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Textile Chemicals/Auxiliary Wholesale

About Us Premium Quality Since 1987

Zhejiang Liaoxiang New Material Technology Co.,Ltd. is a professional China Textile Chemicals Manufacturers and Coatings Additives Factory. and it was established in 1987, formerly known as Shaoxing Yuzhou Chemical Co., Ltd. It has an annual production capacity of 200000 tons of special surfactant series and 100000 tons of printing and dyeing auxiliary series, existing High performance polyethers for organic silicon new material modification, high-performance synthetic esters and special polyethers for high-end lubricants and metal working fluids, high-end functional surfactants for energy-saving and environmentally friendly coatings, new high-efficiency surfactants for environmentally friendly water treatment, polymer polyethers for environmentally friendly polycarboxylate water reducing agents, green new surfactants for textile printing and dyeing auxiliaries, functional spinning oils for special fibers, and high-performance multi-purpose composite materials There are sixteen major sections in China, including surface active agents for personal care, eco-safe high-end surface active agents for personal care, green and efficient surface active agents for agricultural chemical additives, functional resins for high-end environmentally-friendly new material adhesives, ecological functional surface active agents for papermaking chemicals, special polymer surface active agents for oilfield chemicals, and high-end electronic chemicals. Currently, it has a wide range of varieties and a large scale A enterprise in specialized surfactants with high technological content.

Zhejiang Liaoxiang New Material Technology Co.,Ltd.
Understand Our Products
Zhejiang Liaoxiang New Material Technology Co.,Ltd. Zhejiang Liaoxiang New Material Technology Co.,Ltd.
  • 1987

    Founded in 1987

  • 30+ years

    Industry Experience

  • 16+


  • 50+

    Conuntry Of Sale

Honorary qualifications Perfect international system certification effectively consolidates the competitiveness of the enterprise.
Textile Chemicals Industry knowledge
1.The Chemistry Behind Textile Enhancement
Textile chemicals constitute a diverse array of substances meticulously engineered to augment various aspects of fabric performance. These chemicals encompass a broad spectrum of functionalities, including dyeing agents, finishing agents, softeners, and flame retardants, among others. Each category of textile chemical serves a distinct purpose in the manufacturing process, contributing to the overall quality, appearance, and functionality of the end product.
Dyeing agents represent one of the foundational elements of textile chemistry, facilitating the application of color to raw fibers or fabrics. The process of dyeing involves the interaction between dye molecules and textile substrates, resulting in the absorption and fixation of color onto the fabric surface. Through precise control of dye chemistry and process parameters, manufacturers can achieve vibrant and uniform coloration, ensuring visual appeal and aesthetic consistency across fabric batches.
In addition to dyeing agents, finishing agents play a critical role in enhancing the performance and aesthetics of textiles. These agents encompass a diverse range of formulations designed to impart specific properties to fabrics, such as wrinkle resistance, water repellency, and stain resistance. By applying finishing agents during the textile finishing process, manufacturers can enhance the durability, functionality, and consumer appeal of textile products, ensuring they meet the rigorous demands of modern lifestyles.
Softeners represent yet another category of textile chemicals aimed at enhancing fabric comfort and feel. These compounds work by lubricating and conditioning textile fibers, resulting in a softer hand feel and improved drape characteristics. Softeners are particularly desirable for applications where comfort and tactile sensation are paramount, such as in the production of apparel, bedding, and upholstery fabrics. By incorporating softeners into textile formulations, manufacturers can enhance the overall sensory experience of consumers, fostering greater satisfaction and brand loyalty.
Flame retardants constitute a critical category of textile chemicals, especially in applications where fire safety is of paramount importance. These compounds function by reducing the flammability and combustibility of textiles, thereby enhancing their resistance to ignition and slowing the spread of flames in the event of a fire. Flame retardants are commonly utilized in the production of upholstery fabrics, automotive interiors, and protective clothing, where compliance with stringent safety standards is non-negotiable.

2.Advancements in Coatings Additives: Innovating Textile Functionality
Coatings additives represent a cutting-edge frontier in textile engineering, enabling the integration of advanced functionalities into fabrics beyond traditional chemical treatments. These additives encompass a myriad of compounds, including antimicrobial agents, UV absorbers, and conductive polymers, among others. By incorporating coatings additives into textile production processes, manufacturers can imbue fabrics with novel functionalities tailored to meet the evolving needs of consumers across diverse sectors.
Antimicrobial coatings additives have emerged as a critical solution for addressing hygiene concerns in textile applications. These additives work by inhibiting the growth and proliferation of bacteria, fungi, and other microorganisms on fabric surfaces, thereby reducing the risk of odor formation, staining, and deterioration. Antimicrobial textiles find widespread applications in healthcare settings, hospitality environments, and athletic apparel, where maintaining optimal cleanliness and hygiene standards is paramount.
UV absorbers represent another innovative category of coatings additives designed to protect textiles from the harmful effects of ultraviolet (UV) radiation. Prolonged exposure to UV radiation can lead to color fading, fabric degradation, and increased susceptibility to damage. UV absorbers function by absorbing and dissipating UV radiation, thereby mitigating its adverse effects on textile substrates. Fabrics treated with UV absorbers exhibit enhanced color retention, durability, and longevity, making them well-suited for outdoor applications, including awnings, umbrellas, and outdoor apparel.
Moreover, the integration of conductive polymers as coatings additives has unlocked new possibilities for the development of smart textiles with embedded sensing and communication capabilities. Conductive polymers exhibit electrical conductivity properties, enabling the fabrication of textile-based sensors, actuators, and electronic circuits. Smart textiles equipped with conductive coatings additives can monitor physiological parameters, detect environmental changes, and facilitate wireless communication, opening new frontiers in wearable technology, healthcare monitoring, and interactive apparel.

3.Sustainability Imperative: Navigating the Eco-Friendly Frontier
Amidst growing environmental concerns and increasing regulatory scrutiny, the textile industry is increasingly pivoting towards sustainable practices and eco-friendly formulations. The adoption of sustainable textile chemicals and coatings additives represents a pivotal step towards mitigating the industry's environmental footprint while simultaneously meeting consumer demand for ethically sourced and environmentally responsible products.
Sustainable textile chemicals and coatings additives leverage biodegradable and renewable materials, minimizing adverse environmental impacts throughout the textile lifecycle. These formulations prioritize the use of eco-friendly solvents, catalysts, and processing aids, reducing energy consumption, water usage, and waste generation during manufacturing. Furthermore, sustainable coatings additives are designed to biodegrade or degrade into non-toxic byproducts, minimizing their ecological footprint and promoting circularity within the textile value chain.
In addition to material sustainability, the adoption of eco-friendly manufacturing processes further underscores the industry's commitment to environmental stewardship. Textile manufacturers are increasingly investing in resource-efficient technologies, such as waterless dyeing, enzymatic finishing, and solvent-free coating methods, to minimize the consumption of natural resources and reduce pollution emissions. By prioritizing sustainability in chemical selection, formulation design, and production practices, textile manufacturers can minimize their environmental impact while simultaneously meeting consumer expectations for eco-conscious products.