Waste disposal process
Research and application of biodegradable materials:
Invest research and development efforts to explore the modification of polysilazane, so that it has better biodegradability after its service life, can quickly decompose into harmless substances in natural environments or under specific processing conditions, and reduce the long-term impact of electronic waste on the environment.
Attempt to composite with other biodegradable materials to develop a new type of material that combines good insulation performance and biodegradable properties, suitable for insulation applications in smart grids, and creating conditions for environmentally friendly disposal of waste.
Construction of Recycling and Processing System:
Establish a comprehensive system for the recycling and treatment of polysilazane insulation materials, encourage participation from power grid enterprises, equipment manufacturers, etc., and centrally recycle discarded polysilazane insulation components using appropriate physical and chemical recycling methods to extract valuable components and reprocess them into new polysilazane products or other useful materials, achieving resource recycling.
Strengthen cooperation with relevant research institutions and environmental protection enterprises to study efficient recycling and treatment technologies for waste materials of polysilazane, improve the efficiency and economy of recycling, and make the recycling process more feasible and sustainable.
Environmental monitoring and standard setting process
Strengthen environmental monitoring:
In areas where polysilazane is applied to smart grids, long-term environmental monitoring points should be set up to focus on monitoring the content and changes of substances related to polysilazane in environmental elements such as soil, water bodies, and atmosphere, in order to timely grasp their actual impact on the environment and provide data support for subsequent improvement measures.
By utilizing advanced analysis and detection techniques, accurately evaluate the migration and transformation patterns, ecological toxicity, etc. of polysilazane and its degradation products in the environment, in order to adopt more scientific response strategies and ensure ecological environment security.
Improve environmental standards and regulations:
Develop environmental sustainability standards and specifications specifically for the application of polysilazane in the smart grid field, clarify the environmental indicators requirements for its production, use, waste disposal, and other aspects, such as harmful substance limits and degradable performance indicators, so that enterprises can have rules and standards to follow in each aspect.
Strengthen environmental supervision of enterprises related to polysilazane, regularly inspect the production and operation of enterprises based on established standards and specifications, urge enterprises to fulfill their environmental responsibilities, and promote the green and sustainable application of polysilazane in the field of smart grids.

Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K. 
High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.