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Lyocell

Lyocell is a regenerated cellulosic fiber derived from sustainably sourced wood pulp, produced through a direct dissolution process using the non-toxic organic solvent N-methylmorpholine N-oxide (NMMO) in a closed-loop system that recovers over 99% of the solvent for reuse.^[1]^[2] Developed in the late 20th century and commercialized by companies like Lenzing AG under the TENCEL™ brand, Lyocell offers superior mechanical properties compared to traditional rayon, including high tenacity (dry strength up to 42 cN/tex and wet strength up to 38 cN/tex), excellent dimensional stability, and a fibrillar structure that enhances durability.^[3]^[4]^[5] In terms of comfort, it is highly breathable and moisture-absorbent, with moisture regain of 11-13%, making it ideal for skin contact applications; its smooth surface provides a soft, silk-like feel while being hypoallergenic and biodegradable in soil, freshwater, and marine environments.^[3]^[4] Lyocell's production significantly reduces environmental impact relative to viscose rayon, with lifecycle analyses showing lower water use and at least 50% fewer greenhouse gases, as it avoids toxic chemicals like carbon disulfide and relies on renewable wood from certified forests (FSC® or PEFC).^[4]^[6] Widely used in apparel such as jeans, activewear, and bedding, as well as in nonwovens for wipes and medical textiles, Lyocell represents a sustainable alternative to synthetic fibers, promoting circular economy principles through its compostability and low waste generation.^[3]^[4]

Definition and Nomenclature

Chemical Structure

Lyocell is a semi-synthetic fiber classified as a form of regenerated cellulose, produced from dissolving pulp derived primarily from sustainably sourced wood such as eucalyptus, beech, spruce, and birch trees.^[7]^[8] The dissolving pulp consists of highly purified cellulose, which serves as the foundational polymer for the fiber's structure.^[2] At the molecular level, Lyocell retains the chemical composition of native cellulose, with the repeating unit represented by the formula (C_6H_{10}O_5)_n, where n denotes the degree of polymerization typically ranging from 500 to 600.^[9] This structure arises from linear chains of \beta-D-glucose units linked by \beta-1,4 glycosidic bonds, forming a polysaccharide backbone that provides inherent rigidity and hydrogen-bonding capabilities essential to the fiber's properties.^[10] Following regeneration, Lyocell exhibits a distinctive fibrillar morphology characterized by bundles of microfibrils aligned parallel to the fiber axis, which emerge due to the ordered precipitation of cellulose chains during processing.^[11] These microfibrils contribute to a high degree of crystallinity, typically around 60-70%, which enhances the fiber's tensile strength by promoting close packing and intermolecular interactions within the crystalline regions.^[12]^[13] The N-methylmorpholine N-oxide (NMMO) solvent plays a critical role in preserving the integrity of these cellulose chains, as it dissolves the polymer directly without forming derivatives or altering the chemical structure, thereby allowing regeneration into a fiber that mirrors the original cellulose composition.^[2]^[14]

Common Names and Branding

The term "Lyocell" derives from the Greek word "lyein," meaning to loosen or dissolve, combined with "cell" from cellulose, reflecting the fiber's production via direct dissolution of cellulose in a solvent.^[15]^[16] Lyocell is often referred to by synonyms such as "third-generation rayon" due to its position in the evolution of regenerated cellulosic fibers, or "solvent-spun cellulose" to emphasize its manufacturing process using non-derivatizing solvents.^[11]^[17] In commercial contexts, key brands include TENCEL™, developed and trademarked by Lenzing AG and first introduced in 1992 as a branded variant of lyocell, while generic lyocell is produced by various manufacturers; related but distinct fibers like Lenzing Modal use a different chemical process and are not classified as lyocell.^[18]^[19] Under regulatory standards, lyocell is classified as a regenerated cellulosic fiber, recognized by the U.S. Federal Trade Commission (FTC) as a subclass of rayon since 1996 and by International Organization for Standardization (ISO) specifications such as ISO 21915, which define it alongside other cellulose-based regenerated fibers.^[20]

Historical Development

Invention and Early Research

The development of regenerated cellulose fibers began in the late 19th and early 20th centuries, with experiments focused on dissolving cellulose using various solvents to create silk-like alternatives, leading to the commercialization of rayon variants such as viscose in 1905 and cuprammonium rayon shortly thereafter.^[21] These early efforts highlighted the challenges of cellulose dissolution without derivatization, as traditional methods like the viscose process involved chemical modification with carbon disulfide, resulting in environmental concerns and inconsistent fiber properties.^[21] In the 1960s and 1970s, researchers at American Enka, a U.S. subsidiary of the Dutch company Akzo (later AkzoNobel), initiated studies on N-methylmorpholine N-oxide (NMMO) as a non-derivatizing solvent capable of directly dissolving cellulose to form stable solutions suitable for fiber spinning.^[11] This work, spanning from 1969 to 1979, aimed to overcome the limitations of viscose by enabling a cleaner dissolution process without toxic byproducts. A key advancement came with the 1979 patent filing by Clarence C. McCorsley III for Akzona Incorporated (Akzo's holding company), granted in 1981 as US Patent 4,246,221, which detailed the preparation of shaped cellulose articles from tertiary amine N-oxide solutions, including NMMO.^[22] However, early experiments encountered significant hurdles, including NMMO solvent instability due to thermal degradation and side reactions, as well as fiber breakage during spinning attributed to uneven coagulation.^[21] Laboratory-scale trials in the 1980s, building on Akzo's foundational research, demonstrated the potential of the NMMO-based process, producing fibers with superior tensile strength compared to viscose—approximately twice as high in dry conditions and three times in wet conditions—due to the direct dissolution preserving cellulose's native structure.^[2] These trials confirmed NMMO's role in yielding high-modulus fibers with enhanced mechanical integrity, setting the stage for further refinement despite ongoing stabilization challenges.^[2]

Commercialization and Key Milestones

The commercialization of Lyocell began with the launch of the Tencel brand in 1992 by the British company Courtaulds, which established the world's first commercial production facility in Mobile, Alabama, USA. This marked the transition from laboratory-scale development to industrial manufacturing, with initial output focused on high-quality regenerated cellulose fibers for textiles. The plant's operation represented a breakthrough in solvent-spun fiber technology, enabling scalable production while emphasizing environmental recovery of the N-methylmorpholine N-oxide solvent.^[11]^[23]^[18] In the 2000s, the industry saw significant expansion through strategic acquisitions and capacity growth. Lenzing AG acquired the Tencel Group, including its production sites in the US and UK, in 2004, consolidating control over the technology and brand while integrating it into its portfolio of cellulosic fibers. This move facilitated global scaling, with worldwide Lyocell production capacity reaching approximately 100,000 metric tons annually by 2010, driven by demand in apparel and technical textiles. The acquisition also streamlined operations, allowing Lenzing to invest in efficiency improvements and market penetration.^[24]^[25]^[26] Key milestones in the 2010s included enhanced sustainability recognitions, such as the awarding of the EU Ecolabel to Tencel Lyocell fibers in 2009 for their low environmental impact across the lifecycle, including reduced water and energy use compared to traditional cellulosic processes. Patent expirations around 2005 for core Lyocell technologies enabled broader adoption, spurring generic production in Asia; by 2015, China had emerged as a major player with facilities contributing to regional output. These developments lowered barriers to entry and diversified supply chains.^[27]^[28]^[29] Entering the 2020s, Lyocell experienced accelerated growth in bio-based variants, including recycled and alternative pulp-sourced fibers, amid tightening global textile regulations like the EU's Green Deal and restrictions on non-sustainable imports. Recent innovations include the introduction of LENZING™ Lyocell Dry, a hydrophobic fiber variant, in 2023 and TENCEL™ Lyocell HV100, designed to mimic natural irregularities, in 2025. Additionally, Lenzing commissioned a new production plant in Thailand in 2025, investing EUR 24 million since 2021 to expand capacity. Market projections indicate the global Lyocell sector expanding from $1.3 billion in 2022 to over $3 billion by 2032, fueled by consumer demand for eco-friendly alternatives and certifications reinforcing closed-loop production. This period has positioned Lyocell as a cornerstone of sustainable fashion innovation.^[30]^[31]^[32]^[33]^[34]

Production Process

Raw Materials and Preparation

The primary raw material for Lyocell production is dissolving-grade pulp, a highly purified form of cellulose derived from sustainable hardwood sources such as eucalyptus trees. This pulp typically contains over 99% cellulose, making it suitable for direct dissolution in the spinning process. Eucalyptus is favored due to its fast growth rate, low water requirements, and high cellulose yield, with plantations often yielding pulp with alpha-cellulose content exceeding 92%.^[35]^[36]^[37] Modern processes also incorporate recycled textile waste, such as cotton scraps from pre- and post-consumer sources, blended with wood pulp to enhance circularity. Technologies like REFIBRA™ integrate at least 20% such recycled materials into the dissolving pulp while maintaining fiber quality.^[1] Preparation of the dissolving pulp begins with sourcing wood chips, followed by pulping processes that achieve high purity levels. Initial treatments involve kraft cooking or prehydrolysis to break down the wood structure, followed by purification steps such as caustic extraction (often referred to as mercerization in this context) and bleaching to remove hemicellulose, lignin, and other impurities. These steps ensure the pulp reaches a typical alpha-cellulose purity of greater than 95%, with hemicellulose below 2.5% and lignin under 0.1%, minimizing contaminants that could affect fiber quality. Water inputs for pulping are sourced as non-potable process water, often recycled within the mill to reduce freshwater demand, while energy is primarily consumed in heating and mechanical operations during purification.^[38]^[39]^[40] The amine oxide solvent used in Lyocell production, N-methylmorpholine N-oxide (NMMO), is prepared separately and integrated during the dissolution phase. NMMO is synthesized through the oxidation of N-methylmorpholine, traditionally derived from petrochemical feedstocks like ethylene oxide and methylamine. This solvent is produced in aqueous form for safe handling and is recovered at over 99% efficiency in closed-loop systems. Sustainability in raw material sourcing is emphasized through certification standards, with major producers procuring pulp from FSC-certified or PEFC-managed forests to ensure responsible harvesting. Eucalyptus plantations for Lyocell pulp avoid ancient or endangered woodlands, focusing instead on controlled, fast-rotating farms that promote biodiversity and soil health. These practices align with industry policies that prioritize traceability and minimal ecological impact from the forest to the pulp mill.^[41]^[42]^[7]

Solvent Spinning Method

The solvent spinning method for Lyocell production involves direct dissolution of cellulose in N-methylmorpholine N-oxide (NMMO) without chemical derivatization, distinguishing it from processes like viscose that require xanthation. Cellulose pulp, typically derived from wood or other sources, is first swollen in water to disrupt its crystalline structure and enhance solubility. This swollen pulp is then mixed with aqueous NMMO, often at around 18% water content, and heated to 80-100°C under vacuum conditions to evaporate excess water and form a homogeneous spinning dope containing 15-20% cellulose by weight. The vacuum application, usually at pressures below atmospheric levels, prevents degradation and ensures complete dissolution, resulting in a highly viscous, anisotropic solution suitable for extrusion.^[43]^[44] In the spinning stage, the cellulose-NMMO dope is filtered to remove undissolved particles and deaerated before being extruded through a multi-hole spinneret to form continuous filaments. These filaments pass through a short air gap, typically 5-50 mm in length, where initial stretching occurs due to gravitational and mechanical forces, promoting molecular orientation without solvent evaporation. The filaments then enter a coagulation bath composed of water or dilute aqueous NMMO (up to 20 wt% NMMO), where the cellulose regenerates into solid fibers as the NMMO diffuses out and is replaced by the non-solvent. This wet-spinning-like coagulation step solidifies the fibers rapidly, preserving their fibrillar microstructure. Unlike pure melt spinning, the air-gap method allows controlled draw-down, enhancing tensile properties.^[45]^[46]^[47] Key process parameters critically influence fiber morphology and performance. The coagulation bath is maintained at 10-20°C to optimize diffusion rates and prevent excessive swelling, while the draw ratio—applied during the air gap and bath—reaches up to 10:1 to align cellulose chains and induce fibril formation along the fiber axis. Higher draw ratios promote microfibrillar orientation, contributing to the characteristic strength and fibrillation tendency of Lyocell fibers. The spinning dope temperature is controlled between 80-120°C to ensure flowability, and extrusion speeds range from 20-40 m/min, balancing productivity and fiber uniformity. These parameters are adjusted to avoid defects like skin-core structures, ensuring consistent regeneration.^[2]^[47] A major innovation in the Lyocell process is the closed-loop recovery of NMMO, enabling sustainable operation with minimal solvent loss. Post-coagulation, the spent NMMO solution is collected and purified through a multi-step sequence: filtration to remove cellulose residues and impurities, followed by distillation under vacuum to separate water, NMMO, and minor byproducts. This recycling achieves recovery rates of 95-99.5%, with commercial systems often exceeding 99%, drastically reducing chemical consumption compared to open-loop processes. Stabilizers like propylene carbonate are sometimes added to the dope to minimize NMMO degradation during recycling, ensuring long-term efficiency.^[48]^[2]

Post-Processing and Recovery

After the extrusion and coagulation of the cellulose solution in the solvent spinning method, the newly formed Lyocell fibers undergo washing to remove residual N-methylmorpholine-N-oxide (NMMO) solvent, which is essential for ensuring fiber purity and safety. The fibers are typically passed through a series of water baths where they are rinsed multiple times, with the wash water capturing the dissolved NMMO. If necessary, a mild acidification step may be applied during washing to neutralize any alkaline residues and enhance fiber stability, preventing degradation over time. This multi-stage washing process effectively reduces NMMO content to trace levels, typically below 0.1%, minimizing potential skin irritation in end-use applications.^[49] Following washing, the fibers are subjected to drawing, a mechanical stretching process that aligns the cellulose chains and improves tensile properties such as strength and modulus. Drawing is usually performed at elevated temperatures (around 100-150°C) with draw ratios of 5:1 to 12:1, depending on the desired fiber characteristics, resulting in increased breaking strength and reduced elongation. For staple fiber production, crimping is then applied to introduce bends or waves into the fiber structure, enhancing cohesion and spinnability when processed into yarns; this texturizing step mimics the crimp found in natural fibers like wool. These post-washing treatments are critical for achieving the high-performance attributes of Lyocell, such as its superior wet strength compared to other regenerated cellulosics.^[46] The NMMO solvent recovery system is a hallmark of the Lyocell process, enabling its economic viability through high-efficiency recycling from the wash water. Recovered NMMO, diluted to about 5-15% in the washing baths, undergoes multi-stage treatment: initial filtration to remove impurities, followed by evaporation under vacuum to concentrate it to 50-80%, and final purification via distillation or ion exchange to restore it to over 99% purity for reuse. Modern designs, such as those employed by Lenzing, achieve overall recovery rates exceeding 99%, with losses limited to less than 1% primarily due to degradation or volatilization; energy-efficient heat integration in evaporators further reduces operational costs. This closed-loop recovery not only conserves the expensive solvent but also minimizes waste generation.^[50]^[48] Quality control in post-processing ensures consistent fiber specifications, with the washed, drawn, and crimped tows either cut into staple lengths of 38-102 mm for nonwovens or yarn production, or wound into continuous filaments for high-end textiles. Automated cutting and winding equipment monitors parameters like linear density (denier) and crimp uniformity, rejecting non-conforming segments to maintain standards such as ISO 1833 for fiber length. Drying under controlled conditions (e.g., hot air at 80-120°C) precedes final packaging, preventing moisture-related defects while preserving the fiber's natural luster and handle.^[51]

Physical and Chemical Properties

Mechanical Characteristics

Lyocell fibers demonstrate robust tensile strength, with dry tenacity ranging from 4.5 to 6.0 g/den and wet tenacity from 3.5 to 5.0 g/den. These values reflect a superior performance compared to viscose rayon, primarily due to the high molecular orientation imparted during the solvent spinning process.^[52]^[2]^[53] In terms of elasticity, Lyocell exhibits an elongation at break of 10-15%, coupled with an initial modulus of approximately 10-15 g/den, which underscores its stiffness and ability to withstand deformation without permanent damage. The drawing step in post-processing further enhances these traits by aligning polymer chains, optimizing overall mechanical integrity.^[54] Abrasion resistance in Lyocell is notably high, stemming from its smooth surface morphology and microfibrillar structure that resists surface wear effectively. Loop strength tests confirm minimal fuzzing under frictional stress, supporting its reputation for durability in demanding conditions.^[55] Fatigue resistance is another key attribute of Lyocell, ensuring sustained performance over time through its high wet strength retention and structural durability.^[56]^[2]

Thermal and Chemical Behaviors

Lyocell fibers exhibit notable thermal stability, characterized by a non-melting behavior where degradation occurs prior to any phase change into a liquid state. The onset of thermal degradation typically begins around 250–300°C under aggressive conditions, allowing the fiber to withstand moderate heat exposure without rapid decomposition.^[57] The glass transition temperature for dry lyocell is approximately 240°C (513 K), marking the point where the amorphous regions of the cellulose structure transition from a glassy to a rubbery state, contributing to its dimensional stability during processing.^[58] Additionally, lyocell demonstrates low shrinkage, typically less than 5%, when exposed to dry heat at 130°C, though shrinkage increases in the range of 130–160°C due to structural relaxation and loss of crystallinity.^[59] In terms of moisture interaction, lyocell is highly hygroscopic, with a moisture regain of 11–13% at 65% relative humidity, which exceeds that of polyester (approximately 0.4%) but aligns closely with cotton (8–10%).^[60] This property stems from the fiber's regenerated cellulose structure, which facilitates hydrogen bonding with water molecules, enhancing wearer comfort by promoting moisture absorption and wicking away from the skin.^[61] Lyocell shows good chemical resistance to dilute acids and alkalis (pH 2-12), maintaining structural integrity up to pH 13 under moderate conditions without significant mechanical deterioration.^[62] However, prolonged exposure to strong alkalis (pH >13) can lead to degradation through hydrolysis of cellulose chains. The fiber is sensitive to chlorine-based bleaches, which can weaken the structure by breaking glycosidic bonds; instead, enzymatic treatments, such as those using cellulases or perhydrolases at neutral pH and lower temperatures (around 65°C), are preferred for whitening to minimize damage while achieving effective results.^[63]^[64] Regarding biodegradability, lyocell undergoes full enzymatic breakdown in soil via microbial activity, achieving up to 73% mass loss within 70 days and complete degradation in approximately 55 days under aerobic soil conditions, or in 30 days in marine environments, without releasing microplastics due to its cellulosic composition.^[65]^[66]

Applications

Textile and Apparel Uses

Lyocell is extensively utilized in denim and casual wear, where it is frequently blended with cotton in ratios like 70:30 (lyocell to cotton) to enhance fabric softness and improve dye uptake for deeper, more vibrant colors in jeans.^[67] In activewear and intimates, lyocell's moisture-wicking capabilities—absorbing approximately 50% more moisture than cotton—support its use in sportswear for efficient sweat management and comfort during physical activity.^[68] For lingerie and undergarments, the fiber's silk-like drape, achieved through fine denier filaments of 1.2-1.5, provides a luxurious, smooth feel against the skin while ensuring breathability.^[69] Lyocell features prominently in home textiles, including bedding and towels, where its inherent breathability and softness promote better moisture regulation for improved sleep quality and drying performance.^[70] Within the lyocell fiber market, home textiles account for about 15% of applications, reflecting its growing adoption in consumer apparel segments.^[71] Lyocell's processing compatibility further supports its apparel versatility, with excellent dyeability using reactive dyes for consistent, high-colorfastness results across blends.^[72] In knitted fabrics, it demonstrates minimal pilling, typically rating 4-5 on standard pilling tests after extended abrasion.^[73] These attributes stem from lyocell's core physical properties, such as its smooth surface and moisture management.

Industrial and Non-Textile Applications

Lyocell fibers are employed in medical textiles, particularly for wound dressings and surgical gowns, owing to their high biocompatibility, moisture management capabilities, and absorbency that facilitate effective wound healing and infection control.^[49] These properties stem from the fiber's smooth surface and ability to maintain a moist environment, which supports tissue regeneration while minimizing adhesion to wounds.^[74] Antimicrobial variants of Lyocell are achieved through finishes incorporating natural agents or inherent bioactive modifications, enhancing their suitability for hygiene products and protective apparel in healthcare settings.^[74] For instance, Lenzing's specialty fibers are integrated into wound care items like gauzes, swabs, and dressings, combining Lyocell with materials such as polyester for optimal absorption and biocompatibility.^[75] In filtration and wipes applications, Lyocell serves as a key material for high-purity wipes used in electronics cleaning, where its low linting and high absorbency ensure contaminant-free surfaces without residue.^[76] The fiber's fine denier variants, such as 0.9 dtex, enable the production of microfiber structures ideal for air and liquid filtration media, providing efficient particle capture while maintaining breathability in industrial filters.^[77] Additionally, Lyocell-based nonwovens are utilized in wet wipes and hygiene products, benefiting from the fiber's softness and environmental degradability.^[78] Lyocell reinforces bioplastic composites, enhancing mechanical strength and biodegradability in applications like packaging and automotive components, where short fiber variants improve interfacial bonding with matrices such as polylactide (PLA).^[79] In specialty papers, Lyocell is blended into nonwoven structures for sustainable packaging, typically at contents up to 30% to boost tensile properties and eco-friendliness without compromising processability.^[80] Emerging applications include 3D printing filaments incorporating Lyocell fibers for sustainable prototypes, where fibrillation and annealing techniques enhance composite mechanical performance in bio-based polylactide matrices.^[79] Non-textile uses are projected to contribute to overall market expansion, with the global Lyocell sector expected to grow at a CAGR of 8.9% from 2025 to 2034, driven by demand in hygiene, filtration, and composites.^[81]

Environmental and Sustainability Aspects

Production Impacts

The production of Lyocell fiber involves moderate water usage compared to other textiles, typically ranging from 84 to 143 liters per kilogram of fiber for man-made cellulose staple fibers, owing to the closed-loop systems that recycle process water and minimize discharge.^[82] This is substantially lower than the approximately 2,500 liters per kilogram required for cotton fiber production but higher than the 20-30 liters per kilogram for polyester, highlighting Lyocell's balanced position in water efficiency among regenerated cellulose processes. These systems ensure that wastewater is treated and reused, reducing freshwater withdrawal and effluent volumes. Energy consumption in Lyocell manufacturing is primarily driven by the solvent recovery stage, amounting to about 45 MJ per kilogram of fiber, with the majority allocated to heating and evaporation processes for N-methylmorpholine N-oxide (NMMO) reclamation.^[83] Associated carbon dioxide emissions are estimated at 3.16 kg CO₂ equivalent per kilogram of fiber, largely attributable to energy inputs and upstream pulp sourcing, though optimized facilities can mitigate this through renewable energy integration.^[83] The solvent recovery efficiency exceeds 99%, enabling near-complete reuse of NMMO and limiting overall energy demands for chemical handling.^[2] Chemical emissions from Lyocell production are minimal, with NMMO loss below 1% due to advanced recovery techniques, resulting in biodegradable effluents that pose low environmental risk.^[48] Unlike viscose rayon processes, Lyocell avoids toxic byproducts such as carbon disulfide (CS₂), eliminating persistent pollutants and reducing air and water contamination.^[6] Waste generation is managed effectively through recycling, with pulp residues from raw material preparation converted into energy via combustion or biogas production, offsetting a portion of the process's thermal needs. Purification sludges are classified as non-hazardous and treated accordingly, further minimizing solid waste disposal impacts in a closed-loop framework.^[6]

Lifecycle Advantages and Challenges

The lifecycle assessment of Lyocell from cradle to gate reveals a relatively low global warming potential (GWP) of approximately 3.16 kg CO₂-equivalent per kg of fiber, attributed to its closed-loop production process that recovers over 99% of solvents and minimizes emissions.^[8] This GWP is about 50% lower than that of viscose rayon, primarily due to reduced energy demands and lower chemical waste in the solvent-spinning method.^[41] Furthermore, Lyocell's reliance on renewable wood pulp feedstock—sourced from sustainably managed forests—significantly decreases dependence on fossil-based materials, enhancing its overall environmental profile compared to synthetic alternatives.^[41] During the use phase, Lyocell's high durability contributes to sustainability by enabling garments to maintain shape and strength through multiple washes, often requiring less frequent laundering and ironing than less robust fibers.^[84] This extended lifespan reduces overall textile waste, as clothing made from Lyocell can endure 50 or more washing cycles while retaining UV resistance and tensile properties, thereby lowering the environmental burden associated with frequent replacements.^[85] At end-of-life, pure Lyocell fibers are 100% compostable in industrial facilities, fully biodegrading into water, CO₂, and humus without toxic residues, as demonstrated by standardized compostability tests such as ISO 14855 and TÜV Austria certifications.^[86] However, recycling poses challenges when Lyocell is blended with synthetics like polyester, which complicates mechanical separation and limits closed-loop recovery; ongoing chemical recycling pilots, including those producing high-molecular-weight recycled Lyocell from post-consumer waste, are addressing these issues to enable broader circularity.^[87] Lyocell production adheres to rigorous certifications like Bluesign, which ensures low-impact chemical use and resource efficiency across the supply chain, and OEKO-TEX Standard 100, verifying the absence of harmful substances in the final fiber.^[41] Despite these strengths, challenges persist in the pulp supply chain, where risks of deforestation from non-certified sources remain; by 2025, advancements in traceability technologies, such as DNA markers and blockchain platforms adopted by over 59% of producers, are mitigating these risks through verifiable forest-to-fiber tracking.^[88]

Comparisons with Other Fibers

Versus Viscose Rayon

Lyocell and viscose rayon, both regenerated cellulosic fibers derived from wood pulp, differ fundamentally in their production processes. Viscose rayon involves a xanthation step where cellulose is treated with carbon disulfide (CS₂) to form cellulose xanthate, which is then dissolved in sodium hydroxide to create a viscous solution for spinning.^[50] In contrast, lyocell employs a direct dissolution method using N-methylmorpholine N-oxide (NMMO) as a non-toxic solvent in a closed-loop system, where over 99% of the solvent is recovered and reused, avoiding the need for CS₂ and associated toxic byproducts.^[49] This process difference allows lyocell production to eliminate hazardous chemicals like CS₂, thereby reducing overall emissions compared to viscose.^[89] In terms of mechanical properties, lyocell exhibits superior performance, particularly in wet conditions. Lyocell maintains approximately 80% of its dry strength when wet, while viscose retains only about 50%, making lyocell more resistant to tearing or stretching during laundering.^[90]^[91] Additionally, lyocell demonstrates better dimensional stability, with lower shrinkage and wrinkling after washing compared to viscose, which is prone to deformation due to its lower modulus.^[92] Environmentally, lyocell holds a clear advantage over viscose. The viscose process generates hydrogen sulfide (H₂S) emissions as a byproduct of CS₂ reactions, contributing to air pollution, whereas lyocell production emits no H₂S.^[93] Lyocell's closed-loop system also enhances resource efficiency, using significantly less energy and producing lower carbon emissions than conventional viscose production.^[94] Despite these differences, both fibers occupy overlapping markets as sustainable cellulosic alternatives to synthetic textiles, with lyocell often positioned for premium eco-friendly apparel due to its enhanced properties and lower environmental footprint, commanding a 15-20% higher price point than viscose.^[95]

Versus Natural Fibers like Cotton

Lyocell, a regenerated cellulosic fiber derived from wood pulp, contrasts with natural fibers like cotton in resource demands, as its production from fast-growing eucalyptus requires approximately one-fifth the land area per kilogram compared to cotton cultivation.^[96] Eucalyptus trees for Lyocell are harvested on a 7- to 10-year cycle, enabling higher yields per hectare without the annual replanting required for cotton. Additionally, eucalyptus plantations typically need no pesticides, unlike conventional cotton farming, which consumes about 10% of the world's insecticides despite occupying only 2.4% of global cropland.^[97] In terms of performance, Lyocell offers uniform fiber fineness ranging from 1 to 5 dtex, resulting in consistent yarn quality and superior drape due to its smooth, round cross-section, whereas cotton fibers exhibit natural variability in thickness and crimp that can affect fabric evenness. Lyocell also excels in moisture management, absorbing up to 50% more moisture than cotton and evaporating it faster, promoting quicker drying and enhanced comfort in apparel. These attributes stem from Lyocell's nanofibrillar structure, which facilitates better capillary action compared to cotton's hollow fibers.^[11]^[98]^[99] Sustainability-wise, Lyocell generally has a lower overall water footprint—around 1,384 cubic meters per ton versus cotton's 9,000 to 10,000 cubic meters per ton—reducing strain on freshwater resources. Cotton production contributes to soil depletion through monocropping and heavy fertilizer use, exacerbating erosion and nutrient loss, while Lyocell's closed-loop manufacturing recovers over 99% of the amine oxide solvent, minimizing chemical waste despite reliance on this non-aqueous processing agent.^[100]^[101] Blends of 50% cotton and 50% Lyocell are particularly advantageous in denim production, combining cotton's familiarity with Lyocell's silk-like softness and low shrinkage (under 3% after laundering), resulting in more comfortable, durable garments that retain shape better than pure cotton denim. Lyocell shares mechanical similarities with cotton, such as comparable tensile strength, but its synthetic regeneration process allows for tailored properties without biological variability.^[102]

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Our History - Carved in blue - TENCEL™
Lyocell is the generic name for a new generation of cellulosic fibers that are made by a solvent spinning process, and TENCEL™ is the brand name. This was the ...Missing: etymology | Show results with:etymology
[19]
FTC Approves "Lyocell" for Use in Fabric Content Labeling
Apr 12, 1996 · Today, the Commission announced that it has formally amended the textile rules to add lyocell as a subclass of rayon. Courtaulds is based in ...Missing: classification ISO regenerated cellulosic
[20]
Cellulose Solvents – Remarkable History, Bright Future
Feb 23, 2010 · The paper summarizes different approaches for the dissolution of cellulose and the use of these cellulose solutions for analysis, regeneration, and homogeneous ...
[21]
US4246221A - Process for shaped cellulose article prepared from a ...
The invention is especially concerned with the preparation of a cellulose fiber from a solution containing cellulose dissolved in a tertiary amine N-oxide ...
[22]
Lenzing Celebrates 20 Years of Tencel - Knitting Industry
The first large production facility for lyocell fibres was put into operation in Mobile, Alabama in the USA in 1992 and today the Lenzing Group manufactures ...
[23]
Lenzing Acquires Tencel - Textile World
Jun 1, 2004 · Lenzing AG, Austria, producer of Lyocell® and other man-made cellulosic fibers, has acquired lyocell producer Tencel Ltd. and its entire ...
[24]
History - Lenzing
Market launch of the pioneering TENCEL™ Modal fiber with Indigo Color technology ... Picture shows exterior view of the Lenzing site in Mobile, Alabama.Missing: Courtaulds 1992
[25]
[PDF] Preferred Fiber & Materials Market Report 2019 - Textile Exchange
Lenzing announced in June 2019 that it will build the world's largest lyocell plant with an annual production capacity of. 100,000 mt in Thailand. In 2018 ...
[26]
Lenzing's Tencel Gets Awards For Environmentally Responsible ...
Aug 25, 2009 · Lenzing's Tencel Gets Awards For Environmentally Responsible Products. Lenzing announces Tencel nabs European and Nordic Eco-Label. August 25 ...<|separator|>
[27]
Certificates Page - Lenzing Pro
LENZING™ fibers are certified with the EU Ecolabel for Textile Products* (2014/350/EU). License number AT/016/001.Missing: date | Show results with:date
[28]
Lyocell weaves the fabric of a truly sustainable fashion future
Nov 22, 2021 · Currently, the total global production capacity of lyocell is 0.54m tonnes, with China accounting for almost 50%. With lyocell's technology ...Missing: 2010 | Show results with:2010
[29]
Lyocell Fiber Market to Reach USD 3.43 Billion by 2032, Driven by ...
Jan 8, 2025 · With a projected compound annual growth rate (CAGR) of 10.20%, the market is expected to reach an impressive valuation of USD 3.43 billion by 2032.Missing: bio- | Show results with:bio-
[30]
Eco-friendly Lyocell Fiber 2025-2033 Analysis: Trends, Competitor ...
Rating 4.8 (1,980) Oct 21, 2025 · Bio-based and Recycled Lyocell: Research and development are increasingly focused on incorporating recycled content into lyocell production ...
[31]
Unlocking the potential of bio-based textiles - EU Science Hub
Feb 5, 2025 · Largely biodegradable and renewable, bio-based textiles offer an alternative for a lower environmental impact.Textiles Are All Around Us · What Are Bio-Based Textiles? · What Is The Eu Doing?Missing: variants 2020s regulations
[32]
Preparation and performance characterization of Lyocell grade ...
Oct 24, 2024 · The α-cellulose content of obtained Lyocell grade dissolving pulp reached 92.2% and 92.0% and the degree of polymerization (DP) of cellulose ...
[33]
(PDF) Dissolving Pulp From Eucalyptus Sawdust For Regenerated ...
PDF | This study assesses the possibility of obtaining regenerated cellulose products (beads and films) from eucalyptus sawdust dissolving pulps.
[34]
Products - Dissolving Pulp - Specialty Cellulose in Bahia, Bleached ...
Bracell produces dissolving pulp (rayon-grades), specialty cellulose, and bleached eucalyptus kraft pulp for paper. Dissolving pulp is used in fabrics and ...
[35]
Cellulose (dissolving pulp) manufacturing processes and properties
During the prehydrolysis stage, a majority of hemicelluloses and a portion of lignin are removed from the wood chips, due to auto-hydrolysis initiated by the ...
[36]
Alkalization of Kraft Pulps from Pine and Eucalyptus and Its Effect on ...
Jul 31, 2022 · Dissolving-grade pulps, which are mainly used to produce cellulose-derivatives, refers to a source of high-purity cellulose, with a low amount ...
[37]
[PDF] Transforming non-wood feedstocks into dissolving pulp via ...
Oct 27, 2023 · DSP refers to a pulp with a high content of cellulose (>90%), and low amounts of lignin (<0.1%), hemicelluloses (<2.5%), and ash (<0.1%). ...
[38]
What are TENCEL™ Lyocell and Modal Fibers
TENCEL™ Lyocell and Modal fibers are lower-environmental impact, high-comfort, regenerated cellulosic fibers made from responsibly sourced wood. Lyocell has a ...
[39]
Material Guide: What Is TENCEL Lyocell? And Is It Sustainable?
Sep 7, 2023 · ... pulp sourced from endangered and ancient forests. Lenzing AG states it sources from more sustainably-managed PEFC or FSC tree plantations.
[40]
Lyocell Process - an overview | ScienceDirect Topics
One key property is the potential to fibrillate, where the wet fibre, through abrasive action, develops microfibrils (or tiny fibres) on its surface. By ...<|separator|>
[41]
https://www.tencel.com/fibers
[42]
An Analysis of Lyocell Fiber Formation as a Melt–spinning Process
It was found that the Lyocell process can be considered as both a melt–spinning process in the air gap and a wet-spinning process in the coagulation bath.
[43]
Schematic diagram of Lyocell fiber spinning process - ResearchGate
The concentration of NMMO in coagulation bath was 20 wt% and temperature of coagulation bath was 25 °C.
[44]
[PDF] Manufacturing and Usage of Lyocell Fabric
The moisture regain of lyocell fibre is around 11%, which is a bit lower than that of viscose rayon [28]. This is mostly due to the higher cellulose.
[45]
Recovery of N-Methylmorpholine N-Oxide (NMMO) in Lyocell Fibre ...
The L-MMCF production process includes three main steps: pulp dissolution, fibre formation, and NMMO recovery (Figure 2). Fibers 13 00003 g002. Figure 2. The ...
[46]
Properties, Production, and Recycling of Regenerated Cellulose ...
Lyocell fibers are a type of regenerated cellulose fiber known for their eco-friendly production process and superior performance characteristics. Lyocell is a ...<|control11|><|separator|>
[47]
Chemicals - Lenzing
On the basis of the Lenzing technology, the recovery rate for this valuable and expensive chemical is more than 99 percent.Chemical Recovery · Regional Chemical Sourcing · Wood And Dissolving Wood...
[48]
Lyocell fibre production using NMMO – A simulation-based techno ...
The process for producing Lyocell fibres from dissolving grade pulps using N-Methylmorpholine N-oxide (NMMO) as solvent is by now well developed.
[49]
Tencel® Lyocell Fiber - Engineered Fibers Technology.
High tensile strength (2X rayon dry / 3X rayon wet) · Highly absorbent · High wet and dry modulus · Round Cross Section · Swells radially when wet · Easily dyeable ...Missing: abrasion fatigue resistance
[50]
[PDF] Lyocell multifilament - European Patent Office - EP 1500724 B1
Sep 2, 2009 · [0013] Preferably, the tensile tenacity of the said lyocell multifilament is 4.5-10.0 g/d. [0014] Preferably, the number of interlacing per ...
[51]
[PDF] Lyocell Fibers from Pulps with High Mannan and Xylan Content
In this study, a higher share of xylan compared to man- nan favored fiber strength properties, both dry fiber elongation and dry fiber tenacity as can be seen ...Missing: den abrasion fatigue resistance<|control11|><|separator|>
[52]
The new trend fiber Lyocell: everything you need to know about it
Jun 22, 2022 · Lyocell is very robust and abrasion-resistant, yet soft and flowing. Lyocell has a temperature-regulating and antibacterial effect, is ...Missing: fatigue | Show results with:fatigue<|control11|><|separator|>
[53]
Rayon vs Viscose Fabric: Key Differences Explained
Sep 4, 2025 · Retains 80–90% wet strength, allowing machine wash durability. Lyocell: 4.0–4.5 g/den dry strength, retaining 90–95% wet strength, ideal for ...
[54]
Thermaldegradation of lyocell, modal and viscose fibers under ...
Aug 5, 2025 · Thermal analysis shows wide exothermic processes that began between 250 and 300C corresponding to the main thermal degradation and are ...Missing: point | Show results with:point
[55]
Relaxation phenomenon and swelling behavior of regenerated ...
May 1, 2021 · The glass transition temperature (Tg) of dry regenerated cellulose (rayon 552 K, cupra 523 K, lyocell 513 K) decreases to room temperature by ...
[56]
Thermal behaviour of lyocell fibres - ScienceDirect.com
Lyocell fibres shrink with direct heating in the temperature range 130–160 °C. The crystallinity decreases gradually with increasing temperature.
[57]
Ramie vs Tencel: Biodegradable Packaging Compared
Sep 7, 2025 · Tencel (Lyocell) Dry tensile strength: 420–500 MPa (CI ~70–75%). Wet strength retention: 85–90%, exceeding viscose rayon (~50–60%). Advantage: ...Missing: laundering | Show results with:laundering
[58]
A kinetic study of moisture sorption and desorption on lyocell fibers
Aug 9, 2025 · Lyocell fiber showed a higher equilibrium moisture regain of 9.23%w/w at 60% relative humidity compared to 5.54%w/w for the cotton.
[59]
Preparation and properties of highly efficient flame-retardant Lyocell ...
In addition, the modified fabric had favorable chemical resistance without mechanical deterioration within the pH range of 1 to 13. Besides, L-Trp@PA/TPEP ...<|separator|>
[60]
[PDF] Enzymatic Treatment of Man-made Cellulosic Fabrics - P2 InfoHouse
with low heat. Enzyme treatment of lyocell reduced its tendency to fibrillate, improved the surface smoothness, softness, drape and launderability.
[61]
Enzymatic textile bleaching compositions and methods of use thereof
The enzymatic bleaching compositions and methods are particularly useful for bleaching textiles containing fibers that are sensitive to high pH and temperature ...
[62]
Biodegradability of all-cellulose composite laminates - ScienceDirect
All-cellulose composites are characterised by exceptional biodegradability with mass losses of up to 73% following a soil burial time of 70 days.
[63]
Scientific Study Backs Up TENCEL™'s Biodegradability
Nov 15, 2021 · The lyocell fully biodegraded in 30 days, in contrast to the polyester fibers that developed a biofilm but remained largely the same for about ...Missing: enzymatic | Show results with:enzymatic
[64]
What is Lyocell Yarn (Tencel Yarn): Properties, Varieties, Uses ...
Sep 12, 2025 · With high strength (even when wet), breathability, moisture-wicking ability, and bacterial resistance, Lyocell yarn provides both comfort and ...
[65]
Denim - Lenzing
Lenzing's regenerated cellulosic fibers help brands and manufacturers create denim that delivers both exceptional comfort and lasting performance.How Denim Benefits From... · Lenzing's Fiber Solutions... · Tenceltm LyocellMissing: lingerie | Show results with:lingerie
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https://carvedinblue.tencel.com/scientific-study-backs-up-tencels-biodegradability/
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Lyocell Fiber - R.H. Lindsay
Lyocell is a sub category rayon fiber. It is derived from an organic solution. It is a superfine 1.5 denier and short at 1.25 inches (38mm).Missing: lingerie 1.2-1.5
[68]
Home textiles - Lenzing
Natural softness. Our TENCEL™ Lyocell and Modal fibers give fabrics an exquisitely soft handfeel enhancing the quality of sleep and home life.Missing: lingerie | Show results with:lingerie<|separator|>
[69]
Lyocell Fiber Market Report | Global Insights [2025-2033]
Home Textiles: Home textiles hold 15% of the market share, with Lyocell used in bedsheets, towels, curtains, and upholstery due to its luxurious softness, ...
[70]
[PDF] An Overview of the Dyeing Process of Lyocell Fabric and its Blends
Lyocell is a cellulosic fiber and can therefore be dyed with the same dyestuff types as other cellulosic fibers, such as reactive dyes. However, its fundamental ...Missing: compatibility | Show results with:compatibility
[71]
Preparation and properties of low fibrillated antibacterial Lyocell fiber
This is because the crystallinity of the Lyocell fiber itself is relatively high, so the longitudinal strength of the Lyocell fiber is high, making the Lyocell ...
[72]
Bioactive Lyocell Fibers with Inherent Antibacterial, Antiviral and ...
Functional Lyocell fibers gain interest in garments and technical textiles, especially when equipped with inherently bioactive features.
[73]
Wound Care Fabric Manufacturer - Sontara
Surgical Dressings, Swabs and Gauze Made with Lyocell/Polyester or natural Cotton provide the combined high absorption capacity, speed and biocompatibility ...Missing: antimicrobial variants gowns
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https://www.mdpi.com/1420-3049/29/9/2054
[75]
TENCEL™ Lyocell - HV100 - Lenzing Pro
TENCEL™ Lyocell - LF produced with Micro technology are characterized by their fine titer of 0.9 dtex, which can result in very fine yarns with higher tenacity ...
[76]
Product portfolio - Lenzing Annual and Sustainability Report 2023
Mar 15, 2024 · ... hygiene articles such as wet wipes and baby wipes. Lenzing lyocell fibers are marketed primarily under the TENCEL™ and VEOCEL™ brands.Missing: medical | Show results with:medical
[77]
3D-printed polylactide composites reinforced with short lyocell fibres
3D-printed polylactide composites reinforced with short lyocell fibres – Enhanced mechanical properties based on bio-inspired fibre fibrillation and post-print ...
[78]
Net-benefit concept - Lenzing Sustainability Report 2021
Apr 5, 2022 · The cotton material is recycled into pulp which is blended (up to 30 percent) with dissolving wood pulp to produce high-quality lyocell fibers ...Products And Technologies... · Carbon-Zero Tenceltm And... · Lenzing Fibers With Recycled...Missing: medical | Show results with:medical
[79]
Lyocell Market Size Share | Industry Growth & Forecast, 2034
The global lyocell market was valued at $575.3 million in 2010, and is projected to reach $3,267.1 million by 2034, growing at a CAGR of 8.9% from 2025 to 2034.
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Water footprint of various fibres (data from [32,33]). - ResearchGate
In a life cycle assessment study on MMCF, Shen and Patel [33] determined that the water footprint for staple fibre production was between 84-143 L/kg for ...
[81]
[PDF] TENCEL™ Lyocell
Water Consumption. Biogenic Carbon Content. TENCEL™ Lyocell. 3.16 kg CO2 eq. 0.002 kg PO43- eq. 0.765 m³ world eq. 4 units. 45.3 MJ. 47.9 kg. 0.39 kg C | 1.4 kg ...
[82]
How Sustainable Are Lyocell Fabrics? A Life-Cycle Analysis
Manufacturing lyocell fabrics is energy-intensive, which could have serious knock-on ecological impacts if fossil fuels are the main energy sources at the ...
[83]
Advantages Of Lyocell For Sustainable Fashion Brands - Friendtex
Sep 23, 2025 · Durability · After 10 washing cycles, the lyocell fabric still performs well. · Even after 50 washes, it keeps its strength and UV resistance.Missing: phase laundering
[84]
End of life in the natural cycle: Biodegradability of LENZING™ fibers
LENZING™ fibers are inherently biodegradable, compostable, and fully degradable in controlled anaerobic waste treatment. They biodegrade in the ocean within 30 ...Missing: OECD 301B
[85]
Profitable and environmentally responsible recycling of fibers and ...
Nov 1, 2023 · The high molecular weight makes 100% recycled lyocell fibers tougher than wood-derived lyocell. The material and energy costs to obtain ...
[86]
Hot Button Report Executive Summary - Canopy Planet
In 2025, 59% of producers have either an internal traceability system (such as DNA markers) or use an external traceability platform. While most producers have ...
[87]
Viscose, Rayon, Modal, Lyocell, Cupro: Decoding Man-Made Textiles
Jan 22, 2025 · Compared with the viscose process, Lyocell is prepared by directly dissolving cellulose pulp in a non-toxic, non-derivative organic NMMO solvent ...Missing: synonyms generation
[88]
Differences Between Lyocell Fiber And Viscose Fiber in Spunlace ...
Jun 20, 2025 · Moderate dry strength (~2.5–3.0 cN/dtex), but wet strength decreases significantly (wet strength retention only 50%–60%), prone to deformation ...Missing: reduction energy savings
[89]
https://www.earthday.org/viscose-rayon-modal-lyocell-crupo-decoding-man-made-textiles/
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Wearing Quality of Ribbed Knits Made from Viscose and Lyocell ...
Sep 30, 2024 · The results showed that lyocell rib knits have better structural uniformity, tensile properties, dimensional stability, air permeability, lower abrasion ...
[91]
Carbon disulphide and hydrogen sulphide emissions from viscose ...
Production of non-viscose rayon fibre by other methods viz. Cuprammonium and Lyocell methods, do not emit CS2 or H2S and therefore, were not considered in this ...
[92]
Lyocell Price Trend in China Market: 2025 Outlook - Accio
Sep 17, 2025 · Lyocell prices remained 15–20% higher than viscose throughout 2024–2025, reflecting its premium positioning 3 . · The narrowing price gap in 2025 ...
[93]
Eucalyptus - Biomass Connect
When planted in favourable locations, growth rate can be 2 – 3m per year and can be harvested from 4-6 years onward. Based on an 8-10 year rotation, data ...
[94]
Pesticides & crop protection in cotton farming: what BCI is doing
Cotton farming accounts for 4.7% of the world's pesticide and 10% of its insecticides sales – far higher than its comparative land use.
[95]
(PDF) Polylactic acid/Lyocell fibre as an eco-friendly alternative to ...
Jun 3, 2019 · ... Fineness (dtex) 1.66 1.60 1.81 (4.6 mg.inch. –1. ) 1.40. Tenacity (cN.tex ... However, the relation between Tencel fiber properties and fabric ...
[96]
Fabric Preferences of Atopic Dermatitis Patients - PubMed
Conclusion: Lyocell is superior to cotton in many performance characteristics and equivalent to cotton for itch reduction. Lyocell is currently available as a ...
[97]
A water footprint assessment of a pair of jeans - ScienceDirect.com
Oct 15, 2013 · They found that Cellulose-based Lyocell fiber has a notably lower water consumption than cotton fibers. Lyocell fiber required on average 1384, ...
[98]
Environmental sustainability of cotton: a systematic literature review ...
Growing cotton can lead to significant water depletion, depending on the location. •. Organic cotton farming has lower impacts per area, but higher per mass. •.3. Results And Discussion · 3.1. Lcas Of Cotton Cropping... · 3.3. Lcas Of Cotton Textile...
[99]
Lyocell blends - additional benefits for the textile industry
The textile properties of lyocell are comparable to those of high-quality, long-staple cotton and are even superior to this in some cases. Lyocell is an ...