Oligosaccharides Chelate B

2. Product characteristics:

2.1 Stability: After being treated by high-temperature chelation process, the liquid formed remains stable in a wide temperature range and is not easy to decompose or deteriorate.
2.2 Solubility: As a good solvent, oligosaccharides can effectively chelate boron element and improve the solubility and stability of boron in aqueous solution.
2.3 Bioavailability: Oligosaccharide chelated boron is easier to be absorbed and utilized by plants, improving the bioavailability of boron.
2.4 Safety: The product is non-toxic, harmless, environmentally and biosafety-friendly.

3. Production process:

The production process mainly includes the following steps:

Raw material preparation: Select high-quality Erythritol (erythritol), Mannitol (mannitol), Xylitol (xylitol) and Lactitol (lactitol) as raw materials, and prepare boron sources at the same time.
High-temperature chelation: The raw boron source is subjected to a chelation reaction under specific temperature conditions to form a stable chelate.
Filtration and purification: Filter and purify the chelated liquid to remove impurities and unreacted raw materials.
Adjust pH value: Adjust the pH value of the product to between 8.0-9.0 according to needs.
Packaging and storage: Put the product into special containers and store it in a cool, dry and ventilated place.

4. Process characteristics
4.1 High-temperature chelation: Conduct chelation reaction under high-temperature conditions to ensure that the oligosaccharide and boron element are fully combined to form a stable chelate.
4.2 Precise control: The entire production process strictly controls parameters such as temperature and pH value to ensure stable product quality.
4.3 Environmental protection and energy saving: Use environmentally friendly production processes and raw materials to reduce environmental pollution and energy consumption.

5. Product Application:

5.1 Chemical industry:
Cleaning agents and detergents: Oligosaccharide chelated boron can be used as an ingredient in cleaning agents or detergents to improve the cleaning effect of products.
Metal surface treatment: used as a metal surface treatment agent to improve the finish and corrosion resistance of the metal surface.

5.2 Agriculture:
Foliage and nutrient solution: Chelated boron can be used as a component of foliar fertilizer or nutrient solution to improve the absorption and utilization of boron by crops, promote crop growth and increase yield.
Soil conditioner: used to improve soil, improve soil structure, and improve soil water retention and fertility.
Plant protection agent: Enhance the stress resistance of plants, such as drought resistance, salt-alkali resistance, etc., and improve the plant's ability to adapt to stress.

Chelated boron has many important effects on plants, mainly reflected in the following aspects:

Boron is an essential trace element for plants. It forms polyhydroxy compounds with cell walls to enhance the stability of cell walls. Boron plays a key role in the formation of cell walls and can improve cell permeability and water retention, thereby enhancing plant stress resistance.

Boron affects the rapidly growing meristem, the quality of pollen tubes, and the germination and growth of pollen. Boron is essential for the normal development of plant reproductive organs. Boron deficiency will cause pollen germination and pollen tube elongation to be blocked, affecting crop pollination and fruiting.

Boron can inhibit the activity of indole acetic acid oxidase, which is beneficial to the role of auxin (IAA) and promotes root growth. This has important implications for plant root development and absorptive capacity.

Boron enhances the control of water by cell walls, thereby enhancing plant resistance to cold and disease. Under cold and drought conditions, chelated boron can help plants retain water, reduce water loss, and improve plant stress resistance.

Boron promotes the synthesis and transportation of sugar in crops. When boron is lacking, chloroplasts degenerate and affect photosynthesis. In addition, boron can also improve the nitrogen-fixing activity of rhizobia in leguminous crops and increase the amount of nitrogen fixed, which is beneficial to crop growth and yield improvement.

6. Packaging, transaction method, delivery method, etc.:

Packaging: 1kg/25kg bag/drum with linner inside.

Payment method: Western Union; T/T; MoneyGram

7. After-sales service/customized service/sample service:

Packaging customization: Customized services are provided for packages above 1000KG;

Sample service: samples are available;