A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Permanent fire retardance in polyester panels for high rise buildings
Chlorendic acid based polyester resin laminates based on 33% glass fiber mat retain their fire-retardance indefinitely, are resistant to most corrosive atmosphere and are shatter proof; actual flame spread resistance differs according to their individual degree of chlorination, and most are self-extinguishing; fire retardancy is enhanced by addition of antimony trioxide; other properties such as color stability, strength, corrosion resistance and weatherability make it suitable for use in walling and roofing of chemical gas and related plant; it is suitable also for use as skylight because of its good light transmission and low heat transmission.
Permanent fire retardance in polyester panels for high rise buildings
Chlorendic acid based polyester resin laminates based on 33% glass fiber mat retain their fire-retardance indefinitely, are resistant to most corrosive atmosphere and are shatter proof; actual flame spread resistance differs according to their individual degree of chlorination, and most are self-extinguishing; fire retardancy is enhanced by addition of antimony trioxide; other properties such as color stability, strength, corrosion resistance and weatherability make it suitable for use in walling and roofing of chemical gas and related plant; it is suitable also for use as skylight because of its good light transmission and low heat transmission.
Permanent fire retardance in polyester panels for high rise buildings
Applied Plastics
Applied Plastics ; 11
1968
Article (Journal)
English
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Fire Risks in High-Rise Buildings
| NTIS | 1979
Fire protection of high rise buildings
| TIBKAT | 1989
Fire risks in high-rise buildings
| TIBKAT | 1979