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The Utility of Nanocomposites in Fire Retardancy
关键字:fire retardancy; nanocomposite; cone calorimetry; dispersion
There are now a large number of layered materials that have been used to produce polymer nanocomposites, including montmorillonite and similar materials, such as hectorite and magadiite; layered double hydroxides and similar materials, ...
http://www.polymer.cn/research/dis_info12444 |
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APPLICATION OF A NUMERICAL MODEL FOR PREDICTION OF PYROLYSIS OF POLYMER NANOCOMPOSITES IN THE CONE CALORIMETER
It is well known that the formation of a surface layer, during combustion of polymer nanocomposites in the cone calorimeter, is responsible for the reduced heat release rate. In a previous study (Zhang et al., 2008), the...
http://www.polymer.cn/research/dis_info8551 |
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APPLICATION OF A NUMERICAL MODEL FOR PREDICTION OF PYROLYSIS OF POLYMER NANOCOMPOSITES IN THE CONE CALORIMETER
It is well known that the formation of a surface layer, during combustion of polymer nanocomposites in the cone calorimeter, is responsible for the reduced heat release rate. In a previous study (Zhang et al., 2008), the...
http://www.polymer.cn/research/ct_info835 |
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Shear Flow of CTAB/NaSal Solutions in a Rheometer of Cone and Plate Type
A surfactant molecule consists of one hydrophilic head and one hydrophobic tail and forms an aggregation called a micelle above a certain concentration called a critical micelle concentration.
http://www.polymer.cn/research/dis_info12604 |
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The Utility of Nanocomposites in Fire Retardancy
关键字:fire retardancy; nanocomposite; cone calorimetry; dispersion
There are now a large number of layered materials that have been used to produce polymer nanocomposites, including montmorillonite and similar materials, such as hectorite and magadiite; layered double hydroxides and similar materials, ...
http://www.polymer.cn/research/dis_info12444 |
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APPLICATION OF A NUMERICAL MODEL FOR PREDICTION OF PYROLYSIS OF POLYMER NANOCOMPOSITES IN THE CONE CALORIMETER
It is well known that the formation of a surface layer, during combustion of polymer nanocomposites in the cone calorimeter, is responsible for the reduced heat release rate. In a previous study (Zhang et al., 2008), the...
http://www.polymer.cn/research/dis_info8551 |
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Coalesced-Droplets Transport to Apexes of Magnetic-Flexible Cone-Spine Array
The magnetic-responsive cone spine (MCS) array, where the coalesced-droplets transport to apexes of each MCSs, rather than the bottom (larger diameter) of cone spine that was reported previously. In this study, the microcone spine is covered with nanohairs, and the low adhesion gradient can be induced thereby along MCSs. It is demonstrated that the coalesced droplet...
http://www.polymer.cnt//ss/zhengyongmei/publicationsshow_9767.html |
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60. Topological transformation of aggregates formed by an amphiphilic and truncated-cone-shaped codendrimer
Experimental evidence for a topological transformation of aggregates of an amphiphilic codendrimer from sphere to button structures via a toroidal intermediate is reported. The aggregates are produced in organic solvents which consist of water droplets covered by a continuous monolayer of the codendrimer. The transformations occur at a mean curvature which is equal to the spontaneous curvatu...
http://www.polymer.cnt//ss/wangwei/publicationsshow_3091.html |
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Method of Cone Calorimeter Used for Estimation of the Visibility Range in Smoke Generated during Combustion of the Epoxy Materials
关键字:flame retardant; cone calorimeter; visibility; epoxy materials
This work presents changes of visibility reduction rate in a smoke generated during thermal decomposition and combustion of the selected epoxy materials (with flame retardant) for a model set (room - hall). The input data use...
http://www.polymer.cn/research/dis_info12504 |
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Synergistic Effect of Halloysite on Intumescent Flame-Retardant LDPE System Based on Cone Calorimeter Tests
关键字:LDPE; Synergistic agent; flame retardant; halloysite; cone
Polyethylene (PE) has been widely used in many fields such as packaging materials, thin films, building materials, because of its excellent properties. However, easy combustibility (LOI<18) and melt dripping limit its applications.
http://www.polymer.cn/research/dis_info12462 |
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