupants from accidental and physical damage due to fire or other reasons without compromising the bold and attractive designs. The latest innovations in the field of safety/security glass now ensures that people can be protected from personal injury and in the most extreme cases, the buildings can be protected from various forms of attack because of the glass.
4) Noise Control: The large spaces between the glasses in double glazed units controls the noise level caused due to disturbances outside the building as well as inside the building.
5) Cleaning requirements: This refers to the ease of cleaning the glass used in the façade as well as the inside of a building. These days self cleaning glasses are available which are used in exteriors. This glass uses a pyrolitic coating which dissolves dirt and sheds water using natural sun light and rain.
Double glazing units are toughened laminated glass which provides the best results in Safety glass. In these units the two pieces of toughened glass are bonded together by PVB or resin to provide superior structural strength to the glass. The PVB or resin acts as a medium between the glasses and this ensures that if the glass breaks then the pieces of glass are held together, which minimises the risk of injury due to the broken glass pieces. The space between the glasses may also be filled with argon gas which helps in providing greater insulation and thus controlling the thermal efficiency of the glass.
For more detail, visit this website:
http://www.flatglass.com.au/
The key decisions which have to be taken when selecting glass for facades, interiors of the building and for glazing systems are:
1) Thermal performance: The thermal performance of a glass is determined by the space between the two laminated glasses. Most double glazing units achieve maximum thermal performance when the space between the glasses id 16-18mm. The space between the glasses is filled with a low thermal conductivity gas like Argon.
2) Appearance: The appearance of glass refers to the colour and texture of the glass which is very important for the façade of any building.
3) Safety and security requirements: This refers to the assurance of greater safety and security from the glass without compromising the appearance and thermal requirements of the glass. The glass can be used to protect a building’s occupants from accidental and physical damage due to fire or other reasons without compromising the bold and attractive designs. The latest innovations in the field of safety/security glass now ensures that people can be protected from personal injury and in the most extreme cases, the buildings can be protected from various forms of attack because of the glass.
4) Noise Control: The large spaces between the glasses in double glazed units controls the noise level caused due to disturbances outside the building as well as inside the building.
5) Cleaning requirements: This refers to the ease of cleaning the glass used in the façade as well as the inside of a building. These days self cleaning glasses are available which are used in exteriors. This glass uses a pyrolitic coating which dissolves dirt and sheds water using natural sun light and rain.
Double glazing units are toughened laminated glass which provides the best results in Safety glass. In these units the two pieces of toughened glass are bonded together by PVB or resin to provide superior structural strength to the glass. The PVB or resin acts as a medium between the glasses and this ensures that if the glass breaks then the pieces of glass are held together, which minimises the risk of injury due to the broken glass pieces. The space between the glasses may also be filled with argon gas which helps in providing greater insulation and thus controlling the thermal efficiency of the glass.
For more detail, visit this website:
http://www.flatglass.com.au/
