Calcium stearate is a calcium salt of stearic acid, a long-chain saturated fatty acid with the chemical formula C18H36O2. The molecular formula of calcium stearate is Ca(C18H35O2)2, and it appears as a fine white or off-white powder that is waxy to the touch and insoluble in water. It is considered a metallic soap due to its combination of a metal cation and an organic carboxylate anion, and it is widely used as a non-toxic, cost-effective additive in plastics, rubbers, pharmaceuticals, cosmetics, and food products.
Calcium stearate was first developed and commercialized in the early 20th century as part of broader efforts to improve the processing characteristics of rubber and thermoplastics. It is typically manufactured by reacting calcium hydroxide or calcium chloride with stearic acid, a fatty acid commonly derived from animal or vegetable fats. The reaction yields a precipitate of calcium stearate, which is then filtered, washed, and dried to produce a fine powder with desirable lubricating and release properties.
One of the most important applications of calcium stearate is as a lubricant and release agent in the plastics industry. It is used during the extrusion and molding of polymers such as polyvinyl chloride (PVC), polypropylene, and polyethylene to prevent the material from sticking to processing equipment. It also acts as a stabilizer in PVC formulations, where it helps to neutralize hydrochloric acid generated during thermal degradation of the polymer, thus preventing discoloration and loss of mechanical properties.
In rubber processing, calcium stearate functions as an internal lubricant that facilitates the blending of rubber with fillers and other additives. It reduces compound viscosity and enhances the dispersion of pigments and other solid ingredients, resulting in improved processability and final product quality. It is particularly valuable in the manufacture of tires, hoses, gaskets, and footwear components.
Calcium stearate is used in pharmaceuticals and cosmetics as an anti-caking agent, tablet lubricant, and emulsifier. In tablet production, it ensures smooth ejection of tablets from molds and reduces sticking to punches and dies. In cosmetics, it improves the texture and spreadability of creams and powders. It is generally recognized as safe (GRAS) for use in food and pharmaceutical products, provided it is produced in accordance with purity standards.
In the food industry, calcium stearate serves as a flow agent and anti-caking additive in powdered and granulated materials such as spices, flour, and salt. It prevents clumping by coating particles and reducing moisture absorption. Regulatory authorities in various countries, including the U.S. Food and Drug Administration and the European Food Safety Authority, allow its use within specified limits.
Beyond these applications, calcium stearate is also used in concrete and construction materials as a hydrophobic agent. When incorporated into cement or concrete, it helps to reduce water absorption and enhance weather resistance. It has also found niche use in paper coatings and as a thickening agent in certain greases and lubricants.
The compound is stable under normal storage conditions and exhibits low toxicity and good environmental compatibility. It is biodegradable and poses minimal environmental risk when used in accordance with regulations. However, high concentrations may accumulate in wastewater sludge, so disposal practices must comply with local environmental guidelines.
Calcium stearate continues to be a widely used and essential additive in a variety of industrial, consumer, and pharmaceutical applications. Its discovery and adaptation for commercial use reflect the versatility and enduring value of metal carboxylate compounds in modern materials science and manufacturing.
References
Gönen M, öztürk S, Balköse D, Okur S, Ülkü S (Year) Preparation and characterization of calcium stearate powders and films via precipitation and Langmuir‑Blodgett techniques Ind Crops Prod (precise year unread) PDF available
Momzyakov AA, Zharov AA, Deberdeev TR et al. (2020) Kinetic features of mechanosynthesis of calcium stearate Russ J Phys Chem B 14 270–277 DOI: 10.1134/S1990793120020104
Xie P, et al. (2018) Calcium stearate as an acid scavenger for intensified reactions in microreactors Ind Eng Chem Res (Year) DOI: 10.1021/acs.iecr.8b00285
|
GHS07 Warning Details
Discovory and Applicatios