Canada Technical Textile Market Overview, 2030

Canada began to introduce nonwoven technical textiles for healthcare, notably in reaction to rising worries about infection control in hospitals in the late 1960s and early 1970s. Improvements in single-use medical items in the 1980s such as surgical gowns, drapes, and masks items that depend greatly on nonwoven fabrics for their barrier qualities, breathability, and cost-effectiveness boosted the acceptance of nonwoven textiles. The manufacture of these nonwovens for domestic healthcare and export markets was spearheaded by Canadian businesses like Texel and FIBREX. The demand for thermal insulating technical textiles, notably in the building, outdoor gear, and garment sectors, has been greatly impacted by Canada's harsh and variable climate. Technical textiles that offer outstanding insulation, moisture management, and wind resistance are necessary in many provinces where the winters are lengthy and the temperatures are below zero. In a variety of applications, including winter coats and building wraps, insulated textiles like multi-layer laminates, phase-change materials PCMs, and Thinsulate are utilized to help reduce energy consumption and provide comfort and safety in harsh environments. The National Research Council of Canada NRC and university textile labs such as those at the University of Alberta and UBC are two of the Canadian research centers that are crucial to promoting innovation. These establishments collaborate with business to create sustainable composites, intelligent textiles, and biodegradable performance materials for a variety of industries, including the military, transportation, and healthcare. The longevity, protection, and adherence to safety standards in these industries all depend on the use of performance-based materials. Technical textiles have provided lightweight, high-performance alternatives to conventional materials, solving a number of logistical challenges in the Arctic and other far-off locations. These include thermal sleeping systems, geotextiles for infrastructure, portable insulated shelters, and durable PPE for cold-weather activities, all of which increase mobility, lower transportation expenses, and help ensure survival in remote locations.

According to the research report, ""Canada Technical Textile Market Overview, 2030,"" published by Bonafide Research, the Canada Technical Textile market is anticipated to add to more than USD 1.72 Billion by 2025–30. Technical textiles are mostly utilized in Canada by the healthcare, building, military, mining, agricultural, and outdoor leisure sectors. Demand from the transportation, construction, and healthcare sectors is driving this consistent expansion. Recent industry-academia collaborations have hastened innovation. For instance, through research internships and applied projects covering performance and medical textiles, Mitacs connects universities with private companies. In the meantime, academic researchers like Dr. Joanna Berzowska at Concordia University are conducting groundbreaking research in e-textiles, pushing the boundaries of interactive, sensor-integrated materials because of its manufacturing footprint in Canada and around the world, Albany International is a prominent company that specializes in producing aerospace composite materials and industrial felts. Other significant domestic players include filtration experts such Core Fabrics and rising niche innovators who are concentrating on outdoor and performance textiles. The growth of the healthcare infrastructure and the aging population in Canada offer a great potential in the field of medical textiles. Local production can meet a critical and growing domestic need while reducing dependency on imports due to rising demand for wound-care dressings, surgical disposables, and protective apparel. Canadian textile goods used in hospitals must adhere to Health Canada rules, such as medical device licenses for Class I and II devices, and fulfill requirements for biocompatibility, such as those of the ISO 10993 standard. Furthermore, compliance with the requirements of the CSA Group certification and the CSAZ299 standard guarantees safety and efficiency in healthcare settings.

Technical textiles in Canada by material is divided into natural fibers, synthetic fibers, minerals, metals, regenerated fibers, and others, each of which has its own unique industrial uses depending on its fundamental qualities. The expanding eco-conscious manufacturing sector in Canada prefers cotton, jute, hemp, flax, and other natural fibers. These fibers are biodegradable, renewable, and seeing more use in composites, geotextiles, and insulation. To lessen environmental effect, locally grown hemp and flax in some regions of Canada are being used in agri-textiles, building materials, and automotive panels because of their strength, adaptability, and weather resistance, synthetic fibers are the main material used in the Canadian technical textiles industry. Polyester, nylon, and aramids such as Kevlar and Nomex are frequently used in industrial filtration, aerospace parts, automobile interiors, and protective apparel. They are perfect for the demanding applications and harsh conditions of Canada due to their resilience and resistance to moisture and chemicals. In the building industry and infrastructure, mineral fibers like fiberglass and basalt are essential. These materials are utilized in building and industrial machinery for thermal and sound insulation in Canada's climate, where energy efficiency is crucial. Certain applications, like electromagnetic shielding, intelligent textiles, and heating components, make use of stainless steel and aluminum as examples of metal fibers. These fibers are employed in high-tech manufacturing, electronics, and military fabrics, where conductivity and strength are critical. In hygiene products, medical fabrics, and clothing, regenerated fibers such as viscose and lyocell are becoming increasingly popular. They are still biodegradable yet provide moisture control and softness. In the aerospace industry, sports gear, and green composites, other materials like biodegradable polymers such as PLA and carbon fiber are utilized.

By interlacing warp and weft threads in a regulated manner, woven technical textiles are created, resulting in materials with great dimensional stability and tensile strength. These are widely used in Canada for industrial conveyor belts, ballistic protection, military textiles, and geotextiles for building roads and dams. Due to their strength and stiffness, they are perfect for use in high-stress, long-term applications, particularly in infrastructure projects that require a high level of resilience to extreme weather. Interloping fibers create knitted technical fabrics, which have excellent elasticity and breathability. These textiles are widely used in sports apparel, medical applications such bandages and compression clothes, and personal protective gear. Canadian businesses and research institutions have been looking at knitted e-textiles, which combine sensors and conductive fibers for applications in remote patient monitoring and intelligent apparel, notably in healthcare innovation and geriatric care. By combining fibers using thermal, mechanical, or chemical processes, nonwoven textiles are created, which allows for high-speed, low-cost manufacturing. Nonwovens are essential to the healthcare industry in Canada, especially for disposable items such as masks, gowns, wipes, and drapes. In order to ensure self-sufficiency in PPE during the COVID-19 epidemic, domestic nonwoven production increased significantly. Nonwovens are used in the production of hygiene products, automotive insulation, filtration, and building coverings. In specialized and high-performance markets, methods like 3D weaving, tufting, and braiding are employed. While 3D woven textiles are used to support things like ballistic vests, aircraft parts, and sports gear, braided textiles are used in medical sutures, aerospace cables, and composite reinforcements. With accuracy and creativity, Canada's technical textiles industry is able to satisfy complicated industrial needs thanks to these specialized skills.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Technical Textile Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Material
• Natural Fiber
• Synthethic Fiber
• Minerals
• Metals
• Regenerated Fibers
• Others

By Process
• Woven
• Knitted
• Non-Woven
• Others Show more