Welcome to Well, your premier destination for top-quality fire-resistant anchors designed to withstand the harshest industrial environments. As a leading refractory anchors manufacturer, we specialize in offering a wide range of anchors tailored to meet the diverse needs of our customers.
At Well, we're excited to introduce our innovative Wavey Refractory Anchor, a revolutionary solution designed to enhance the performance and longevity of refractory linings. Crafted with precision and expertise, our Wavey Refractory Anchor features a unique wave-like design that ensures optimal anchorage and stability in high-temperature applications.
Features
Enhanced Anchorage: The distinctive wave pattern of our refractory anchor maximizes surface contact with the refractory lining, providing superior anchorage and resistance to thermal expansion and contraction.
Improved Heat Dissipation: Engineered to promote efficient heat dissipation, our Wavey Refractory Anchor helps maintain uniform temperatures throughout the lining, minimizing the risk of hot spots and thermal stress.
Durability: Constructed from premium-grade materials, our Wavey Refractory Anchor is built to last, offering exceptional durability and performance even in the most demanding operating conditions.
Easy Installation: With its user-friendly design, our Wavey Refractory Anchor simplifies the installation process, saving time and labor costs while ensuring precise alignment and positioning within the refractory lining.
Refractory AISI 304 stainless steel fiber is a type of reinforcement material that is made from AISI 304 stainless steel, which is a commonly used stainless steel alloy. The 304 Stainless Steel Fiber has resistance to high temperatures and can withstand thermal stress.
Refractory AISI 304 stainless steel fiber is a type of reinforcement material that is made from AISI 304 stainless steel, which is a commonly used stainless steel alloy. The 304 Stainless Steel Fiber has resistance to high temperatures and can withstand thermal stress.
AISI 304 stainless steel is a non-magnetic and austenitic stainless steel known for its corrosion resistance and versatility. When used in fiber form, it can enhance the mechanical properties of various materials, especially in applications where high temperatures or harsh environmental conditions are present.
These stainless steel fibers are often added to refractory materials such as concrete or ceramics to improve their strength, durability, and resistance to thermal expansion and contraction. The use of AISI 304 stainless steel in the fibers provides corrosion resistance, making them suitable for applications in which exposure to corrosive environments is a concern.
Crimped steel fiber is a low carbon, cold-drawn steel wire fiber designed to provide temperature and shrinkage crack control, strengthen flexural reinforcement, increase shear strength and improve crack resistance of concrete. It has excellent tensile, bending and shearing strength, high tenacity, and resistance against cracking, impact and fatigue.
Crimped steel fibers are low-carbon, cold-drawn steel wire fibers designed to provide temperature and shrinkage crack control, strengthen flexural reinforcement, increase shear strength, and improve crack resistance of concrete. Crimped steel fiber conforms to the standards outlined in ASTM C1116 (Standard Specification for Fiber Reinforced Concrete and Shotcrete) and ASTM A820 Type V (Standard Specification for Steel Fibers for Fiber Reinforced Concrete). These coarse steel fibers not only enhance impact resistance, shatter resistance, fatigue resistance, and abrasion resistance but also contribute to increasing the overall toughness of the concrete. The recommended dosage ranges from 25 to 100 lb/cubic yards (15 to 60 kg/m3), depending on the specific reinforcement requirements of the project.
Crimped steel fiber is widely used for buildings, road surfaces, bridges, tunnels, airport road surfaces, water conservancy projects, military engineering, and all kinds of building products.
Description
Stainless steel hex mesh is a hexagonal cellular mesh grating specifically designed for reinforcing both linings and flooring. It acts as a surface framework to hold cement or refractory in position, and relieves stress in the lining's upper crust, which prevents spalling and cracking. As a result of its strength and unique design, abrasion and corrosion are retarded and refractory life is significantly extended. Even hot gaseous substances cannot erode the refractory because they are reflected away from the surface by the metal cellular grid.
TORTOISE SHELL MESH
Tortoise Shell Mesh, also known as hex steel, hex mesh, hex steel, or hex mesh, is a specialized honeycombed steel designed for excellent retention and reinforcement of thin wall refractories. It complements dense hydraulic and chemically bonded refractories, providing significant erosion resistance.
Characteristics and Material
Material Options:
Carbon steel 0Cr13, 1Cr13
Stainless steel 0Cr18Ni9, 1Cr18Ni9Ti, 304, 304L, 316, 316L, 310S
Specifications:
Hole Distance: 2 cm - 6 cm
Mesh Thickness: 1 cm - 2.5 cm
Panel Thickness: 1 mm - 3 mm
Mesh Sizes: 30 mm, 40 mm, 48 mm, 50 mm, 60 mm, 80 mm, 100 mm
Connection Type: Inner buckle lock riveting, outer buckle lock riveting
Features
High Wear Resistance: Capable of withstanding severe abrasion.
High Temperature Resistance: Suitable for use in environments up to 1300�°C.
Corrosion Resistance: Effective in harsh chemical environments.
Strong Thermal State Impact Ability: Maintains integrity under thermal stress.
Good Mechanical Processing Performance: Easily shaped and installed.
High Weldability: Simplifies the installation process.
Long Lifetime: Durable and reliable in demanding applications.