随着科技发展浪潮地不断推进,新技术、新理念层出不穷,液晶显示技术得到了大力地应用,然而在带给人们便捷的同时也存在一定的不足之处,配备液晶显示屏的电子产品报废量正在逐年上涨,已报废的液晶显示屏不仅造成资源浪费,而且还会对环境造成一定的危害。当前怎样才能高效率、无害化地处理液晶面板是企业所面临的难题。液晶面板的处理包含三部分内容,其中有机材料的处理是关键环节,若处理不当则会造成资源浪费加剧,但有机材料由于构造复杂,实现有效分离很难。基于此,开展对液晶面板中有机材料高温热解机理的探究,寻求有效的解决策略,使资源得以合理利用。 With the tide of science and technology continue to advance, new technologies, new ideas emerge in an endless stream, liquid crystal display technology has been vigorously applied, however, bring convenience to people but also there are some shortcomings, equipped with liquid crystal display electronic products scrap Is rising year by year, the liquid crystal display has been scrapped not only waste of resources, but also cause some harm to the environment. How to handle the LCD panel with high efficiency and harmlessness is the challenge for the enterprise. The processing of the LCD panel consists of three parts. The treatment of the organic material is the key step. If not handled properly, the waste of resources will be exacerbated. However, the organic materials are difficult to be effectively separated due to the complicated structure. Based on this, to carry out high-temperature pyrolysis mechanism of organic materials in liquid crystal panels to explore and seek effective solutions to the strategy to make rational use of resources.