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Product Name | Fizzin bath bombs |
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Shape | Assorted Shapes |
Fragrance | Lavender, Rose, Eucalyptus, Citrus, Jasmine |
Ingredients | Sodium Bicarbonate, Citric Acid, Essential Oils |
Function | Relaxation, Moisturization, Aromatherapy |
Benefits | Fizzes and Dissolves, Rejuvenates the Skin |
Colors | Vibrant and Assorted Colors |
Packaging | Customizable Options |
Certifications | MSDS, GMPC, ISO22716 |
MOQ | 1000 pieces |
OEM/ODM | Available |
Sample | Free samples available, shipping fees apply |
Lead Time | 25-35 days |
Payment | T/T, Western Union, PayPal |
Shipping | DDP (tax included) sea, air, and express shipping options |
Our bath bombs come in assorted shapes, adding a touch of whimsy to your bath time routine. Immerse yourself in the enchanting scents of lavender, rose, eucalyptus, citrus, or jasmine, which are carefully crafted using essential oils. As the bath bomb fizzes and dissolves in the water, it releases a burst of aromatherapy goodness, creating a calming and rejuvenating atmosphere. The moisturizing properties of our bath bombs leave your skin feeling soft and nourished. With vibrant and assorted colors, your bath becomes a feast for the senses. We offer customizable packaging options to showcase your brand's uniqueness. Elevate your bathing ritual with Fizzin Bath Bombs and enjoy moments of pure relaxation. Contact us today to place your order and experience the ultimate indulgence.
Here's a simplified explanation of how the fizzing reaction works:
1, Baking soda (sodium bicarbonate, NaHCO3) is a weak base, and when it dissolves in water, it releases bicarbonate ions (HCO3-) and sodium ions (Na+).
2, The bath bomb also contains an acidic compound, typically citric acid (C6H8O7), which is a weak acid.
3, When the bath bomb comes into contact with water, the citric acid and sodium bicarbonate react together in an acid-base reaction. The citric acid donates a hydrogen ion (H+) to the bicarbonate ion, forming carbonic acid (H2CO3).
C6H8O7 + 2NaHCO3 → H2CO3 + 2Na+ + 3H2O + CO2
4, Carbonic acid is unstable and rapidly breaks down into water (H2O) and carbon dioxide gas (CO2). The carbon dioxide bubbles escape into the air, creating the characteristic fizzing or bubbling effect.