Toothpastes are generally either white abrasive pastes or clear gels. Although the formulations differ, they are made from similar ingredients; these may vary from country to country according to legislation on use of ingredients etc.
The Process of Toothpaste Making
Toothpaste processing methods vary depending on the product type and ingredients used.
A typical toothpaste manufacturing process could be described as follows:
• The liquid base is prepared first – water, sorbitol/glycerin and other liquid ingredients.
• Rheology modifiers may be pre-mixed with a non-aqueous liquid ingredient such as glycerin or the flavoring oil, or dry blended with other powdered ingredients to aid dispersion.
• The active ingredient, sweetener and preservative are added and dispersed.
• The abrasive/filler is then added. This may be supplied as slurry, or premixed with part of the water prior to blending with the liquid base.
• Flavoring and coloring are added
• The detergent is added last under slow speed agitation to minimize foaming. It is typically in solid form to avoid adding water to the formulation at this stage.
The Problems of Traditional Toothpaste Making Machine
Aeration is a major problem in toothpaste manufacturing. All powders contain a certain amount of air, and the detergent can exacerbate the problem. Mixing is usually carried out under vacuum to overcome this. Other problems which can be encountered include:
• Rheology modifiers tend to form lumps which are difficult to break down by agitation. Premixing with other liquid or powdered ingredients increases process time and costs.
• Some rheology modifiers require high shear in order to obtain functionality.
• Some ingredients, e.g. hydrated silica have a low density and are very difficult to incorporate and wet out.
• Conventional agitators tend to cause aeration, especially when incorporating powders.
• Abrasives such as calcium carbonate can be supplied as slurry. This may require deagglomeration.
The Solution of Toothpaste Production
Manufacturing of gel toothpastes can be carried out using a Ginhong high shear mixer, however the high viscosity and abrasive nature of white toothpastes means that mixing with a high speed rotor/stator homogenizer is not appropriate for some aspects of the toothpaste production process, but significant advantages can be obtained in other stages of production, including:
• Preparation of the liquid base prior to the addition of the fillers and abrasive ingredients.
• Deagglomerating the mix before the detergent and thickeners are added, especially where fillers such as calcium carbonate are supplied as slurry.
• “Refining” of finished product prior to packing. This would be carried out using a specially modified inline high shear mixer unit in conjunction with a non-reciprocating positive displacement pump.
The high speed rotation of the rotor creates a powerful suction which draws the liquid and solids into the rotor/stator assembly. Centrifugal force drives the materials to the periphery of the homogenizer work head where they are subjected to a milling action in the gap between the rotor and stator.
The toothpaste is then forced out through the stator as fresh material is drawn in. The continuous intake and expulsion of materials ensures the ingredients are deagglomerated and rapidly dispersed and hydrated.
The Advantages of Ginhong Toothpaste Manufacturing Machine
• Processing time is dramatically reduced
• Rapid incorporation and wetting out of powders
• Greatly improved toothpaste quality, consistency and stability
• Minimized aeration; certain units can be supplied for operation under vacuum
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