Production And Characterization Of Boron Containing Flame Retardant Polyamide-6 And Polypropylene Composites And Fibers

Dogan, Mehmet

01 May 2011

The main objective of this study was to produce flame retardant polyamide-6 (PA-6) and polypropylene (PP) composites and fibers containing boron compounds. The synergistic effect on flame retardancy of boron compounds (boron silicon containing oligomer (BSi), zinc borate (ZnB), boron phosphate (BPO4), metal oxide doped BPO4 and lanthanum borate (LaB)) with conventional flame retardants were investigated. The synergistic effect of nano-clay with commercial flame retardants was also investigated in order to reduce the total amount of flame retardant that is essential for fiber applications. The UL-94, limiting oxygen index (LOI), differential scanning calorimeter (DSC), thermal gravimetric analysis (TGA), fourrier transform infrared spectroscopy (FTIR) and cone calorimeter tests were conducted on composite materials in order to investigate the effect of synergy agents on the flame retardant and thermal properties of conventional flame retardant containing PA-6 and PP composites. According to the results from composite materials, boron compounds and clay showed synergistic effect with phosphorus based commercial flame retardants by acting generally with a condensed phase mechanism by increasing the char formation and/or by increasing the barrier effect of the final char residue. Inspired from the previous studies, firstly, only nano-sized BPO4 containing flame retardant fibers were produced and characterized. In the view of the results obtained from the composite trials, the boron compounds and organo clay were used with phosphorus based flame retardants to produce flame retardant fibers. The characterization of fiber samples were made with mechanical testing, melt flow index measurements (MFI), TGA, DSC, SEM and Micro Combustion Calorimeter (MCC) tests. According to the results from fiber samples, the inclusion of BPO4 reduced the peak heat release rate of the pure PA-6 and PP fiber. The reduction for PA-6 is higher than the PP fiber due to char forming character of PA-6. The usage of boron compounds and clay with phosphorus based flame retardants caused further reduction of peak heat release rate (PHRR) and total heat release values and increased the char formation. The amount of reduction of PHRR and total heat release (THR) is not so much due to the thermally thin character of fiber samples of nearly 40 microns. It is evident that a fabric made with these fibers will show better flame retardant behavior than single fiber tests due to its thick character with respect to the fiber samples.

QD Polymers, Macromolecules 380-388

Flame Retrdancy Effects Of Zinc Borate And Nanoclay In Abs / And Boron Compounds In Pet

Ozkaraca, Ayse Cagil

01 July 2011

In this thesis there were two main purposes, the first one being to investigate effects of zinc borate (ZB) on the flammability behavior of ABS when used with and without a traditional brominated flame retardant (BFR) / antimony trioxide (AO) system. The second purpose was to investigate contribution of nanoclays (NC) to the flame retardancy performance of the same traditional BFR compound with various combinations of AO and ZB again in ABS matrix. For these purposes, materials were melt compounded by using a laboratory scale twin-screw extruder, while specimens were produced by injection or compression molding. Flame retardancy of the specimens were investigated by Mass Loss Cone Calorimeter (MLC), Limiting Oxygen Index (LOI) measurements and UL-94 vertical burning tests. Other characterization techniques required in this thesis were / X-ray diffraction analysis, scanning and transmission electron microscopy, thermogravimetric analysis and tensile tests. Studies for the first purpose indicated that almost all flame retardancy parameters were preserved when antimony trioxide were replaced with zinc borate as much as in the ratio of 1:3. Residue analyses revealed that predominant flame retardancy mechanism of traditional system was gas phase action, while zinc borate contributes especially in the condensed phase action by forming thicker and stronger char layer. Investigations for the second purpose basically concluded that use of nanoclays improved all flame retardancy parameters significantly. Residue analyses pointed out that nanoclays especially contribute to the formation of stronger and carbonaceoussilicate char acting as a barrier to heat and flammable gases and retarding volatilization via tortuous pathway. As an additional third purpose in this thesis, usability of three boron compounds (zinc borate ZB, boric acid BA, boron oxide BO) with two traditional flame retardants (organic phosphinate OP and melamine cyanurate MC) in neat PET and recycled PET were also examined leading to some promising results in MLC parameters.

QD Polymers, Macromolecules 380-388

The chemistry of [beta]-diketiminate-supported boron, aluminum, gallium and phosphorus compounds

Vidović, Dragoslav

28 August 2008

Not available / text

Beta-diketiminate

Boron compounds--Synthesis

Aluminum compounds--Synthesis

Gallium compounds--Synthesis

Phosphorus compounds--Synthesis

Ligands

The chemistry of [beta]-diketiminate-supported boron, aluminum, gallium and phosphorus compounds

Vidović, Dragoslav, 1978-

19 August 2011

Not available / text

Beta-diketiminate

Boron compounds--Synthesis

Aluminum compounds--Synthesis

Gallium compounds--Synthesis

Phosphorus compounds--Synthesis

Ligands

Functional light-emitting materials of platinum, zinc and boron for organic optoelectronic devices

郭子中, Kwok, Chi-chung.

January 2005

published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy

Platinum compounds.

Zinc compounds.

Boron compounds.

Polymers - Synthesis.

Polymers - Optical properties.

Electroluminescence.

Photoluminescence.

Light emitting diodes.

Functional light-emitting materials of platinum, zinc and boron for organic optoelectronic devices

Kwok, Chi-chung.

January 2005

Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.

The chemistry of [beta]-diketiminate-supported boron, aluminum, gallium and phosphorus compounds

Vidović, Dragoslav,

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2007. / Vita. Includes bibliographical references.

A synthesis of a homologous series of aryl mono- and diboronic acids

Allen, Larry Milton

01 January 1967

Many attempts have been made to prepare aryl boronic acids and their esters which show a preferential affinity for tumor tissues for use in radiation therapy of neoplatic disorders (1,2). The data of Soloway, as extended and refined by Hansch and his coworkers, successfully correlates the low lipid solubility and electron releasing substituents of phyenl boronic acid derivatives with increased tumor concentration (3,4,5). However, most of these organoboron compounds do not produce a sufficiently high tumor-to-normal tissue boron concentration ratio for practical use in human cancer chemotherapy by the neutron capture technique. The knowledge that several chemical substances are preferentially taken up by tumor tissue provides the medicinal chemist the opportunity of rationally designing potential tumor inhibiting compounds linked to these carrier molecules (6,7). For the initial phase of attempts to successfully combine boronic acids or their esters with tumor concentrating material, it was deemed desirable to prepare a homologous series of aryl mono- and diboronic acids

Medicine and Health Sciences

Pharmacy and Pharmaceutical Sciences

Computational study of the boron-nitrogen dative bond

Zhao, Hailiang

12 1900

Thesis (MSc (Chemistry and Polymer Science))--Stellenbosch University, 2007. / In this study, ten selected boron-nitrogen compounds and three borane carbonyl complexes were investigated by a number of computational methods. It is well known that the B-N dative bond is shorter in the solid state than in the gas phase. The B-CO distance, on the other hand, displays the opposite effect. Quantum mechanical techniques at the Hartree-Fock, Møller-Plesset second-order and Density Functional Theory level were used to calculate the geometries of the isolated molecules and to compare them with those found in molecular clusters built to model the solid state. It was found that calculated geometries were very sensitive to the choice of the basis set. The effects of dipole-dipole interactions were further investigated by applying an external electric field with varying strength to isolated molecules, and by replacing the central molecule in a cluster with a different compound. The B-N bond was found to respond much more to the applied field than the B-CO bond. An effort was made to correlate the lengthening or shortening of the dative bond to the strength of the crystal field, the latter being calculated classically from point charges. Unfortunately, large differences were noted between the charges calculated with common methods like Mulliken or Merz-Kollman-Singh. Furthermore, an analysis of 67 crystal structures taken from the Cambridge Structural Database did not reveal a correlation between the length of the B-N bond and the crystal field calculated with Charge Equilibration charges. Finally, a valence force field was developed for H3N-BH3. It was shown that a much better fit of the vibrational spectrum can be obtained if the B-N stretching mode is assigned to the 603 cm-1 band rather than the peak observed at 968 cm-1.

Boron compounds

Nitrogen compounds

Electrostatic effect

Solid state

Data processing in chemistry

Dissertations -- Chemistry

Theses -- Chemistry

Chemistry and Polymer Science

The demagnetising factors for bonded neodymium iron boron (NdFeB) magnets

Wang, Zhiran

January 2000

No description available.

530.41