Sold Out
Book Categories |
Ch. 1 | An introduction to the use of fillers and nanocomposites in fire retardancy | 1 |
Ch. 2 | Fire retardant fillers for polymers | 19 |
Ch. 3 | Lamellar double hydroxides/polymer composites : a new class of fire retardant materials | 42 |
Ch. 4 | Effect of a small amount of flame retardant on the combustion of PC, PBT and PET | 54 |
Ch. 5 | Intumescent silicates : synthesis, characterization and fire protective effect | 68 |
Ch. 6 | Flammability of nanocomposites : effects of the shape of nanoparticles | 81 |
Ch. 7 | Thermal degradation and combustibility of polypropylene filled with magnesium hydroxide micro-filler and polypropylene nano-filled aluminosilicate composite | 100 |
Ch. 8 | Effect of the processing conditions on the fire retardant and thermo-mechanical properties of PP-clay nanocomposites | |
Ch. 9 | Fire retardancy of polystyrene - hectorite nanocomposite | 126 |
Ch. 10 | Prolysis and flammability of polyurethane - organophilic clay nanocomposite | 139 |
Ch. 11 | Thermal degradation behaviour of flame-retardant unsaturated polyester resins incorporating functionalised nanoclays | 147 |
Ch. 12 | Comparative study of nano-effect on fire retardancy of polymer-graphite oxide nanocomposites | 161 |
Ch. 13 | Styrene-acrylonitrile copolymer montmorillonite nanocomposite : processing, characterization and flammability | 177 |
Ch. 14 | Polyhedral oligomeric silsesquioxanes : application to flame retardant textiles | 189 |
Ch. 15 | Octaisobutyl POSS thermal degradation | 202 |
Ch. 16 | Interactions between nanoclays and flame retardant additives in polyamide 6, and polyamide 6.6 films | 223 |
Ch. 17 | Use of clay-nanocomposite matrixes in fire retardant polyolefin-based intumescent systems | 239 |
Ch. 18 | Effect of hydroxides on fire retardance mechanism of intumescent EVA composition | 248 |
Ch. 19 | Barrier effects for the fire retardancy of polymers | 264 |
Ch. 20 | Plasma assisted process for fire properties improvement of polyamide and clay nanocomposite reinforced polyamide : a scale-up study | 276 |
Ch. 21 | Fire retardant polypropylene/flax blends : use of hydroxides | 291 |
Ch. 22 | Intumescence in ethylene-vinyl acetate copolymer filled with magnesium hydroxide and organoclays | 302 |
Ch. 23 | Spent oil refinery catalyst : a synergistic agent in intumescent formulations for polyethylenic materials | 313 |
Ch. 24 | Zinc borates as synergists for flame retarded polymers | 327 |
Ch. 25 | Fire retardancy of engineering polymer composites | 336 |
Ch. 26 | Flame retardant mechanisms facilitating safety in transportation | 347 |
Ch. 27 | Comparison of the degradation products of polyurethane and polyurethane-organophilic clay nanocomposite - a toxicological approach | 363 |
Ch. 28 | Mechanisms of smoke and CO suppression from EVA composites | 372 |
Ch. 29 | Products of incomplete combustion from fire studies in the purser furnace | 386 |
Ch. 30 | Improved and cost-efficient brominated fire retardant systems for plastics and textiles by reducing or eliminating antimony trioxide | 399 |
Login|Complaints|Blog|Games|Digital Media|Souls|Obituary|Contact Us|FAQ
CAN'T FIND WHAT YOU'RE LOOKING FOR? CLICK HERE!!! X
You must be logged in to add to WishlistX
This item is in your Wish ListX
This item is in your CollectionFire Retardancy of Polymers: New Applications of Mineral Fillers
X
This Item is in Your InventoryFire Retardancy of Polymers: New Applications of Mineral Fillers
X
You must be logged in to review the productsX
X
X
Add Fire Retardancy of Polymers: New Applications of Mineral Fillers, , Fire Retardancy of Polymers: New Applications of Mineral Fillers to the inventory that you are selling on WonderClubX
X
Add Fire Retardancy of Polymers: New Applications of Mineral Fillers, , Fire Retardancy of Polymers: New Applications of Mineral Fillers to your collection on WonderClub |