What is calcium carbonate filler? What characteristics do they have?

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Calcium carbonate filler (CaCO3 filler, also known as calcium carbonate masterbatch) has always been the most commonly used filler in the plastic industry and their position has never declined during the years despite the processing and modifying technologies have been researched and applied more and more over years. So what characteristics of calcium carbonate filler that made manufacturer widely use them? Please join us to learn about fillers that have contributed to the EuP’s success.

calcium carbonate filler

Reasons contributing the current position of calcium carbonate filler in plastics industry

Not only in the plastics industry, but calcium carbonate filler also functions as filler that are widely used in other industries and production worldwide. The reason CaCO3 is favored because firstly, this material source is extremely abundant and available in many areas and regions around the world. The abundance of reserves allows the exploitation of this substance to be unrestricted, resulting in low cost and stable supply for a long time.

Secondly, calcium carbonate has moderate hardness, is not too soft but still not too hard, making it easy to process and process, can grind into powder or into larger sizes.

Thirdly, CaCO3 also works in reducing plastic melting pressure when shaping plastic in to product forms. In addition, when used in production, calcium carbonate masterbatch is a relatively good stabilizer, which will help improve bubble floatation in the production of plastic beads. This helps the product achieve a smooth and beautiful surface.

Finally, CaCO3 is chemically suitable for combination with many other substances, so manufacturers can combine this substance with many different types of plastics and polymers. In short, calcium carbonate filler brings a lot of economic value to producers, both in quantity, production capacity and product quality.

What effect does calcium carbonate filler benefit the plastics industry?

When used as a plastic additive, in addition to replacing a part of raw materials and helping manufacturers to reduce production costs as much as possible, CaCO3 also functions helping plastic products increase hardness, durability, adhesion as well as impact resistance. In addition, the aesthetics of the end product also increased significantly since CaCO3 improves and adjusts the glossiness and opacity of the product’s surface (by adjusting the amount of calcium carbonate filler added to the plastic). At the same time, adding CaCO3 to plastic products also increases their surface printability.

What are the properties of calcium carbonate filler?

calcium carbonate filler material

Where is calcium carbonate filler found in nature?

CaCO3 is a naturally compound that are easily found in nature. They are found both in geological mines and in the biological structures of living organisms. Calcium carbonate is an indispensable ingredient in eggshells and shells of marine organisms (oyster shells, sea shells, snail shells and even corals). However, the main source of supply of calcium carbonate filler comes from limestone quarries. In nature, CaCO3 exists under 3 main forms of crystals: calcite, aragonite and vaterite. Among three, calcite, thanks to its relevancy of crystal structure, is the most commonly used type because they have the most commercial applications.

The physical properties of calcium carbonate

Pure calcium carbonate is in solid form (usually in the form of fine powder), odorless and have white color with melting temperature ranging from 800 to 1400oC. Their molecular weight is 100,087 g/mol.

Chemical properties of calcium carbonate

The reason that manufacturers can widely use calcium carbonate filler in plastic production is because chemical properties of it (CaCO3) and the plastic in the association with are not changed when mixed together with many plastic types and other additives. In addition, calcium carbonate is also insoluble in water, stable under normal temperature conditions and only reacts with some strong acids (such as HCl), medium (as sulfamic) or weak acids (acetic, citric, phosphoric, lactic, sorbic). Thanks to these properties, plastic products generated from calcium carbonate masterbatch will be applied in a wide range of fields, including those required the assurance on user’s safety such as the food and beverage industry.

2 types of common calcium carbonate used to produce calcium carbonate filler

In industries that use calcium carbonate filler, they are used in two forms: coated CaCO3 and uncoated CaCO3. Coated CaCO3 is mainly exploited from limestone or white marble mines with high purity and only differ from uncoated CaCO3 at the point that they are coated with fatty acids (stearic acid) and bonding agent (Titanate Coupling Agent) on their surface.

In general, the physical and chemical properties of these two types of calcium carbonate mastebatch are not significantly different. Most physical properties such as whiteness, brightness, humidity, weight, pH, etc. do not consist of any differences between 2 types. The only exception is oil absorption in which uncoated CaCO3 is superior (30.08 g/100g compared with coated CaCO3 only 18.71 g/100g). The following are indicators that show the physical properties of calcium carbonate:

  • Whiteness: 98% minimum
  • Brightness: 96% minimum
  • Humidity: 0.2% maximum
  • Gravity: 2.7 g/cm3
  • Specific surface area: 4.23 – 4.72 m2/g

In addition to their chemical composition, in addition to the presence of stearic acid, there is no difference:

  • Calcium carbonate (CaCO3): 98.5%
  • Silicon Oxide (SiO2): 0.03%
  • Magnesium Oxide (MgO): 0.02%
  • Aluminum Oxide (Al2O3): 0.02%
  • Iron Oxide (Fe2O3): 0.02%

Applications of calcium carbonate filler in plastics industry

In production, calcium carbonate filler is used in combination with a wide variety of plastics, from rigid plastic, flexible plastic to thermoplastic. Applications of calcium carbonate mastebatch are numerous. If you pay attention, you will notice a lot of things around us, which we use and contact daily are made from CaCO3 filler. Applications generated through the injection molding methods with this type of masterbatch includes food wraps used in supermarkets, shopping bags, garbage bags, agricultural films, etc.

calcium carbonate filler application

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