The iterative improvement of agricultural enhanced methyl silicone oil technology helps to implement the reduction and enhancement of agricultural pesticides.
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The iterative improvement of agricultural enhanced methyl silicone oil technology helps to implement the reduction and enhancement of agricultural pesticides.
1.The green transformation of agriculture is accelerating, and the demand for special methyl silicone oil additives is rising.
Domestic efforts are ongoing to reduce pesticide usage while enhancing efficiency. Traditional spray additives have shortcomings such as drug liquid drift, poor adhesion, and low drug utilization rate. Modified methyl silicone oil, with its extremely low surface tension and strong spreading and penetration capabilities, has become the mainstream supporting raw material for aerial spraying and large-field planting. In 2026, with the widespread adoption of smart agriculture and drone pesticide spraying, orders for special methyl silicone oil adapted to agricultural chemicals will continue to increase. The purchasing scale for grain, fruit and vegetable, and economic crop planting sectors will steadily rise, and the growth rate of the agricultural silicone oil niche market leads many downstream application fields.
2. Ultra-low drift formula suitable for drone aerial spraying operations
The traditional adjuvants tend to disperse with the wind after spraying, which not only wastes pesticides but also easily causes crop damage around. The new agricultural methyl silicone oil optimizes the molecular diffusion structure, significantly improving the droplet settling performance, reducing the loss of pesticide liquid drift, and ensuring stable adhesion to the leaf surface even in windy weather. Custom viscosity models are launched for differentiated scenarios such as rice, wheat, orchards, and greenhouse vegetables. The pesticide solution can quickly penetrate wax-coated leaves and penetrate into rolled leaves and insect hiding crevices, significantly enhancing the pest and disease control effect. Under the same pesticide efficacy, the pesticide usage can be reduced by 20% to 30%.
3. Low-stress environmental-friendly process, in line with agricultural safety control standards
For the needs of economic crops such as fruits, tea, and flowers during their flowering and seedling stages, the industry has optimized and refined the process. It strictly controls the residual of low-molecular silicon oxides. The final product has low odor and low irritation, and will not damage pollen or tender seedlings. The product has passed domestic agricultural chemical aid safety testing and also meets the chemical control requirements for overseas fruit exports. It is equipped with various formulations such as emulsified oil, water-based solutions, and foliar fertilizers, and is suitable for the compounding production of large-scale agricultural chemical enterprises, effectively avoiding the risk of excessive pesticide residues in agricultural products.
4. Improved silicone oil expands new application scenarios for soil conditioning
In addition to spray additives, modified methyl silicone oil has gradually been applied in salt-alkali land improvement operations. It can improve soil agglomeration structure, reduce surface water evaporation, and alleviate the problem of soil re-salting. Field demonstrations in multiple areas have shown that when combined with organic fertilizers, the emergence rate of crops and the per-acre yield have significantly increased. Agricultural methyl silicone oil with dual functions of additive and soil conditioning has been continuously implemented, expanding the application boundaries of silicon-based materials in modern agriculture and providing new material support for green planting and improvement of cultivated land quality.