Intumescent Polymer Metal Laminates for Fire Protection

Intumescent paints are applied on materials to protect them against fire, but the development of novel chemistries has reached some limits. Recently, the concept of “Polymer Metal Laminates,” consisting of alternating thin aluminum foils and thin epoxy resin layers has been proven efficient against fire, due to the delamination between layers during burning. In this paper, both concepts were considered to design “Intumescent Polymer Metal Laminates” (IPML), i.e., successive thin layers of aluminum foils and intumescent coatings. Three different intumescent coatings were selected to prepare ten-plies IPML glued onto steel substrates. The IPMLs were characterized using optical microscopy, and their efficiency towards fire was evaluated using a burn-through test. Thermal profiles obtained were compared to those obtained for a monolayer of intumescent paint. For two of three coatings, the use of IPML revealed a clear improvement at the beginning of the test, with the slopes of the curves being dramatically decreased. Characterizations (expansion measurements, microscopic analyses, in situ temperature, and thermal measurements) were carried out on the different samples. It is suggested that the polymer metal laminates (PML) design, delays the carbonization of the residue. This work highlighted that design is as important as the chemistry of the formulation, to obtain an effective fire barrier.

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In situ thermal-conductivity measurements and morphological characterization of intumescent coatings for fire protection

Journal of Fire Sciences ◽

10.1177/0734904118794955 ◽

2018 ◽

Vol 36 (5) ◽

pp. 419-437 ◽

Cited By ~ 3

Author(s):

Jiyuan Kang ◽

Fumiaki Takahashi ◽

James S T’ien

Keyword(s):

Thermal Conductivity ◽

Heat Flux ◽

Fire Protection ◽

Heat Fluxes ◽

Loss Cone ◽

Char Layer ◽

Intumescent Coatings ◽

Apparent Thermal Conductivity ◽

Initial Coating

Thermal insulating performance and char-layer properties have been studied for water-based intumescent coatings for structural steel fire protection using a new laboratory-scale mass-loss cone apparatus. A specimen (100 × 100 mm mild steel plate; the initial coating thickness: 0.3–2.0 mm) is placed horizontally and exposed to a constant incident radiant heat flux (25, 50, or 75 kW/m2). The apparent thermal conductivity of the expanding char layer is determined in situ based on real-time measurements of the temperature distribution in the char layer and the heat flux transmitted through the char layer. Three-dimensional morphological observations of the expanded char layer are made using a computed tomographic–based analytical method. The vertical variation of the porosity of the expanded char layer is measured. The measured heat-blocking efficiency is correlated strongly with the incident heat flux, which increases the expanded char-layer thickness, and porosity for sufficiently large initial coating thicknesses (>0.76 mm). For a thin coating (0.30 mm), violent off-gassing disrupts the intumescing processes to form a consistent char layer after abrupt exposure to higher incident heat fluxes, thus resulting in lower heat-blocking efficiency. Therefore, the product application thickness must exceed a proper threshold value to ensure an adequate thermal insulation performance.

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Review of heat exposure equipment and in-situ characterisation techniques for intumescent coatings

Fire Safety Journal ◽

10.1016/j.firesaf.2020.103264 ◽

2020 ◽

pp. 103264

Author(s):

Jochen A.H. Dreyer ◽

Claus Erik Weinell ◽

Kim Dam-Johansen ◽

Søren Kiil

Keyword(s):

Heat Exposure ◽

Intumescent Coatings ◽

Characterisation Techniques

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Diffusion-induced in situ growth of covalent organic frameworks for composite membranes

Journal of Materials Chemistry A ◽

10.1039/c9ta11191c ◽

2019 ◽

Vol 7 (45) ◽

pp. 25802-25807 ◽

Cited By ~ 6

Author(s):

Priyanka Manchanda ◽

Stefan Chisca ◽

Lakshmeesha Upadhyaya ◽

Valentina-Elena Musteata ◽

Mark Carrington ◽

...

Keyword(s):

Reaction Times ◽

Composite Membranes ◽

Thin Layers ◽

In Situ Growth ◽

Covalent Organic Frameworks ◽

Polymeric Support ◽

Ambient Conditions ◽

Induction Method ◽

Covalent Organic Framework

Thin layers of a covalent organic framework (COF) have been synthesized on a flexible polymeric support using a new diffusion-induction method under ambient conditions in reaction times as short as 3 hours.

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Model Compound Approach for Polymer-Metal InterFaces: ESCA Studies

MRS Proceedings ◽

10.1557/proc-40-283 ◽

1984 ◽

Vol 40 ◽

Cited By ~ 4

Author(s):

P. N. Sanda ◽

J. W. Bartha ◽

B. D. Silverman ◽

P. S. Ho ◽

A. R. Rossi

Keyword(s):

Model Compound ◽

Amino Groups ◽

Ether Linkage ◽

Cu Films ◽

Polymer Metal ◽

Terminal Amino ◽

Metal Interfaces ◽

Imide Group

AbstractESCA studies of two molecules which are similar in structure to the PMDA and ODA constituents of the PMDA-ODA polyimide monomer are discussed. Their interaction with in-situ evaporated Cr and Cu films are compared. The PMDA model compound interacts with Cr through the imide group, while very little interaction is observed with Cu. The ODA model compound (oxydianiline) interacts with Cr via the ether linkage and the terminal amino groups, whereas very little interaction is observed with Cu.

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An extended Drude model for the in-situ spectroscopic ellipsometry analysis of ZnO thin layers and surface modifications

Thin Solid Films ◽

10.1016/j.tsf.2014.02.010 ◽

2014 ◽

Vol 571 ◽

pp. 437-441 ◽

Cited By ~ 7

Author(s):

Lennart Fricke ◽

Tammo Böntgen ◽

Jan Lorbeer ◽

Carsten Bundesmann ◽

Rüdiger Schmidt-Grund ◽

...

Keyword(s):

Spectroscopic Ellipsometry ◽

Surface Modifications ◽

Thin Layers ◽

Drude Model

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Influence of carbon additives on operational properties of the intumescent coatings for the fire protection of building constructions

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/90/1/012227 ◽

2017 ◽

Vol 90 ◽

pp. 012227 ◽

Cited By ~ 16

Author(s):

Olga Zybina ◽

Marina Gravit ◽

Yelena Stein

Keyword(s):

Fire Protection ◽

Intumescent Coatings ◽

Carbon Additives

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The Detection And Mapping Of Defects In Organic Coatings Using Local Electrochemical Impedance Methods

MRS Proceedings ◽

10.1557/proc-411-31 ◽

1995 ◽

Vol 411 ◽

Author(s):

S. R. Taylor ◽

M. W. Wittmann

Keyword(s):

Electrochemical Impedance ◽

Organic Coatings ◽

Single Frequency ◽

Probe Design ◽

Coating Failure ◽

Local Electrochemical Impedance Spectroscopy ◽

Physical Defects ◽

Steel Substrates ◽

Insight Into

ABSTRACTCoating failure initiates as a local event at defects which can result from chemical heterogeneities in the resin or physical defects such as bubbles, underfilm deposits, or pinholes. The ability to detect, map the location, as well as make quantitative in-situ measurements of coating heterogeneities will help identify the source of failure (i.e. coating chemistry, method of application, cure schedule, etc.) and provide insight into the mechanisms of coating degradation. This study used a 5 electrode arrangement to perform local electrochemical impedance spectroscopy (LEIS) on coated steel substrates. Using single frequency measurements, LEIS could successfully detect and map both intentional chemical heterogeneities and physical defects such as subsurface bubbles, underfilm deposits, and pinholes. Efforts to optimize probe design and instrumentation are ongoing.

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