Reacción #214527
ord-4896dedd366347e98302b19e858c127c
Ecuación de reacción
Reactivos
Disolventes
Condiciones de reacción
Tratamiento posterior
- 1OtroThe monomer is recrystallized as approximately 3 cm long needles by the
- 2Temperaturaslow cooling of a 10:90 acetone/petroleum either solution (75 ml)
- 3workup.ADDITIONcontaining 0.2 sample
- 4OtroPolymerization
- 5Otroproceeded quantitatively by 60Co γ-ray irradiation at a dose rate of 1 Mrad/hr
- 6Otroto obtain reversible thermal-dimensional behavior
- 7Otrofrom -50° to 100° C
- 8Otrois -1.46×10-5 ° C.
- 9Otro1 between -50° and +100° C. and -1.31×10-5 ° C.
- 10Otro1 between -50° and +40° C.
Procedimiento
The monomer 2,4-hexadiyn-1,6-diol-bisethylurethane is synthesized in 95% yield by the reaction of 11.0 gm (0.10 mole) 2,4-hexadiyn-1,6-diol with 26.5 gm (0.37 mole) ethylisocyanate in the presence of 1,2-dimethoxyethane (50 ml), dibutyltin bis(2-ethylhexanoate (0.1 gm), and triethylamine (2 ml). The monomer is recrystallized as approximately 3 cm long needles by the slow cooling of a 10:90 acetone/petroleum either solution (75 ml) containing 0.2 sample, as described in Example 4. These crystals rapidly turn pink upon exposure to light. Polymerization proceeded quantitatively by 60Co γ-ray irradiation at a dose rate of 1 Mrad/hr and a total dosage of 60 Mrad. The resulting polymer fibers are copper-like in appearance and strongly dichroic, with dichroic axis in the fiber axis direction. The polymer fibers are monoclinic monocrystals in which the polymer chain axis, with repeat length 4.9 A is in a non-unique axis direction. The polymer fibers are annealed as described in Examples 4 and 5, in order to obtain reversible thermal-dimensional behavior. The annealed polymer fiber has a negative thermal expansion coefficient over the entire temperature range from -50° to 100° C. The average thermal expansion coefficient is -1.46×10-5 ° C.-1 between -50° and +100° C. and -1.31×10-5 ° C.-1 between -50° and +40° C.