In order to cope with the resource scarcity issues and the problem of increasing waste generated by economic activities, the circular economy approach provides the opportunity for industry transformation. By recycling, the waste can be turned into secondary materials, and then be reintroduced into the production system. This may not only slow down the exploitation of natural resources but create additional economic value. In terms of government policies, many countries have gradually proposed more stringent waste reduction and material recycling targets. And environmental policies such as landfill tax, incineration tax, recycling subsidy and material tax, have also been implemented to encourage waste recycling and reduce waste that is sent to landfill and incinerator. 　　In order to provide policy makers with effective recommendations on important issues such as resource scarcity, circular economy, and sustainable development, many countries use Integrated Assessment Models (IAMs) to evaluate and quantify the impact of policies on economy, environment, and society, and also try to clarify the problems on policy synergy and interrelationships among industries. However, assessments of waste managements or competition between primary and secondary materials are poorly represented in the majority of quantitative models. 　　Therefore, this research establishes a set of “Secondary Material Competition model” comprised of the technology competition model (FTT-Waste), the waste input-output model (WIO), and the economic model (CGE). The Secondary Material Competition model is applied to explore how various policy scenarios affect the competition between different waste managements, and then evaluate the competition between primary and secondary plastic materials, macro-economic effect, and the interrelationships among individual industries. 　　The results show that different policy scenarios will affect future waste management patterns in Taiwan. For example, in the baseline scenario, the market share of landfill technology will remain at a great disadvantage, and the market share of incineration technology will have an absolute advantage in market competition, while the recycling technology will gradually withdraw in the future. However, in the optimum waste management scenario proposed in this research, the two goals of "increasing the market share of recycling technology" and "reducing the market share of landfill and incineration technology" can both be achieved. 　　Besides, in the optimum policy scenario, the scale of the secondary plastic material industry will increase significantly, while the scale of the primary plastic material industry will relatively decrease, showing that secondary plastic materials are more competitive in the market and the demand for primary plastic materials has declined. In addition, the implementation of this policy scenario not only affects other industries such as electronic parts and components sector and basic metals sector, but has a negative impact on macro-economic output (GDP decline). However, it is worth mentioning that the overall resource efficiency is improved. 　　In conclusion, the simulation results provided by the “Secondary Material Competition model” suggest that plastic waste should be turned into secondary materials and be reintroduced into the production system, instead of disposal to landfill or incineration. This will not only improve the overall resource efficiency, but create new value for plastic waste, such as the development of the secondary plastic material industry.