Following the continuously improving technologies, the living quality of individuals also improves. People enjoy the convenience that the technologies brought; but this leads to an increase in the demand of electronic products in order to fit the customers’ requirements. As a result, the replacement rate of electronic products rises, which causes a great number of nature resources to be used in production and massive waste to be accumulated. Additionally, the damages to the nature increase. Therefore, recycling of electrical and electronic products for reuse is very imperative. This study takes an e-waste products disassembly factory as an example to develop a production decision model in order to achieve the optimal profit. A mixed integer programming model is developed for maximizing the profit, which includes income from subsidy fee and selling materials, purchase cost, facility cost, dismantling cost, electricity cost, disposal cost and transportation cast. In the model, we consider the price uncertainty of reused materials to sell and explore the relationship among recycling quantity, production quantity, and total profit. Using the production model developed by this study, we can find the optimal production decision and provide a useful reference for decision makers in e-waste products disassembly factories.