Tsapko et al., 2020 - Google Patents
Establishing patterns of heat transfer to timber through a protective structureTsapko et al., 2020
View HTML- Document ID
- 11116239151387166990
- Author
- Tsapko Y
- Rogovskii I
- Titova L
- Shatrov R
- Bondarenko O
- Mazurchuk S
- et al.
- Publication year
- Publication venue
- Восточно-Европейский журнал передовых технологий
External Links
Snippet
The conducted studies of the impact of thermal action of a high-temperature magnesium flame on construction materials for timber protection from atmospheric factors revealed a pattern of temperature transfer to timber. It was proved that depending on the thermophysical …
- 230000001681 protective 0 title description 8
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Tsapko et al. | Establishment of the mechanism and fireproof efficiency of wood treated with animpregnating solution and coatings | |
| Tsapko et al. | Research of mechanism of fire protection with wood lacquer | |
| Tsapko et al. | Effect of a flame-retardant coating on the burning parameters of wood samples | |
| Tsapko et al. | Determination of the laws of thermal resistance of wood in application of fire-retardant fabric coatings | |
| Tsapko et al. | Establishment of heat-exchange process regularities at inflammation of reed samples | |
| Zmaha et al. | Research of the behavioral of the wooden beams with fire protection lining under fire loading | |
| Kryvenko et al. | Determination of the effect of fillers on the intumescent ability of the organic-inorganic coatings of building constructions | |
| Tsapko et al. | Establishing patterns of heat transfer to timber through a protective structure | |
| Tsapko et al. | Design of fire-resistant heat-and soundproofing wood wool panels | |
| Borisovich et al. | Fire hazard and fire resistance of wooden structures | |
| Tsapko et al. | Determination of regularities of heat resistance under flame action on wood wall with fire-retardant varnish | |
| Tsapko et al. | Evaluation of effectiveness of wood fire protection upon exposure to flame of magnesium | |
| Tsapko et al. | Modeling a thermal conductivity process under the action of flame on the wall of fire-retardant reed | |
| Kandare et al. | The effect of fire‐retardant additives and a surface insulative fabric on fire performance and mechanical property retention of polyester composites | |
| Tsapko et al. | Research of the efficiency of the fire fighting roof composition for cane | |
| Schaffer | Review of information related to the charring rate of wood | |
| Tsapko et al. | ESTABLISHING PATTERNS IN REDUCING FIRE-DANGEROUS PROPERTIES OF SIP PANELS FIRE-PROTECTED WITH REACTIVE COATING. | |
| Kasymov et al. | Investigation of the ignition of wood structural materials (with and without fire retardant treatment) under the influence of a model fire of irregular intensity | |
| Tsapko et al. | Establishment of fire protective effectiveness of reed treated with an impregnating solution and coatings | |
| Tsapko et al. | Establishing regularities in the reduction of flammable properties of wood protected with two-component intumescent varnish | |
| Nazrun et al. | Improving fire performance of solid aluminium of composite cladding panels incorporating intumescent coatings | |
| Tsapko et al. | Thermophysical characteristics of the formed layer of foam coke when protecting fabric from fire by a formulation based on modified phosphorus-ammonium compounds | |
| Tsapko et al. | Modeling the process of moisture diffusion by a flameretardant coating for wood | |
| Tsapko et al. | Influence of dry mixtures in a coating on the effectiveness of wood protection from the action of a magnesium flame | |
| Tsapko et al. | Substantiation of the Swellable Coating Effectiveness for Fire Protection of Wooden Constructions |