Last Updated: Aggregation Period:Nov 12, 2025~Dec 09, 2025
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High-strength, high-elasticity large toe 50K fibers are used in automotive, aerospace, and wind power applications.
Introducing SIGRAFIL C (carbon fiber) products. SIGRAFIL C, made from PAN (polyacrylonitrile), is a high-strength, high-elasticity carbon fiber. 【Products Available】 ◎ Long fiber 50K *For more details, please request a document or view the PDF data available for download.
Biodegradable (AES) fiber series excluded from carcinogenic classification under EU Directive 97/69/EC.
The "Bio-series" is a series of biodegradable (AES) fiber products that have been excluded from carcinogenic classification under EU Directive 97/69/EC. They are used as alternatives to Refractory Ceramic Fibers (RCF). We offer a range of products including "Bio-BALCON (crosses, ribbons, ropes, etc.)" which is ideal for applications such as covering yarns, pipe protection materials, and fireproof packing, and "Biosol Fiber (#1140 blanket / #1140 paper / #1140 board)" which excels in thermal insulation. ★ We are currently offering free samples exclusively to those who contact us through Ipros! Please take this opportunity to try them out! 【Biosol Fiber Features】 ○ Excellent thermal insulation ○ Superior thermal stability ○ Flexible *For more details, please contact us or download the catalog.
Refined, instant-dissolving acacia gum. Widely applicable from food to pharmaceutical and industrial uses.
The EH series of spray-dried acacia gum is a powdered type of water-soluble fiber made from high-quality materials derived from Acacia Senegal and Acacia Seyal, processed with refined techniques according to their applications. EH-SD010 excels in emulsification and is ideal for confectionery and pharmaceutical applications. EH-SD020 and SD022 are derived from Seyal and are developed for coating and industrial applications. Furthermore, the EH-AG series (011, 021, 023D) is dust-free, dissolves instantly, is easy to handle, and possesses high purity and stability. It is excellent in water solubility, glossiness, and emulsification, making it suitable for various fields such as pharmaceuticals, food, dietary supplements, and coatings.
It is expected to be utilized as a highly functional plant-derived material.
Yarn 30/1・40/1・40/2 Product Case T-shirts, knit products, towels, baby clothes (ponchos, knits, towel blankets), etc. Description By combining cotton with PlaX Fiber, it is possible to retain the softness and texture unique to cotton while adding the functionality of PlaX. Its use as a high-performance plant-based material is anticipated.
We aim to utilize 100% plant-derived materials.
Yarn 30/1・40/1・40/2 Product Case T-shirts, knit products, bottoms, socks, etc. Description PlaX Fiber, modified from polylactic acid (PLA) resin using Bioworks' unique technology, achieves dyeability and heat resistance that conventional PLA could not, in addition to features such as antibacterial properties and weak acidity. It aims to be utilized as a 100% plant-based material, serving as an alternative to petroleum-derived materials like polyester and nylon.
PlaX Fiber is expected to be utilized in a wide range of applications by combining it with various fibers.
Yarn 30/1・40/1・40/2 Product Case Shirts, suits, outerwear, bottoms, etc. Description PlaX Fiber is expected to be utilized in a wide range of applications by combining it with various fibers. By multiplying with different materials, the functionality derived from PlaX is anticipated to enhance the appeal of the material, leading to an upgrade to a more attractive fabric.
Thermal decomposition using alkali hydroxide! Promoting the decomposition of resin without breaking down carbon fibers.
"Development of Technology for Recovery and Reutilization of Carbon Fibers from Waste CFRP Using Alkaline Hydroxide" is a document about research that promotes the decomposition of resin without breaking down carbon fibers by conducting thermal decomposition of CFRP (carbon fiber reinforced plastic), which is a composite material made of carbon fibers and resin, in the presence of alkaline hydroxide. It provides detailed explanations on the research background, objectives, the effects of thermal treatment on carbon fibers in the presence of sodium hydroxide, as well as experimental results such as the strength evaluation of recovered carbon fibers. Comparisons with combustion methods and applications to various products are also included with accompanying photographs. [Contents (Excerpt)] ■ Research Background ■ Experimental Samples ■ Experiment 1: Effects of Thermal Treatment on Carbon Fibers in the Presence of Sodium Hydroxide ■ Results (Effects of NaOH Addition Ratio and Heating Temperature) ■ Results (Analysis by SEM) *For more details, please refer to the PDF document or feel free to contact us.
![[Market Report] Synthetic Fiber Market](https://image.mono.ipros.com/public/product/image/c80/2001232245/IPROS34657841070875990255.png?w=280&h=280)
The global market for synthetic fibers is expected to grow from 59.98 billion USD to 117.9 billion USD at a CAGR of 7% from 2021 to 2030.
The global market for synthetic fibers was valued at $59.98 billion in 2020 and is expected to grow in the coming years. During the forecast period from 2021 to 2030, it is projected to grow at a compound annual growth rate (CAGR) of 7%, reaching $117.9 billion by 2030. Market Trends: Synthetic fibers are produced through the chemical processing of polymers derived from petroleum or coal, or through the chemical modification of natural materials. Synthetic fibers such as nylon, polyester, and acrylic are widely used as alternatives to natural fibers, and their cost-effectiveness and ease of mass production make them valuable across various industries. Technological Innovations: The growth of the synthetic fiber market is further accelerated by technological innovations. New manufacturing techniques and material improvements have enhanced the quality and performance of synthetic fibers, leading to the development of environmentally friendly products. This has increased demand for sustainable products, and market expansion is anticipated. For application methods, please check the [PDF download] button or apply directly through the related links.
![[Market Report] SiC Fiber Market](https://image.mono.ipros.com/public/product/image/e58/2001232222/IPROS81856120262009085842.png?w=280&h=280)
The Wave of Silicon Carbide: The Global SiC Fiber Market is Rapidly Growing from $380 Million to $2.1 Billion with a 19% CAGR (2021-2030)
The global SiC (silicon carbide) fiber market size in 2020 was $380 million. It is projected to grow at a compound annual growth rate (CAGR) of 19% from the forecast period of 2021 to 2030, reaching $2.1 billion by 2030. Market Trends SiC fibers are advanced materials with excellent properties such as high rigidity, high tensile strength, chemical resistance, and low thermal expansion. These characteristics make SiC fibers attractive in a wide range of fields, including aerospace, automotive, energy, and industrial applications. They are particularly suitable for use in extreme environments, as they can withstand high temperatures (up to 2700 degrees Fahrenheit). Technological Innovations Advanced technologies such as the Yajima process, chemical vapor deposition (CVD), and laser-driven chemical vapor deposition (LCVD) are utilized in the manufacturing of SiC fibers. Advances in these technologies have improved the quality and performance of SiC fibers, supporting market growth. Additionally, active research and development are underway, and further expansion of SiC fiber applications is expected. For application methods, please check the [PDF download] button or apply directly through the related links.
![[Case Study of Cratec] SEED Form](https://image.mono.ipros.com/public/product/image/2f0/2001142140/IPROS14130634407536808486.jpg?w=280&h=280)
Improving the durability of concrete structures! Case studies utilizing precast formwork.
We would like to introduce examples of the utilization of our vinyl fiber "Kratec" for mortar and concrete reinforcement. This product is used in the precast formwork "SEED Form," ensuring sufficient flexural strength and improving the durability of concrete structures. Since it is based on a low water-cement ratio mortar, it has a high resistance to the intrusion of corrosive factors such as salt, carbon dioxide, and oxygen, thereby enhancing the durability of the structures. 【Kratec Features】 ■ Achieves long lifespan for mortar and concrete ■ Adds short fibers to mortar and concrete for fiber reinforcement ■ Maintains high loads after initial cracking ■ High strength and high elastic modulus ■ High adhesion to cement particles and alkali resistance *For more details, please refer to the related links or feel free to contact us.
![[Research Material] The Global Market for Rayon-Based Carbon Fibers](https://image.mono.ipros.com/public/product/image/c3c/2001473108/IPROS80324678232513888855.jpeg?w=280&h=280)
World Market for Rayon-Based Carbon Fiber: Long Fiber, Short Fiber, Energy, Pharmaceuticals, Aerospace, Others
This research report (Global Rayon-Based Carbon Fiber Market) investigates and analyzes the current state and outlook for the next five years of the global rayon-based carbon fiber market. It includes information on the overview of the global rayon-based carbon fiber market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The market segments by type include long fibers and short fibers, while the segments by application cover energy, pharmaceuticals, aerospace, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of rayon-based carbon fibers. It also includes the market share of major companies in the rayon-based carbon fiber market, product and business overviews, and sales performance.
![[Research Material] World Market for Viscose Fibers](https://image.mono.ipros.com/public/product/image/dd0/2001476127/IPROS52840690944525328882.jpeg?w=280&h=280)
World Market for Viscose Fibers: Viscose Filament Yarn, Viscose Staple Fiber, Apparel, Spun Fabrics, Home Textiles, Medical ...
This research report (Global Viscose Fiber Market) investigates and analyzes the current state of the global viscose fiber market and its outlook for the next five years. It includes information on the overview of the global viscose fiber market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the viscose fiber market focus on viscose filament yarn and viscose staple fiber, while the segments by application cover apparel, spun yarn, home textiles, medical textiles, and industrial textiles. The regional segments calculate the market size of viscose fibers by dividing them into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa. It also includes the market share of major companies in the viscose fiber market, product and business overviews, and sales performance.
![[Research Material] World Market for Cellulose Fibers](https://image.mono.ipros.com/public/product/image/a57/2001458805/IPROS25848470459279829068.jpeg?w=280&h=280)
World Market for Cellulose Fibers: Natural Cellulose Fibers, Artificial Cellulose Fibers, Apparel, Home Textiles, Industrial, Others
This research report (Global Cellulose Fiber Market) investigates and analyzes the current state and outlook for the global cellulose fiber market over the next five years. It includes information on the overview of the global cellulose fiber market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the cellulose fiber market focus on natural cellulose fibers and artificial cellulose fibers, while the segments by application cover apparel, home textiles, industrial, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of cellulose fibers. It also includes the market share of major companies in the cellulose fiber sector, product and business overviews, and sales performance.
![[Research Material] Global Market for Bio-based Synthetic Fibers](https://image.mono.ipros.com/public/product/image/623/2001472123/IPROS86439905314067951051.jpeg?w=280&h=280)
Global Market for Bio-based Synthetic Fibers: PLA, PTT, PET, PA, Others, Clothing, Protective Areas, Bags & Suitcases, Others
This research report (Global Bio-based Synthetic Fibers Market) investigates and analyzes the current state and outlook for the global market of bio-based synthetic fibers over the next five years. It includes information on the overview of the global bio-based synthetic fibers market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the bio-based synthetic fibers market include PLA, PTT, PET, PA, and others, while the segments by application cover clothing, protective areas, bags and suitcases, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of bio-based synthetic fibers. It also includes the market share of major companies in bio-based synthetic fibers, product and business overviews, and sales performance.
![[Research Material] Global Market for Bio-based Polyamide Fibers](https://image.mono.ipros.com/public/product/image/633/2000839263/IPROS09834183560607524460.jpeg?w=280&h=280)
Global Market for Bio-based Polyamide Fibers: PA6, PA66, PA69, PA11, Others, Clothing, Protective Areas, Bags & Suits ...
This research report (Global Bio-based Polyamide Fiber Market) investigates and analyzes the current state of the global bio-based polyamide fiber market and its outlook for the next five years. It includes information on the overview of the global bio-based polyamide fiber market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The market segments by type include PA6, PA66, PA69, PA11, and others, while the segments by application cover clothing, protective areas, bags and suitcases, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of bio-based polyamide fibers. It also includes the market share of major companies in the bio-based polyamide fiber sector, product and business overviews, and sales performance.
