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Australia Technical Textile Market Overview, 2030

Published Jul 31, 2025
Length 73 Pages
SKU # BORM20266396

Description

The mining and agriculture industries, both of which needed long-lasting, practical, and protective materials that could withstand severe environmental circumstances, were the driving forces behind the development of Australia's technical textile industry. Geotextiles have been used for soil stabilization and drainage in mining for a long time, whereas agriculture has embraced shade nets, crop covers, and insect barriers designed for the continent's diverse climate. These industries were instrumental in the early development of high-strength, chemically resistant textiles that can withstand harsh temperatures, UV radiation, and abrasion. Given that Australia is experiencing extended sunlight exposure and frequent bushfires, innovation in fire-retardant and UV-resistant textiles has become increasingly important. The use of modified polymers and nano-coatings has resulted in the creation of fabrics with improved UV blocking capabilities. To satisfy the safety needs of firefighters and emergency workers, fire-retardant materials, particularly in personal protective equipment PPE, now contain aramid and modacrylic fibers. These materials are used in fire blankets and structural barriers that are set up in dangerous areas. The use of technical textiles is becoming more and more prevalent in the field of bushfire protection. Fire-resistant clothing, shelter linings, and ember-resistant screens are commonly employed in fire-prone rural and peri-urban regions. The University of New South Wales and Deakin University are examples of institutions that frequently participate in public-private collaborations to promote these advancements. Their research, which is frequently conducted in conjunction with CSIRO Commonwealth Scientific and Industrial Research Organisation, focuses on fiber chemistry, protective apparel design, and biodegradable performance textiles. However, major logistical and geographical obstacles still exist. The timely distribution of technical textile products, particularly to distant mining and agricultural regions, is made difficult by Australia's large distances and dispersed population. High transportation costs and dependence on imported raw materials also limit scalability.

According to the research report, ""Australia Technical Textile Market Overview, 2030,"" published by Bonafide Research, the Australia Technical Textile market is anticipated to grow at more than 7.50% CAGR from 2025 to 2030. The expanding need in the domains of defense, PPE, agriculture, and infrastructure is primarily responsible for this rise. To develop unique textile solutions, the nation is taking advantage of its distinctive environmental issues, such bushfires, distant industrial operations, and UV exposure. Specifically, significant advancements have been made in defense-grade fabrics, including continuous development of lightweight ballistic materials, chemical and biological protection apparel, and flame-resistant combat uniforms appropriate for the Australian environment. Through collaborative research and commercialization initiatives, the Defense Science and Technology Group DSTG and CSIRO have backed these breakthroughs. Many local producers are making inroads in high-performance textile manufacturing, frequently as CSIRO spin-offs or in partnership with institutions like RMIT and UNSW. While firms like Xefco are at the forefront of sustainable coatings, Bruck Textiles continues to be a key provider of textiles for the military and industry. The attention of the world is still drawn to CSIRO's research into breathable waterproof membranes and graphene-infused textiles. With greater awareness of workplace safety and climate-related threats, especially in the post-COVID era, there is a lot of potential in PPE and rural uses. Textiles that are breathable but shield against fire, UV radiation, and chemicals are essential for farmers, bushfire first responders, and workers in remote infrastructure. Flame-retardant apparel, geotextiles for soil erosion prevention, and antimicrobial textiles for medical environments are all areas of significant commercial interest. Technical textiles used in medical and industrial applications must adhere to the therapeutic goods administration TGA guidelines for health-related products in order to guarantee safety and regulatory compliance. Furthermore, product performance and labeling are governed by AS/NZS standards, such as AS/NZS 4399 for UV protection and AS/NZS 4824 for protective gear. Complying with these standards not only ensures market access but also boosts the global competitiveness of Australian-made technical textiles.

For a long time, cotton and wool, among other natural fibers have served as a fundamental component, especially in agricultural and fire-resistant uses. Wool is a common material for protective gear for outdoor laborers and fire services because it is naturally flame-resistant and breathable. Polyester, nylon, and aramid are among the most popular synthetic fibers due to their strength and resistance to chemicals and UV light. In harsh environments, these materials provide longevity and lightweight strength, making them vital for defense, mining, and transportation. Mineral-based textiles, particularly those with basalt and glass fibers, are used for insulation, building, and thermal protection. Particularly in areas vulnerable to bushfires, where non-combustible qualities are essential, these are crucial to Australia's energy and infrastructure industries. In an increasing number of applications, such as EMI shielding, conductive textiles, and antistatic materials for electronics and defense, metal-based fibers, such stainless steel and aluminum-coated yarns, are utilized. These are particularly crucial in industries like smart textile creation and mining. For uses in the medical, hygiene, and workwear industries, where comfort, moisture control, and biodegradability are essential, regenerated fibers like viscose and lyocell offer a sustainable option. To improve performance, they are frequently mixed with synthetic fibers or combined with functional coatings. The others category covers nanofiber materials being investigated by organizations like CSIRO, bio-based polymers like PLA, and sophisticated composites. These advancements are paving the path for greener, more versatile technical textiles that may be utilized domestically and exported. The increasing importance of material science in the development of Australia's technical textile capabilities is reflected in its dependence on cutting-edge materials throughout industries, from aerospace to agriculture, which strike a balance between performance and sustainability in a demanding geographical and climatic setting.

To satisfy the varied demands of industry in the fields of agriculture, defense, healthcare, and environmental management, Australia's technical textile industry uses a range of manufacturing methods because of their strength and dimensional stability, woven materials are commonly employed in a variety of applications, including geotextiles, protective clothing, ballistic panels, and shading structures. Due to their load-bearing capacity and resistance to wear and tear, these fabrics are perfect for use in demanding settings like mining and road construction in rural areas because of their flexibility, breathability, and stretch, knitted fabrics are perfect for sportswear, medical compression apparel, and fire-retardant apparel. Flame-resistant and moisture-wicking knitted textiles are used by Australian defense and emergency services to offer comfort and protection throughout extended deployments. The increasing interest in e-textiles in the nation has led to the integration of knitted substrates with conductive threads that can track health and performance in both military and athletic settings. For usage in PPE, medical masks, filtration systems, and insulation, non-woven textiles have seen a surge in popularity, notably during and after the COVID-19 pandemic. These materials, which are frequently manufactured using meltblown or spunbond methods, are priced for their low cost, excellent barrier capabilities, and scalability. In order to enhance yield and efficiency in Australia's huge agricultural areas, non-woven crop covers and weed control fabrics are being used more and more in agriculture. The novel methods of 3D weaving, laminated composites, needle punching, and electrospinning fall under the category of others. In order to create high-performance solutions for aerospace, marine, and defense applications, these technologies are being researched in conjunction with organizations such as Australian universities and CSIRO. Bio-fabrication techniques and smart textile integration are developing fields that provide multiple functions, including real-time monitoring, UV protection, and temperature control.

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

Table of Contents

73 Pages
1. Executive Summary
2. Market Structure
2.1. Market Considerate
2.2. Assumptions
2.3. Limitations
2.4. Abbreviations
2.5. Sources
2.6. Definitions
3. Research Methodology
3.1. Secondary Research
3.2. Primary Data Collection
3.3. Market Formation & Validation
3.4. Report Writing, Quality Check & Delivery
4. Australia Geography
4.1. Population Distribution Table
4.2. Australia Macro Economic Indicators
5. Market Dynamics
5.1. Key Insights
5.2. Recent Developments
5.3. Market Drivers & Opportunities
5.4. Market Restraints & Challenges
5.5. Market Trends
5.6. Supply chain Analysis
5.7. Policy & Regulatory Framework
5.8. Industry Experts Views
6. Australia Technical Textiles Market Overview
6.1. Market Size By Value
6.2. Market Size and Forecast, By Material
6.3. Market Size and Forecast, By Process
6.4. Market Size and Forecast, By Region
7. Australia Technical Textiles Market Segmentations
7.1. Australia Technical Textiles Market, By Material
7.1.1. Australia Technical Textiles Market Size, By Natural Fiber, 2019-2030
7.1.2. Australia Technical Textiles Market Size, By Synthethic Fiber, 2019-2030
7.1.3. Australia Technical Textiles Market Size, By Minerals, 2019-2030
7.1.4. Australia Technical Textiles Market Size, By Metals, 2019-2030
7.1.5. Australia Technical Textiles Market Size, By Regenerated Fibers, 2019-2030
7.1.6. Australia Technical Textiles Market Size, By Others, 2019-2030
7.2. Australia Technical Textiles Market, By Process
7.2.1. Australia Technical Textiles Market Size, By Woven, 2019-2030
7.2.2. Australia Technical Textiles Market Size, By Knitted, 2019-2030
7.2.3. Australia Technical Textiles Market Size, By Non-Woven, 2019-2030
7.2.4. Australia Technical Textiles Market Size, By Others, 2019-2030
7.3. Australia Technical Textiles Market, By Region
7.3.1. Australia Technical Textiles Market Size, By North, 2019-2030
7.3.2. Australia Technical Textiles Market Size, By East, 2019-2030
7.3.3. Australia Technical Textiles Market Size, By West, 2019-2030
7.3.4. Australia Technical Textiles Market Size, By South, 2019-2030
8. Australia Technical Textiles Market Opportunity Assessment
8.1. By Material, 2025 to 2030
8.2. By Process, 2025 to 2030
8.3. By Region, 2025 to 2030
9. Competitive Landscape
9.1. Porter's Five Forces
9.2. Company Profile
9.2.1. Milliken & Company
9.2.1.1. Company Snapshot
9.2.1.2. Company Overview
9.2.1.3. Financial Highlights
9.2.1.4. Geographic Insights
9.2.1.5. Business Segment & Performance
9.2.1.6. Product Portfolio
9.2.1.7. Key Executives
9.2.1.8. Strategic Moves & Developments
9.2.2. DuPont de Nemours, Inc.
9.2.3. Indorama Ventures
9.2.4. Kimberly-Clark Corporation
9.2.5. Asahi Kasei Corporation
10. Strategic Recommendations
11. Disclaimer
List of Figures
Figure 1: Australia Technical Textiles Market Size By Value (2019, 2024 & 2030F) (in USD Million)
Figure 2: Market Attractiveness Index, By Material
Figure 3: Market Attractiveness Index, By Process
Figure 4: Market Attractiveness Index, By Region
Figure 5: Porter's Five Forces of Australia Technical Textiles Market
List of Tables
Table 1: Influencing Factors for Technical Textiles Market, 2024
Table 2: Australia Technical Textiles Market Size and Forecast, By Material (2019 to 2030F) (In USD Million)
Table 3: Australia Technical Textiles Market Size and Forecast, By Process (2019 to 2030F) (In USD Million)
Table 4: Australia Technical Textiles Market Size and Forecast, By Region (2019 to 2030F) (In USD Million)
Table 5: Australia Technical Textiles Market Size of Natural Fiber (2019 to 2030) in USD Million
Table 6: Australia Technical Textiles Market Size of Synthethic Fiber (2019 to 2030) in USD Million
Table 7: Australia Technical Textiles Market Size of Minerals (2019 to 2030) in USD Million
Table 8: Australia Technical Textiles Market Size of Metals (2019 to 2030) in USD Million
Table 9: Australia Technical Textiles Market Size of Regenerated Fibers (2019 to 2030) in USD Million
Table 10: Australia Technical Textiles Market Size of Others (2019 to 2030) in USD Million
Table 11: Australia Technical Textiles Market Size of Woven (2019 to 2030) in USD Million
Table 12: Australia Technical Textiles Market Size of Knitted (2019 to 2030) in USD Million
Table 13: Australia Technical Textiles Market Size of Non-Woven (2019 to 2030) in USD Million
Table 14: Australia Technical Textiles Market Size of Others (2019 to 2030) in USD Million
Table 15: Australia Technical Textiles Market Size of North (2019 to 2030) in USD Million
Table 16: Australia Technical Textiles Market Size of East (2019 to 2030) in USD Million
Table 17: Australia Technical Textiles Market Size of West (2019 to 2030) in USD Million
Table 18: Australia Technical Textiles Market Size of South (2019 to 2030) in USD Million
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