Introduction
Fire incidents in industrial and construction environments pose serious challenges, causing significant damage annually. With the extensive use of flammable materials across various industries and the need for fire control, fire-resistant products are crucial. Touch Fire is one of the most advanced products in the field of fire resistance, effectively preventing fire spread through innovative technologies and smart enzymes. This report examines the features, applications, target markets, and effects of this product on various solid materials, especially polymers, composites, and semiconductors, and analyzes countries with the greatest need for it. Additionally, topics such as types of fire-resistant coatings, fire stops, fireproofing, nano-coatings, flame retardants, and products like CAFCObw5 are discussed and compared with Touch Fire.
Categories of Solids and Their Impact in Fire Incidents
Solids are categorized based on their flammability and resistance to fire into five main types:
- Crystalline Solids (Metals): Metals are generally non-flammable and act as barriers to fire spread; however, they lose strength and bend at high temperatures.
- Amorphous Solids (Ceramics and Concrete): These materials are non-flammable and can be used as fire-resistant materials, though they may crack and degrade at extremely high temperatures.
- Polymeric or Synthetic Solids: Polymers ignite easily and rapidly spread fire. Petroleum-based materials and polystyrene are especially hazardous, intensifying fire spread.
- Composite Solids: Composites, like aluminum and polyethylene used in building facades, have low fire resistance and spread fire as their structure degrades.
- Semiconductor Solids: Semiconductors may generate electric charge during a fire, increasing fire spread unless anti-static and anti-spark materials are used.
Effectiveness of Touch Fire on Polymeric, Composite, and Semiconductor Solids
Touch Fire’s unique features make it an ideal solution for preventing fire spread in polymeric, composite, and semiconductor materials:
- Effect on Polymeric Solids: Polymers ignite easily with even the smallest spark. Touch Fire forms a protective layer over these materials, maintaining a low temperature and preventing flames from spreading to other areas.
- Effect on Composite Solids: Composite materials degrade quickly in fire and can spread flames rapidly. Touch Fire provides a protective cover on these materials, blocking heat from penetrating internal layers and preventing structural degradation.
- Effect on Semiconductor Solids: Semiconductors can produce electric charges during a fire, potentially intensifying the flames. Touch Fire’s anti-static and anti-spark properties prevent this charge buildup, reducing the risk of secondary fires.
Fire Spread Prevention Mechanism of Touch Fire
Touch Fire uniquely prevents fire spread by regulating fire temperature, pressure, and wavelength. Its smart enzymes maintain temperatures below 100°C, effectively stopping fire expansion. Additionally, by reducing fire pressure and providing resistance to all three heat transfer methods (conduction, convection, and radiation), Touch Fire prevents heat from transferring to surrounding materials, thereby stopping fire spread.
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