1、Textile & Leather Coatings

Our additives enhance water-based and solvent-based leather coatings for the automotive, garment, upholstery and other industries. We specialize in developing solutions that improve the performance, durability and environmental profile of your leather finishes.

2、Engineered, environmentally friendly leather

Vegan fashion is on the rise, and the emergence of leather-like bio-based materials as a new type of leather substitute material is in line with the expectations of environmentally conscious consumers who care about environmental protection and animal rights.

3、allnex introduces its game

Energy curable resins are poised to transform the way we coat and protect textile and leather substrates, offering significant environmental benefits and performance advantages.

The Use of Q Resins and Other Modern Silicon Crosslinking Moieties to

In this paper, we will concentrate on different ways to treat surfaces with various silicone approaches to achieve hydrophobicity. A series of reactive Q and T resins, Si(OR)4 and R’(SiOR)3 based units respectively, are formulated with reactive silicone polymers.

Textile and Leather Additives, Polyether Modified Silicone

Leather and Textile Topwin is specialized in manufacturing silicone-based functional products and a professional technical service provider.The company gains competitive advantages from its founders who are sophisticated industrial players in both upstream and downstream supply chain.

Modern Technology of Synthetic Resins & Their Applications (2nd

Since they are more stable and are cheaper, various forms of synthetic resin are used in a variety of products such as plastics, paints, varnishes, and textiles. There are various kinds of synthetic resins; acetal resins, amino resins, casein resins, epoxy resins, hydrocarbon resins, polyamide resins, etc.

Modifications of Textile Materials with Functional Silanes, Liquid

The properties of textile materials modified with silanes and silicones and their practical and potential applications, mainly in the textile industry, have been discussed.

PU Knowledge

PU leather is abbreviation for “polyurethane synthetic leather,” a type of faux leather made of liquid PU resin coated over or laminated with a substrate, usually textile.

A review on polyurethane based multifunctional materials synthesis for

Polyurethanes (PUs) are among the most commonly used, versatile, and scientifically studied polymer in the world. It is an essential polymer to mitigate day to day demands of modern society. Polyurethane became popular in the textile industry as environmentally friendly coating materials.

Preparation and properties of multifunctional polyurethane synthetic

Leather is a denatured and non-perishable animal skin obtained by physical and chemical processing such as depilation and tanning. Its high air permeability, biocompatibility, excellent flexibility and wearing comfort make it widely used [1].

In today’s rapidly evolving era, advancements in material science have revolutionized industries across the board. Among them, polymer materials have found widespread applications, and textile and leather modified resin, a critical subset of these materials, plays a pivotal role in the textile and leather sectors. Below, we delve into the key aspects of this specialized resin.

1. Definition and Composition Textile and leather modified resin is a polymer material designed to enhance the performance of textiles and leather products. It typically comprises a blend of chemical components, including a resin matrix, plasticizers, stabilizers, fillers, and other additives. These ingredients work synergistically to impart specific physical and chemical properties, such as improved abrasion resistance, enhanced water repellency, higher gloss, and superior tactile feel.

2. Classification and Applications Based on chemical composition and industrial use, textile and leather modified resins can be categorized as follows:

1. Thermoplastic Polyester Modified Resin: Known for its toughness and processability, it is commonly used in products like sports shoe soles and automotive interior parts.
2. Thermosetting Polyurethane Modified Resin: Offers high hardness and wear resistance, widely applied in furniture, footwear, and other durable goods.
3. Epoxy Resin Modified Resin: Renowned for its corrosion resistance and adhesive properties, it is often utilized in structural materials for ships, bridges, and construction.
4. Acrylic Modified Resin: Provides excellent weather resistance and decorative finishes, making it popular in architectural coatings and plastic films.

3. Production Process Manufacturing textile and leather modified resin involves several intricate steps:

• Raw Material Selection: Ensuring all components meet quality standards is critical.
• Melt Mixing: Different ingredients are uniformly blended through melt-mixing, a step that determines the final product’s quality.
• Pelletizing and Drying: The mixture is processed into pellets of desired size via granulation, drying, and crushing.
• Packaging: Pellets are packaged for convenient transportation and storage.

4. Factors Affecting Performance

• Formulation Design: Variations in ingredient ratios directly impact mechanical strength, heat resistance, and chemical stability.
• Processing Techniques: Parameters like extrusion speed and cooling time significantly influence product properties.
• Environmental Conditions: Temperature and humidity during production must be strictly controlled to avoid performance deviations.

5. Environmental Sustainability As environmental awareness grows, sustainable practices are increasingly prioritized in resin production. This includes:

• Using renewable raw materials.
• Reducing energy consumption and emissions.
• Recycling waste products. Additionally, developing low-VOC (volatile organic compound) formulations is a key strategy for achieving greener manufacturing.

Textile and leather modified resin is an indispensable advanced material in modern industry. Its quality directly affects the durability and market value of textile and leather products, while also influencing production efficiency and economic returns. Continuous optimization of manufacturing processes, innovation in product applications, and adherence to eco-friendly principles will drive future growth in this field.