Jul 16, 2013 ... In this paper, an interfacial flame resistance mode was proposed in order to solve the problem in an efficient and economic manner. Unlike the...
In this article, an efficient and simple approach for the preparation of organic–inorganic intumescent interfacial flame retardants, aiming at enhancing the...
Jun 29, 2016 ... [email protected]–N: an efficient flame retardant to improve simultaneously the ... had better interfacial interaction compared with that of EVA/PGS/EG.
Apr 17, 2014 ... Efficient Approach to Improving the Flame Retardancy of Poly(vinyl ..... an efficient flame retardant to improve simultaneously the interfacial...
Flame-retardant superhydrophobic coating derived from fly ash on polymeric foam for efficient oil/corrosive water and emulsion separation. Original research...
The silanol content and in vitro cytolytic activity of flame-made silica ... Synthesis of a hierarchical SnS2 nanostructure for efficient adsorption of Rhodamine B...
An Efficient, Interface-Preserving Level Set Redistancing Algorithm and Its ..... (2011) Simulation of a premixed turbulent flame by a conservative level set...
Feb 17, 2015 ... Improving power conversion efficiency and device performance stability is ... Interfacial layer engineering enables the use of high work function...
flame retardance;; polyamide 6;; glass fibers;; melamine polyphosphate; ... Wang, Zhijian Zhang, Zhangyu Wang, An efficient interfacial flame-resistance mode to...
Enhanced oil recovery (abbreviated EOR) is the implementation of various techniques for ... This refers to removing the interface between the two interacting fluids. ... These methods improve the sweep efficiency and the displacement efficiency. Steam ... Fire flooding works best when the oil saturation and porosity are high.
Dec 18, 2017 ... ... thermal, interfacial adhesion and flame-retardant properties of EVA cable were .... Synthesis of a highly efficient phosphorus-containing flame...
SIL-PADS: A cleaner, more efficient Alternative for electronic Applications ... A specific interfacial performance that matches the need Efficient total applied costs ... (Vac): 3500, 4500; Volume Resistivity (Ohm-meter): 10^11; Flame Rating: V-O.
Sep 30, 2013 ... Fire Safety Engineering facilitates safe use and assessment of building .... An efficient interfacial flame-resistance mode to prepare glass fiber...
1 day ago ... TGA, a highly efficient method, is used to probe the degradation and ..... 2013 An efficient interfacial flame-resistance mode to prepare glass...
... found to be an efficient renewable and environmentally-friendly flame retardant. ... highly flame retardant polymer nanocomposite with improved interfacial and...
Numerical simulation of interfacial flows by smoothed particle hydrodynamics ..... Makoto Fujisawa , Kenjiro T. Miura, An Efficient Boundary Handling with a Modified ..... Previous studies on physical boundary conditions for flame-boundary...
We developed high-performance thermal interface materials (TIMs) based on few-layer graphene (FLG) ... To achieve an efficient heat conduction at thermal ..... We controlled the thickness of FLGTs (t) by changing the thickness of G-10 (flame-.
Explain how powdered fire extinguishants are effective on a fire. .... the AFFF solution by an amount in excess of the interfacial tension between the two liquids.
previously smooth sediment surface reversed the net interfacial flux of solutes. While the ... erations, Mn reduction is less efficient for microbial carbon oxidation than ..... samples were analysed by flame absorption spectroscopy (Thamdrup et.
Durability. Fiber reinforced polymer. Fire. Interface. Long term performance. Nondestructive ..... effective ways to enhance the resistance of FRP-bonded concrete.
Addition of interfacial agents is a useful way of minimizing ... It was observed that both coupling agents were efficient but PP modified with VTES showed better...
explosive–container interface, as well as on the ... energetic material caused by heating from a propane fire. ... and efficient solvers must be implemented.