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DeBon Premium High-Bioavailability Vitamin B3 (Niacin) Feed Additive
Product Specifications
| Product Name | Vitamin B3 (Niacin) |
| Chemical Name | Nicotinic Acid |
| CAS No. | 59-67-6 |
| Specification |
Niacin (C₆H₅NO₂): ≥ 99.0% Loss on Drying: ≤ 0.5% Melting Point: 234–239°C Heavy Metals (as Pb): ≤ 20 mg/kg Total Arsenic (as As): ≤ 2 mg/kg Sulfate (SO₄): ≤ 200 mg/kg Chloride (Cl): ≤ 100 mg/kg Residue on Ignition: ≤ 0.1% |
| Appearance | Almost white crystalline powder. |
| Compliance Standard | Q/S5345680-9.1-2024 (Enterprise Standard). |
Functions
Niacin (Vitamin B3) is critical for:
Supporting energy metabolism and enzymatic reactions in animals.
Promoting healthy skin, digestion, and nervous system function.
Enhancing feed conversion efficiency and growth performance in livestock and poultry.
Storage & packing
Storage Conditions
Store in a dry, cool, and well-ventilated area.
Protect from sunlight, moisture, heat, and toxic substances.
Maintain distance from walls and floors to ensure air circulation.
Packaging
Net Weight: 25 kg per bag.
Shelf Life: 36 months
Usage and Dosage
Add as a feed additive according to guidelines.
Recommended Dosage:
General Livestock/Poultry: 50–100 grams per metric ton of feed.
Dairy Cattle: 500–800 mg/day (rumen-protected forms recommended)
Poultry: 30–50 mg/kg of feed
Swine: 40–60 mg/kg
Adjust dosage based on species, growth stage, or nutritionist recommendations.
Usage and Dosage
Causes eye irritation.
In case of eye contact:
Rinse immediately with clean water for several minutes.
Seek medical attention if irritation persists.
FAQs
1. What are the primary functions of Niacin in animal feed?
Niacin (Vitamin B3) is crucial for energy metabolism, DNA repair, and cellular communicationin livestock. It prevents deficiency syndromes like pellagra in swine (skin lesions, diarrhea) and black tongue disease in dogs, while enhancing rumen function in cattle and feather quality in poultry. Its dual forms (nicotinic acid/nicotinamide) ensure broad applicability.
2.How does Niacin stability vary under feed processing conditions?
• Heat Tolerance: Retains 95% activity after pelleting at 90°C for 2 minutes.
• pH Stability: Optimal in pH 3–7. Degrades rapidly in alkaline premixes (pH >8.5) – add acid buffers (e.g., citric acid).
3.Can Niacin be combined with choline chloride or trace minerals?
Compatible:
Choline chloride (<50% concentration)
Zinc oxide, Manganese sulfate
Incompatible:
Copper sulfate (>300 ppm): Forms insoluble complexes – use coated copper.
Sodium bicarbonate (alkaline premixes): Neutralizes efficacy – pre-mix with fumaric acid.
Compatibility
Compatible With:
| Category | Examples | Best Practice |
| Vitamins | B1 (Thiamine), B5 (Pantothenic acid) | Add Niacin before B1 in mixing sequence |
| Acidifiers | Citric acid, Phosphoric acid | Stabilizes in acidic premixes (pH 4–6) |
| Antioxidants | Vitamin E, BHT | Prevents oxidative degradation |
| Probiotics | Saccharomyces cerevisiae | Synergistic gut health benefits |
Incompatible With:
| Substance | Risk | Mitigation Strategy |
| Alkaline binders (e.g., limestone) | Reduces bioavailability | Pre-mix with acidifiers (target pH 5–6) |
| High-dose iron (Fe >600 ppm) | Chelation reaction | Use organic iron (e.g., Fe methionine) |
| Sulfa drugs (e.g., sulfadiazine) | Absorption antagonism | Administer 4 hours apart from feed |
| Ethanol (liquid feed systems) | Solubility conflict | Use dry premix or post-fermentation addition |
product details