Novel efficient biology-based phosphite ester antioxidant and preparation methods thereof
A technology of ester antioxidant and base phosphorous acid, applied in chemical instruments and methods, compounds of group 5/15 elements of the periodic table, organic chemistry, etc., can solve problems such as hazards and restrictions, and achieve high molecular weight, Excellent thermal stability and excellent oxidation resistance
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Embodiment 1
[0048] The synthesis of the pentadecylphenol of embodiment 1
[0049] Add 986 grams of cardanol into a clean 2L pressure reactor, add 5 grams of Raney nickel catalyst, and replace the air in the reactor with nitrogen until the nitrogen content of the gas discharged from the outlet is ≥99.5%, and the hydrogen flow rate is controlled through the connected hydrogen cylinder. Hydrogen replacement, after the replacement, re-flow hydrogen to the pressure of about 4MPa in the kettle, stop the hydrogen flow, close the hydrogen valve, seal the reaction kettle, gradually raise the temperature, observe the reaction pressure during the heating process, control the pressure not to exceed 5MPa by adjusting the heating speed, and keep the stirring speed at about 300r / min, heat up to about 120°C in about 2 hours, keep the reaction at the reaction temperature of 120-140°C for 3 hours, cool down to below 45°C after the reaction is completed, slowly open the vent valve, and restore the normal pre...
Embodiment 2
[0050] The synthesis of the pentadecylphenol of embodiment 2
[0051] Add 986 grams of cardanol into a clean 2L pressure reactor, add 8 grams of Raney nickel catalyst, and replace the air in the reactor with nitrogen until the nitrogen content of the gas discharged from the outlet is ≥99.5%, and the hydrogen flow rate is controlled through the connected hydrogen cylinder. Hydrogen replacement, after the replacement, re-flow hydrogen to the pressure in the kettle to about 4MPa, stop the hydrogen flow, close the hydrogen valve, seal the reaction kettle, gradually raise the temperature, observe the reaction pressure during the heating process, control the pressure in the kettle to not exceed 5MPa by adjusting the heating speed, and keep stirring The speed is about 300r / min, the temperature is raised to about 110°C in about 1.5h, and the reaction is maintained at a reaction temperature of 110-130°C for 2.5 hours. The reaction product is released, transferred to a four-neck flask f...
Embodiment 3
[0052] The synthesis of the pentadecylphenol of embodiment 3
[0053] Add 986 grams of cardanol into a clean 2L pressure reactor, add 3 grams of Raney nickel catalyst, and replace the air in the reactor with nitrogen until the nitrogen content of the gas discharged from the outlet is ≥99.5%, and the hydrogen flow rate is controlled through the connected hydrogen cylinder. Hydrogen replacement, after the replacement, re-flow hydrogen until the pressure in the kettle is about 4.5MPa, stop the hydrogen flow, close the hydrogen valve, seal the reaction kettle, gradually raise the temperature, observe the reaction pressure during the heating process, control the pressure not to exceed 5.5MPa by adjusting the heating speed, and keep stirring The speed is about 300r / min, the temperature is raised to about 120°C in about 2.5h, and the reaction is maintained at a reaction temperature of 120-140°C for 3.5 hours. The reaction product is released, transferred to a four-neck flask for vacu...
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