We have set a prominent benchmark in the industry as a respectable manufacturer, supplier and exporter of Fire Proof Paint. Used in different industries including iron and steel as a fire retardant, these paints are applicable for flammable area to avoid fire. Well processed using advanced technology and machinery, these paints are acclaimed among our patrons. This Fire Proof Paint is available in different packaging options to ensure full client contentment. Some of the features of these products are as follows: Describe Your Requirements In Detail* I am interested in your products. Please contact me back on email/phone. Select a file to upload If City Not Found Click Here Listen to the Code(Audio Link) Structural Steel Beam Fire Rated Cladding Fire Rated False Ceilings Calcium Silicate Board HiluxKale Pakistan added 4 new photos.We are pleased to announce that Kale Faislabad is on finishing stages and will be opening for our Faislabad clients very soon.

The use of glass as an effective fire-barrier is long-established and well-accepted, offering enhanced aesthetics and greater access to natural light and internal views.Promat and Promat Securiglass offers a full range of glazing solutions including SYSTEMGLAS which provides both integrity and insulation, as a butt jointed or framed system. The butt jointed system allows architects and designers greater scope when considering glazed partition systems. 30-120 minutes fire resistance Chapter 8_Fire Resistant Glazing Systems Product and Application Guides N.B. Documents shown with a padlock: please register or log in to your Website Account above, to access document. Q: What are flame retardants? A: Flame retardants are a key component in reducing the devastating impact of fires on people, property and the environment. They are added to or treat potentially flammable materials, including textiles and plastics. The term “flame retardant” refers to a function, not a family of chemicals.

A variety of different chemicals, with different properties and structures, act as flame retardants and these chemicals are often combined for effectiveness. Q: What are the most common elements in flame retardants? A: Bromine, phosphorus, nitrogen and chlorine are commonly used in flame retardants. Inorganic compounds are also used in flame retardants, either alone or as part of a flame retardant system in conjunction with bromine, phosphorus or nitrogen. It is important to note that flame retardants are not readily interchangeable. Their areas of application are often specific and substitution can be difficult. Q: How do flame retardants work? A: Flame retardants are added to different materials or applied as a treatment to materials (e.g., textiles, plastics) to prevent fires from starting, limit the spread of fire and minimize fire damage. Some flame retardants work effectively on their own; others act as “synergists” to increase the fire protective benefits of other flame retardants.

A variety of flame retardants is necessary because materials that need to be made fire-resistant are very different in their physical nature and chemical composition, so they behave differently during combustion. garage door companies knoxville tnThe elements in flame retardants also react differently with fire. vw mk1 2 door for sale in cape townAs a result, flame retardants have to be matched appropriately to each type of material. garage door repair brick njFlame retardants work to stop or delay fire, but, depending on their chemical makeup, they interact at different stages of the fire cycle. aluminium bifold door handles

To better understand how flame retardants work, it’s helpful tooak door linings uk understand the fire cycle:garage door openers columbus ohio When flame retardants are present in the material, they can act in three key ways to stop the burning process. internal doors for sale liverpoolThey may work to: A: While an ever-evolving list of new products—from hair dryers and small appliances to laptops and flat-screen televisions—is incorporated into our homes, offices and commercial environments, we seldom think about how the products are made. Flame retardants provide consumers with a critical layer of fire protection and are vital to reducing the risks associated with fire. Today, flame retardants are used predominantly in four major areas:

Electronics and Electrical Devices Transportation (Airplanes, Trains, Automobiles) A: Experts recognize the use of flame retardants is essential to stopping or slowing the spread of fire. Flame retardants are used to prevent ignition by increasing the threshold required to start a fire; reduce the spread of fire; flashover, the “fireball” that can quickly occur when the combined heat and the release of flammable gases cause automatic combustion. Delaying flashover reduces the rate and intensity of burning and increases the amount of time people have to escape. The use of flame retardants is especially important today because modern homes, with the increase in electronic products alone, present a greater risk of fire dangers. In addition, flame retardant use is a component in protecting the public, particularly more vulnerable populations, including the elderly, children in schools and those in hospitals. National Fire Protection Association, in 2009, 1,348,500 fires were reported in the United States, causing 3,010 civilian deaths, 17,050 civilian injuries and $12.5 billion in property damage.

Flame retardants are the hidden protection against the potentially devastating impact of fire in so many products that we take for granted. Their benefits are often noticed only when they are not present. Q: Are all flame retardants the same? A: Flame retardants are not all the same, and they are not interchangeable when it comes to the fire safety of materials and products. A variety of flame retardants is necessary because the elements in flame retardants react differently with fire. In addition, materials that need to be made fire-resistant are very different in their physical nature and chemical composition, and they behave differently during combustion. As a result, chemical manufacturers have developed different flame-retardant chemistries to suit different products to render them fire-resistant and allow them to retain their intended functionality and performance standards. Further innovation by the chemical manufacturing industry will be required to keep pace with advancements in technology, and, with it, a steady increase in new products.