Stephen et al., 1996 - Google Patents
Controlling mechanisms in the transition from smoldering to flaming of flexible polyurethane foamStephen et al., 1996
View PDF- Document ID
- 4219347843178910386
- Author
- Stephen D
- Carlo A
- Nde-Pello F
- Miyasaka K
- Publication year
- Publication venue
- Symposium (International) on Combustion
External Links
Snippet
Experiments have been conducted to study the controlling mechanisms involved in the transition from smoldering to flaming of a porous combustible material, flexible polyurethane foam, with an air flow forced across one of the porous-fuel surface. The experiments are …
- 229920005830 Polyurethane Foam 0 title abstract description 9
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Stephen et al. | Controlling mechanisms in the transition from smoldering to flaming of flexible polyurethane foam | |
| Pizzo et al. | Width effects on the early stage of upward flame spread over PMMA slabs: Experimental observations | |
| Torero et al. | Natural convection smolder of polyurethane foam, upward propagation | |
| Atreya | Ignition of fires | |
| Sun et al. | Structure of flames propagating through aluminum particles cloud and combustion process of particles | |
| Lee et al. | Heat fluxes on opposite building wall by flames emerging from an enclosure | |
| Zhao et al. | Experimental measurement and numerical analysis of binary hydrocarbon mixture flammability limits | |
| Yang et al. | Effects of atmospheric oxygen on horizontal peat smoldering fires: Experimental and numerical study | |
| Liu et al. | Effects of ullage height on heat feedback and combustion emission mechanisms of heptane pool fires | |
| Al-Noman et al. | Autoignited lifted flames of dimethyl ether in heated coflow air | |
| Gupta et al. | Mechanisms of flame spread and burnout in large enclosure fires | |
| Marquis et al. | Effects of oxygen availability on the combustion behaviour of materials in a controlled atmosphere cone calorimeter | |
| Suzanne et al. | Flame extinction properties of solids obtained from limiting oxygen index tests | |
| Staggs | A simple model of polymer pyrolysis including transport of volatiles | |
| Fang et al. | Experimental, numerical and theoretical analyses of the ignition of thermally thick PMMA by periodic irradiation | |
| Urbas et al. | Surface temperature measurements on burning wood specimens in the cone calorimeter and the effect of grain orientation | |
| Fernandez-Pello | Downward flame spread under the influence of externally applied thermal radiation | |
| Zhou et al. | Turbulent, concurrent, ceiling flame spread: The effect of buoyancy | |
| Kokkala et al. | Upward flame spread on wooden surface products: experiments and numerical modelling | |
| Lai et al. | Pyrolysis and piloted ignition of thermally thick PMMA exposed to constant thermal radiation in cross forced airflow | |
| Ndubizu et al. | Transient burning rate of a noncharring plate under a forced flow boundary layer flame | |
| Gomez et al. | Ignition and combustion of single coal and char particles: A quantitative differential approach | |
| Thomsen et al. | Opposed flow burning of PMMA cylinders in normoxic atmospheres | |
| Shih et al. | An experimental study of upward flame spread and interactions over multiple solid fuels | |
| Lautenberger et al. | Understanding materials flammability |