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Zhong-Wei Wu,Shaobo Pan,Guang-Fu Liu,Shou-Xu Song 한국정밀공학회 2014 International Journal of Precision Engineering and Vol. No.
In view of the present situation that the recovery of waste thermosetting plastics and products is difficult and the utilization rate islow, regeneration mechanism, regeneration methods and recycling process of waste thermosetting plastics under mechanical thermalcoupling fields are proposed. Regeneration powders of Thermosetting Phenolic plastic are obtained by mechanochemical activatedregeneration methods, the molecular structure, properties and crosslink density of phenol regeneration materials are analyzed. Analysis results show that network crosslinked molecular structure was destroyed, reactive groups produced and the crosslink densitydecreased. The activity of regeneration powders was reinforced and its plasticity was also improving, so the utilization rate wasimproved. Regeneration composite plastics were manufactured by hot press molding or extrusion compression molding. Themicrostructure of regeneration composite plastics was analyzed, and its mechanical strength was tested. Results showed that thetensile strength and bending strength of samples (weight ratio ≥ 50%) respectively exceed 15.88 MPa and 33.49 MPa. At last processparameters for regeneration effects were discussed, and these parameters were optimized. When particle size was 80 mesh (size ≤ 0.18mm), quality proportion was 50~70%, pressure was 10Mpa, heating temperature was 180~190oC, the optimal effects for regeneratedcomposite were achieved.