تحضير وتشخيص بوليمرات جديدة مقاومة لللهب ودراسة خواصها الحرارية == Synthesis And Characterization of New Flame Retardant Polymers And Study Their Thermal Properties
Author name:
محمود عودة مطشر
Supervisor name:
محمد علي مطر
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Master
University:
University of Al-Qadisiyah - Faculty Of Education - Chemistry Department
Language:
Arabic
University location:
Qadisiyah
First pages:
25T1509 - p.pdf
Abstract:
تستخدم البولي ايميدات الاروماتية على نطاق واسع في الصناعة لما لها من خصائص ممتازة في الثبات الحراري, الصلابة العالية ومقاومة اللهب, وهي واحدة من البوليمرات التجارية القوية جدا والعالية الاداء ولها استخدامات وتطبيقات واسعة في التكنلوجيا المتقدمة ,وتضمنت ال | Aromatic polyimides have been widely used in industry because of their excellent properties in thermal stability, high hardness and flame resistance. The present work involved preparation of new diamine monomers ( ABBB, ABAB, ABTB, ABDB, BPP, BCP, BDBP) containing (bromine, chlorine, phosphorus) as flame retardants and introducing them in reaction with different dianhydrides including )PMDA, BTDA, 6FDA) producing new aromatic polyimides (P1 - P7), as follows : - 1. preparation of aromatic diamine monomers containing bromine (ABAB and ABBB), and then introduced in reaction with dianhydride (PMDA) by solution polycondensation producing polymers (P1 and P2) respectively.2. preparation of aromatic diamine monomers which containing elemental (chlorine and bromine), a (ABDB, ABTB) and then reaction with dianhydride (BTDA and PMDA) respectively by solution polycondensation producing polymers (P3 and P4). 3. Preparation of aromatic diamine monomers which containing elemental phosphorus, (BDBP, BCP, BPP) and then their reaction with dianhydride (BTDA, 6FDA, BTDA) by solution polycondensation producing polymers (P5, P6, P7).The prepared monomers and polymers were characterized by (FT - IR and 1HNMR Spectra). The thermal stability of these aromatic polyimides were investigated by means of thermo gravimetric analysis (TGA) in a argon atmosphere and at a heating rate of 10°C/min at 800°C and by comparing them with aromatic polyimides (PIPM, PIBT, PI6F) empty elements flame retardant, where proven polymers (P1 - P7) stability of heat is very high, where temperatures were at loss (50%) by weight (T50%) more than (800oC) while the aromatic polyimides (PIPM, PIBT, PI6F) ranging between (492 - 582oC), and the percentage of remaining at a temperature of 800 o C for polymers( P1 - P7) ranging between (59 - 71%) on reverse polymers (PIPM, PIBT, PI6F), the percentage of remaining range (20 - 42%) , has been proven polymers (P1 - P7) high resistance to flame through the rate ratios (Char yield%) at a temperature of 500 o C where it was ranging between (86 - 99%), while for polymers (PIPM, PIBT, PI6F) ranging between (48 - 56%) at the same degree. and has been studying and evaluating the solubility of polymers prepared where appearance polymers (P1 - P7) solubility is very high, especially in solvents (polar aprotic) and because the process of modification in its chemical composition, where the presence of groups hydroxide and flexible ether linkages averse polymers (PIPM, PIBT, PI6F), which showed a lower solubility.
