Celova® Powders Range
About Celova Powders
These versatile cellulose powders are suitable for water-sensitive applications, including fiber composites, reinforcement, scaffolding, and cement. They can also be used as growing media for microgreens and other plants.
Celova C500, C1000, and C2000 are manufactured in a dry cutting process, which allows the fibers to be precisely cut to the targeted length distribution. This process is run under controlled conditions and adheres to high-quality standards. The dry powder is packed into freight optimized big bags.
Celova® C500
Celova C500 is suitable for water-sensitive applications, including fiber composites and cement.
Celova® C1000
Celova C1000 is suitable for applications in agriculture such as growing media as well as composites and cement.
Celova® C2000
Celova C2000 is suitable for water-sensitive applications, including fiber composites and cement.
Applications
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Agriculture
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Gardening
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Construction
Product benefits
Controlled fiber lengths
100% natural
Fully biodegradable
Shape your next innovation with Celova
Frequently asked questions
Since the terms for nano- and microscaled cellulosic particles are not yet defined, the same material can have different names.
Often, microfibrillated cellulose (MFC), nanofibrillated cellulose (NFC), cellulose microfibrils (CMF), cellulose nanofibrils, and nanocellulose refer to the same material.
The confusion with nano- and microfibrillated cellulose comes from the measurement of the fibril. The diameter of the fibril is only several nanometers, while the length is in the micrometer range. Therefore, depending on which measurement the focus is on, the product is named differently.
The term nanocellulose should not be used to describe a material because it is often used as an umbrella term and may also include nanocrystalline and bacterial cellulose.
We will always refer to our products as MFC.
Our products have mainly hydroxyl groups present on the surface that can be used for modifications. Carboxyl groups can also be found because the pulp never consists of 100% pure cellulose.
Yes, due to the available hydroxyl and carboxyl groups present on the surface of the fibrils, MFC can be modified with many different approaches (i.e., silanization and/or silylation, esterification, carboxymethylation).