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The pyrolysis of phosphorus-based flame retardants.Yiu, Sai-man. January 1974 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1974. / Mimeographed.
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The pyrolysis of phosphorus-based flame retardants姚世民, Yiu, Sai-man. January 1974 (has links)
published_or_final_version / Chemistry / Master / Master of Philosophy
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Initiation of smoldering combustion in flexible polyurethane foamsMak, Audie Y. K January 1980 (has links)
Thesis (Mech.E)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1980. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Includes bibliographical references. / by Audie Y.K. Mak. / Mech.E
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Metal catalysed intumescence of polyhydrozyl compoundsLabuschagne, Frederick Johannes Willem Jacobus. January 2003 (has links)
Thesis (Ph. D.(Chemical Engineering))--University of Pretoria, 2003. / Title from opening screen (viewed June 14, 2004). Includes bibliographical references.
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Synergistic effect of natural zeolites on flame retardant additives/Demir, Hasan. Ülkü, Semra January 2004 (has links)
Thesis (Master)--İzmir Institute of Technology,İzmir, 2004 / Includes bibliographical references (leaves. 93-97).
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Smoldering combustion of flexible polyurethane foamOrtiz Molina, Marcos German. January 1980 (has links)
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 1980 / Includes bibliographical references. / by Marcos German Ortiz Molina. / Ph. D. / Ph. D. Massachusetts Institute of Technology, Department of Mechanical Engineering
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Synthesis and Flame Retardant Studies of Bromoester of 2,4-Pentadienoic AcidGhane, Hessam 01 January 1978 (has links) (PDF)
The synthesis and fire retardancy of several bromoesters of 2,4-pentadienoic acid were investigated. The synthesis of 2,4-pentadienoic acid was accomplished by liquid phase reaction of acrolein and malonic acid in the presence of pyridine. The conversion of the acid to bromoesters was performed by two different procedures. In the first procedure, the corresponding acid chloride was prepared from the acid via reaction with SOCl2 in the presence of powdered (3A°) molecular sieves. The molecular sieves serve as an internal trap for by-product HC1 and inhibit the competing polymerization reaction of the acid chloride. Reaction of the acid chloride with various alcohols provided the unsaturated esters. The final step in the first procedure is total bromination of the unsaturated esters. The second procedure involved bromination of 2,4-pentadienoic acid and followed by reaction of the bromo acid with SOCl₂ to produce the corresponding bromo acid chloride. Reaction of the brominated acid chloride with alcohol provided the corresponding brominated esters. A simple laboratory test was developed to measure and compare the flame retardancy of the bromoesters.
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Fire Retardant Polymer Nanocomposites: Materials Design And Thermal Degradation ModelingZhuge, Jinfeng 01 January 2012 (has links)
Compared to conventional materials, polymer matrix composites (PMCs) have a number of attractive properties, including light weight, easiness of installation, potential to lower system-level cost, high overall durability, and less susceptibility to environmental deterioration. However, PMCs are vulnerable to fire such that they degrade, decompose, and sometimes yield toxic gases at high temperature. The degradation and decomposition of composites lead to loss in mass, resulting in loss in mechanical strength. This research aims to improve the structural integrity of the PMCs under fire conditions by designing and optimizing a fire retardant nanopaper coating, and to fundamentally understand the thermal response and post-fire mechanical behavior the PMCs through numerical modeling. Specifically, a novel paper-making process that combined carbon nanofiber, nanoclay, exfoliated graphite nanoplatelet, and ammonium polyphosphate into a self-standing nanopaper was developed. The nanopaper was then coated onto the surface of the PMCs to improve the fire retardant performance of the material. The morphology, thermal stability, flammability, and post-fire flexural modulus of the nanopaper coated-PMCs were characterized. The fire retardant mechanism of the nanopaper coating was studied. Upon successfully improving the structure integrity of the PMCs by the nanopaper coatings, a thermal degradation model that captured the decomposition reaction of the iv polymer matrix with a second kind boundary condition (constant heat flux) was solved using Finite Element (FE) method. The weak form of the model was constructed by the weighted residual method. The model quantified the thermal and post-fire flexural responses of the composites subject to continuously applied heat fluxes. A temperature dependent post-fire residual modulus was assigned to each element in the FE domain. The bulk residual modulus was computed by assembling the modulus of each element. Based on the FE model, a refined Finite Difference (FD) model was developed to predict the fire response of the PMCs coated with the nanopapers. The FD model adopted the same post-fire mechanical evaluation method. However, unlike the FE model, the flow of the decomposed gas, and permeability and porosity of the composites were taken into account in the refined FD model. The numerical analysis indicated that the thickness and porosity of the composites had a profound impact on the thermal response of the composites. The research funding from the Office of Naval Research (ONR) and Federal Aviation Administration Center of Excellence for Commercial Space Transportation (FAA COE AST) is acknowledged.
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Flammability evaluation of glass fiber reinforced polypropylene and polyethylene with montmorillonite nanoclay additivesVaddi, Satya. January 2008 (has links) (PDF)
Thesis (M.S.)--University of Alabama at Birmingham, 2008. / Title from PDF title page (viewed Feb. 1, 2010). Additional advisors: Derrick R. Dean, Gregg M. Janowski, Selvum (Brian) Pillay (ad hoc). Includes bibliographical references (p. 76-82).
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