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China Beihai is founded in 2015 and located in Jiujiang, Jiangxi Province. China Beihai is a high-tech enterprise focusing on the research, development, production and sales of high-performance basalt continuous fiber and its production equipment manufacturing, as well as a leading enterprise in the domestic basalt fiber industry.
We proudly serve the Canadian construction and infrastructure market, providing premium-grade concrete reinforcement materials that meet and exceed North American building standards including those set by CSA and NBCC. Our basalt fiber solutions are designed to perform in Canada's freeze-thaw cycles, coastal environments, and demanding industrial applications.
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At China Beihai group, we specialize in the production of a wide range of products including basalt fiber mat (Basalt fiber chopped strand mat, Basalt fiber cloth), basalt fiber roving, basalt fiber yarn, basalt fiber chopped strands, and basalt fiber products (Basalt Fiber rebar, basalt fiber sleeves and tape). Our products are designed to meet the diverse needs of various industries, providing high-quality solutions for our customers.
At China Beihai group, we are dedicated to the production of a wide array of basalt-based products, ranging from basalt fiber mat, fabric, and roving to chopped strand and specialized construction materials. Our focus is on delivering high-quality, sustainable solutions for industries such as construction, geotechnical engineering, and manufacturing. With a commitment to innovation and excellence, we strive to cater to the unique requirements of our clients by offering a comprehensive selection of basalt-derived products.
Choosing to work with China Beihai means working with a leading manufacturer of basalt products. Our commitment to quality, innovation and sustainability sets us apart, ensuring our customers receive best-in-class solutions for their diverse needs. Reliability and customer satisfaction, we offer a wide range of high-quality basalt materials and construction products, backed by our dedication to excellence and industry expertise. When you partner with China Beihai, you can trust that you are working with a reliable and forward-thinking partner for all your basalt product needs.
Canada's federal government has committed over $180 billion CAD in infrastructure spending under the Investing in Canada Plan. Major projects spanning highways, bridges, transit corridors, and public buildings across Ontario, British Columbia, Alberta, and Quebec are driving unprecedented demand for high-performance concrete reinforcement solutions. Concrete dowels and basalt fiber reinforcement are increasingly specified by engineers to extend structural service life while reducing lifecycle costs.
Canada's extreme climate — with temperatures ranging from -40°C in prairie winters to summer highs above 35°C — places enormous stress on concrete structures through repeated freeze-thaw cycles. Traditional steel dowels are susceptible to corrosion in these conditions. Basalt fiber concrete dowels offer superior resistance to thermal cycling, chloride penetration from road de-icing salts, and moisture infiltration, making them the material of choice for Canadian DOTs and municipal engineers.
From the ports of Halifax and Saint John to the marine infrastructure of Vancouver and Victoria, Canada's coastal facilities demand corrosion-resistant reinforcement. Basalt fiber products provide exceptional resistance to saltwater, tidal exposure, and marine atmospheric corrosion — environments where conventional steel rebar and dowels fail prematurely. Projects like seawall rehabilitation, wharf reconstruction, and coastal bridge decks across Atlantic Canada are key application areas.
The Canadian Standards Association (CSA) and the National Building Code of Canada (NBC) set rigorous benchmarks for structural materials. Our basalt fiber reinforcement products are engineered to comply with relevant CSA standards, ensuring seamless integration into Canadian engineering specifications. We work closely with Canadian engineers, architects, and procurement teams to provide documentation, testing data, and technical support aligned with local regulatory requirements.
Fiber Reinforced Polymer (FRP) materials including basalt fiber are replacing traditional steel in Canadian infrastructure at an accelerating pace. Transport Canada and provincial ministries are updating design guides to incorporate non-metallic reinforcement, reflecting growing confidence in the technology's long-term performance and lifecycle cost benefits.
Canada's commitment to achieving net-zero emissions by 2050 is transforming the construction sector. Basalt fiber reinforcement, derived from natural volcanic rock with low processing energy and zero toxic emissions, aligns perfectly with LEED, BREEAM Canada, and other green building frameworks. Developers and government clients increasingly prefer sustainable reinforcement alternatives for public infrastructure projects.
Canadian universities and research institutes — including the University of Toronto, McGill, and UBC — are actively researching basalt fiber composites for next-generation infrastructure. Growing academic-industry partnerships are accelerating the path from laboratory innovation to field deployment, with pilot projects in bridge deck slabs, tunnel linings, and precast concrete products already underway.
Canada's housing shortage has triggered a construction boom from Vancouver to Halifax. High-rise residential, mixed-use commercial, and modular construction projects increasingly specify basalt fiber chopped strands and mesh for concrete crack control, exterior wall reinforcement, and foundation applications, driven by contractor demand for lighter, corrosion-free alternatives to steel.
Major urban transit expansions in Toronto, Vancouver, Montreal, and Calgary are creating massive demand for durable concrete reinforcement. Tunnel segments, station platforms, retaining walls, and elevated guideway structures all benefit from basalt fiber reinforcement's combination of high tensile strength, non-conductivity (important for rail applications), and corrosion immunity in underground chloride-rich environments.
Mining operations, oil sands facilities, and remote energy infrastructure in northern Alberta, Saskatchewan, and the Northwest Territories require concrete structures capable of surviving extreme arctic conditions. Basalt fiber reinforcement offers superior performance at sub-zero temperatures compared to GFRP alternatives, making it the preferred specification for remote industrial construction projects.
Basalt fiber is ideal for your engineering projects. Its high strength, corrosion resistance and lightweight properties allow it to easily solve a variety of challenges. In buildings, bridges, roads and other infrastructure projects, basalt fibers demonstrate outstanding performance, extending structural life and reducing maintenance costs. Choose basalt fiber, choose reliability and durability.
For the Canadian market specifically, basalt fiber products deliver measurable advantages in environments subject to de-icing salt exposure, freeze-thaw cycling, marine corrosion, and extreme temperature variation — the four most common causes of premature concrete deterioration in Canada's infrastructure.
Basalt Fiber Roving
Basalt fiber roving forms the foundation of many composite reinforcement systems used across Canada's construction, transportation, and industrial sectors. Used in pultrusion, filament winding, and weaving processes, our roving products deliver consistent tex weight, excellent wet-out characteristics, and strong adhesion to epoxy and vinyl ester resin systems — critical for producing structural profiles, pipe rehabilitation liners, and utility pole cross-arms used extensively in Canada's resource and utility industries.
Basalt Fiber Surfacing Tissue Mat is a non-woven thin sheet engineered to provide a smooth resin-rich surface layer for fiber reinforced plastic applications in harsh Canadian environments.
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Our high-performance Basalt Fiber Mesh provides a superior reinforcement solution for concrete and plaster applications where high alkali resistance is required across Canada's construction industry.
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Our Basalt Fiber Needled Mat is a high-density insulation material manufactured by mechanically bonding continuous basalt fibers without any chemical binders, ideal for Canada's industrial heating applications.
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Our Basalt Fiber Twisted Yarn is engineered by twisting multiple continuous filaments to enhance mechanical strength and processing stability for demanding Canadian industrial applications.
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Our basalt products have diverse applications in the field of house construction including Canada's high-rise residential and commercial sectors.
In the aerospace field, basalt fibers are ideal for manufacturing aircraft wings and engine components, supporting Canada's robust aerospace sector.
Through fine process control and surface treatment technologies, basalt fibers enable use in spacecraft shell materials, thermal protection systems, and high-temperature-resistant engine components.
Basalt-added concrete offers increased strength, durability, crack resistance, improved chemical resistance and improved workability for Canada's demanding construction projects.
Facing the trend of lightweight automobile materials, basalt fiber composites are finding wide application in Canada's growing EV and automotive manufacturing sectors.
Basalt's high strength, durability and protective properties make it ideal for protecting bridge abutment structures across Canada's extensive highway and rail network from corrosion and natural hazards.
The corrosion resistance of basalt fiber gives it a unique advantage in Canada's petrochemical field, particularly in Alberta's oil sands and refinery infrastructure.
Basalt fiber as a high-performance composite material offers lightweight, high strength, corrosion resistance and acid/alkali resistance — ideal for Canada's marine and port infrastructure.
As drones slice through the sky to monitor wildfires, and intelligent robots execute repetitive tasks with precision on the factory floor, the efficient operation of this smart equipment is often underpinned by a "hardcore support" that is easily overlooked: a novel material derived from volcanic rock — basalt fiber. Though unassuming in appearance, its unique properties have made it the key to unlocking the performance limits of drones and robots, quietly driving a materials revolution within the realm of intelligent equipment.
Basalt fiber is an inorganic fibrous material produced by drawing strands from natural basalt ore after it has been melted at high temperatures. It has garnered widespread attention for its exceptional physicochemical properties — particularly its performance in high-temperature environments.
Recently, with the successful realization of major applications — such as the Chang'e-6 lunar exploration mission and the world's first deep-sea basalt fiber aquaculture platform — basalt fiber is rapidly accelerating its transformation from a laboratory research outcome into a strategic new material with tangible industrial productivity.
