A kind of azophenyl polyether ester multi-block copolymer elastomer with photodeformation performance and preparation method thereof
A multi-block copolymer, azophenyl polyether ester technology, applied in the direction of single-component polyether ester artificial filament, etc., can solve the problem of high requirements, low molecular weight of polyether ester, difficulty in obtaining high-performance polymers, etc. problem, to achieve the effect of solving the effect of small photodeformation and good photodeformation performance
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Embodiment 1
[0028] Example 1 Preparation of azophenyl polyether ester multi-block copolymer PTMO-AZO-1-1
[0029] Equipped with mechanical stirring, N 2 Into a 100 mL three-neck round-bottomed flask for the catheter, add 5 grams (g) of cyclic oligopolyazophthalate triethylene glycol, 5 g of polytetrahydrofuran diol with a molecular weight of 2900, and pass through N 2 , heated to 240°C, adding n-butyl titanate as a catalyst, 2 Stirring was continued for 3 hours to obtain the final product PTMO-AZO-1-1 as a reddish-brown solid, figure 1 A schematic diagram of the reaction equation.
[0030] plotted by GPC ( figure 2 ) shows that the azophenyl polyether ester multi-block copolymer PTMO-AZO-1-1 with higher molecular weight was obtained.
Embodiment 2
[0031] Example 2 Preparation of azobenzene polyether ester multi-block copolymer PTMO-AZO-2-1
[0032] Equipped with mechanical stirring, N 2 Into a 100 mL three-necked round-bottomed flask with a catheter, add 3 g of cyclic oligopolyazophthalate triethylene glycol, 6 g of polytetrahydrofuran diol with a molecular weight of 2900, and pass N 2 , heated to 240°C, adding n-butyl titanate as a catalyst, 2 Stirring was continued for 3 hours under conditions to obtain the final product PTMO-AZO-2-1 as a reddish-brown solid.
Embodiment 3
[0033] Example 3 Preparation of azophenyl polyether ester multi-block copolymer PTMO-AZO-3-1
[0034] Equipped with mechanical stirring, N 2 Into a 100 mL three-necked round-bottomed flask with a catheter, add 2 g of cyclic oligopolyazophthalate triethylene glycol, 6 g of polytetrahydrofuran diol with a molecular weight of 2900, and pass N 2 , heated to 240°C, adding n-butyl titanate as a catalyst, 2 Stirring was continued for 3 hours under conditions to obtain the final product PTMO-AZO-3-1 as a reddish-brown solid.
[0035] Azophenyl polyether ester multi-block copolymers PTMO-AZO-1-1, PTMO-AZO-2-1, PTMO-AZO-3-1 with different soft and hard segment ratios were synthesized by controlling the feed ratio, molecular weight and molecular weight The distribution data are shown in Table 1, and the molecular weights are above 33,000.
[0036] Table 1 GPC molecular weight and molecular weight distribution of azobenzene polyether ester multi-block copolymer PTMO-AZO-1-1, PTMO-AZO-2...
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