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Cellulose-Based Fiber

Otherwise known as "plants".

natural but wasteful fiber.

While natural, many cellulose-based fibers, such as viscose and cotton, come with significant environmental costs. Even more sustainable cellulose-based fibers,, such as hemp, are less thermoregulating and odor-resistant than the protein-based fibers we use in chose for our sweaters.

a closer look...

Cellulose-based fibers come from plants, either by harvesting their naturally produced fibers or through chemical extraction.

Cotton simply comes from the cotton plant. However, others come from less known plants like cannabis sativa... or trees like bamboo and eucalyptus... and even familiar plants like pineapple and banana. Together, cellulose-based fibers make up 30% of the world's production of yarn fiber.

Sustainability:

Cellulose-based fibers are natural and biodegradable... so what's the meaning of their bad sustainability reputation? One important consideration is how many chemicals go into the production of cellulose-based fibers.

COTTON:
Cotton makes up 70% of the world's cellulose-based fiber production. Cotton is not inherently unsustainable. However, due to global popularity, the fiber is produced at a huge scale requiring 440 million pounds of pesticides annually (Textile Exchange).

Despite accounting for 3% of agricultural land usage globally, the production of cotton accounts for as much as 16% of all pesticides used (A New Textiles Economy).
 
As an alternative to cotton, other cellulose-based fibers, such as hemp, are growing in popularity. Hemp has similar qualities to cotton, but requires less time, pesticides, and land to produce.

CELLULOSE RAYON:
Viscose, lyocell, modal, and acetate are names for the different processes used to create rayon yarn fiber from wood pulp. Viscose is the worst offender in the list due to it's toxic and wasteful production method.

For instance, viscose factories emit nearly 90,000 pounds of carbon disulfide into the air, which is poisonous for neighboring residents and factory workers. Additionally, 50% of the world's production of viscose is derived from threatened or ancient forest, and 70% of the wood used in the production of viscose is dumped or incinerated due to inefficiency (Earthrise, Textile Exchange).

While most cellulose rayon comes with sustainability tradeoffs, there is one worth noting that is significantly more sustainable and gaining popularity... the most sustainable production method for cellulose rayon is called lyocell, where 99% of the chemicals used in the manufacturing are recycled in a closed-loop process. Lyocell is also called "Tencel". 

Breathability & Odor-Resistance:

Unlike the materials we use in our sweater, the vast majority of cellulose-based fiber have poor odor-resistance. This is due to their inability to efficiently wick water vapor. Cellulose-based fiber does not have the same crimped structure of protein-based fiber. Instead, cellulose-based fibers are hydrophilic, meaning they easily absorb and trap moisture within the fiber cell walls.

There's a term that describes cellulose-based fiber called “capillary action” where a negative charge in the fiber attracts water molecules. High moisture absorption and poor wicking leads to bacterial growth and thus odor (Sciencing).

Cellulose rayon, however, due to it's human-made qualities has improved wicking when compared to its 100% natural cellulose sibling. Lyocell for instance is claimed to have sub-microscopic canals between the individual nano-fibers that regulate the absorption and release of moisture (Science Direct).

Thermoregulation:

Cellulose-based fiber has a low thermal conductivity. This means the fibers are inefficient at transferring heat. If you've ever wondered why campers avoid cotton in the backcountry, it's because cellulose-based fibers like cotton absorb water and take a long time to dry (Science Direct).

Abrasion-Resistance & Elasticity:

Unlike the scaled structure of protein-based fiber, cellulose-based fiber is made up of tightly packed crystal molecules which are easy to care for and are not prone to shrinkage. The high density of molecules reduces elasticity and increases durability. Some cellulose-based fiber, such as the "bast" fiber of hemp or banana leaves is taken directly from the stems of plants, dryed, and spun into coarse, stiff, but extremely durable textiles.

Allergies:

The two main causes of clothing allergies are related to chemicals use and fineness of the fibers. The majority of cellulose-based fiber is 100% natural, very fine, and in theory shouldn't cause allergies. One way to avoid allergies to clothing made of cellulose-based fiber is to avoid fibers that require a lot of chemicals to produce.

Most cellulose-based fiber, for instance, is farmed with many chemical pesticides, which may cause an allergic reaction. Organic farmed cellulose-based fiber ensures that irritating chemical were not used in the growing of the fiber. Organic cotton is growing in popularity for both sustainability and hypoallergenic purposes.

KNOW YOUR MATERIALS?

 Prove it! We challenge you to test your knowledge on cellulose-based fiber.