Anchors (Ceramic / Stainless Steel)
Refractory Anchors are specialized hardware used within monolithic refractory linings (like Refractory Castables and Refractory Mortars & Mixes) to prevent the lining from falling away from the vessel shell. They provide mechanical support, especially as the lining shrinks during initial dry-out and heating, and as stresses build up during service.
Anchors are categorized primarily by their material, which determines their maximum service temperature and the type of refractory they can support:
| ANCHOR TYPE | MATERIAL COMPOSITION | PRIMARY FUNCTION / LIMITATIONS |
|---|---|---|
| Stainless Steel | Heat-Resistant Alloys (e.g., 310, 330, 304) | Used for low to medium temperatures (up to ~1250Β°C). Provides flexibility but metal softens and oxidizes at higher heat. |
| Ceramic | High-Alumina (AlβOβ) or Mullite | Used for high to ultra-high temperatures (up to 1800Β°C). Maintains strength at high heat but is brittle and susceptible to impact damage. |
CLASSIFICATION
- Engineering Focus: Refractory Support
- Primary Application Focus: Mechanical integrity and thermal compatibility; Securing Monolithic Linings in furnaces, stacks, and cyclones.
Key Performance Metrics
| PROPERTY | STAINLESS STEEL | CERAMIC |
|---|---|---|
| Maximum Service Temp. | Limited by oxidation and creep (~1250Β°C) | Limited only by the material’s melting point (~1800Β°C) |
| Installation Ease | HIGH (flexible, welded) | LOW (brittle, requires special mounting) |
| Corrosion Resistance | Good (but subject to chemical attack) | Excellent (inert to most slags/gases) |
- Stainless Steel Anchors (Metallic Anchors)
- Design: Most commonly Y, V, or straight rod shapes. They are typically welded directly to the steel shell before the castable is poured or rammed.
- Function: They mechanically key the castable to the shell. The alloy composition (e.g., 310 or 330 steel) is crucial, as the anchor must resist softening and oxidizing at the target interface temperature, which is always lower than the hot face temperature due to the refractory lining’s insulating properties.
- Ceramic Anchors
- Design: Usually large, tile-like pieces with a hole, or peg shapes. They are installed into the castable and mechanically locked into the lining structure or fastened via a non-metallic pin.
- Function: They are required in the hottest sections of furnaces where the metal anchor temperature would exceed ~1250Β°C and rapidly fail due to creep or melting. They are chemically stable and will not contaminate the refractory or the process environment.
- Installation Principles (Refractory Castables)
- Coverage: Anchors are generally installed to cover ~5% of the wall area and are staggered to provide uniform support.
- Depth: They are installed deep into the lining but must not touch the hot face, as that could create a localized stress point or chemical incompatibility. They typically penetrate 2/3 to 3/4 of the lining thickness.
- Lining Type: Stainless steel anchors are often used in dense castables, while ceramic anchors are mandatory for high-temperature insulation or porous linings to prevent structural collapse.
β¨ Customization Services
We offer product customization services, allowing you to tailor the appearance, dimensions, or specific markings of items like refractory shapes or bricks. This includes options for incorporating specific geometric requirements to ensure seamless integration into your process systems.
π¬ Sampling for Testing & Validation
Free product samples are available for thorough testing and validation. This allows you to confirm the quality, compatibility, and performance of our materialsβsuch as specific bricks, castables, or raw materialsβbefore committing to a full order.
π‘ Expertise in Refractory Solutions
Leverage our deep expertise to receive detailed, application-specific refractory solutions. We move beyond just selling products by providing comprehensive plans that encompass material selection, installation guidance, and performance optimization to maximize the lifespan and efficiency of your high-temperature processes.
Rabatec products are exclusively manufactured in facilities that have achieved rigorous ISO certifications across Quality (ISO 9001), Environmental Management, and Occupational Health & Safety. This commitment ensures every product, from refractory bricks to specialized equipment, meets the highest global benchmarks for performance, sustainability, and workplace safety.
π¦ Logistics Excellence: Shipping, Packaging, and Marking
Minimizing Risk: We manage all logistics to minimize handling touchpoints and transit shock. Our carriers are pre-vetted for their experience in transporting heavy, fragile, and sensitive industrial materials.
Traceability: Every shipment includes comprehensive documentation and tracking information, providing end-to-end visibility and ensuring precise delivery coordination for your site.
Protection is Paramount: Our packaging strictly follows industry standards to prevent damage, corner chipping, and moisture absorptionβespecially critical for materials like Basic Refractory Bricks and Refractory Mortars & Mixes.
Robust Palletization: Products are secured on fumigated, high-strength export pallets (e.g., 1100x950mm or similar sturdy dimensions) using heavy-duty strapping and durable protective wrapping (polyethylene sheeting, cardboard, etc.) to withstand long-distance travel and multiple loadings.
Moisture Control: Sensitive materials are protected with appropriate sealing and, where necessary, desiccants or moisture-vapor proof enclosures to maintain the product's integrity until installation.
Clear Identification: All outer packaging is clearly marked on multiple sides with large, legible text for immediate identification and safe handling.
Full Traceability: Markings include all essential data points: Product Name, Quality Grade, Batch Number, Quantity, Net/Gross Weight, Order Number, and the Final Destination/Construction Area. This ensures every pallet can be accounted for and correctly staged upon arrival.
Safety & Compliance: We adhere to all regulatory requirements for marking, labeling, and placardingβespecially for any items classified as Dangerous Goodsβto ensure full compliance with international and domestic transport regulations.
β Frequently Asked Questions (FAQ)
Question | Elaborated Answer |
Q: What is the Refractoriness Under Load (RUL) of your refractories? | A: Refractoriness Under Load (RUL) is a critical property that defines the maximum temperature our materials can withstand while under compressive stress before deforming (softening). Since we offer a wide range of materialsβfrom Alumina-Silicate Bricks to high-performance Silicon Carbide Bricksβthe RUL varies significantly. For specific product data, please refer to the product data sheet or submit a quote request for the material you are interested in. |
Q: Where are the Rabatec refractories and materials produced? | A: Our products are primarily sourced from specialized manufacturing plants in China. Crucially, these facilities have all undergone rigorous audits and achieved comprehensive ISO certifications (Quality, Environment, and Safety), ensuring that production adheres to the highest global standards for consistency and performance. |
Q: What refractory materials does the company offer? | A: We supply a comprehensive portfolio of advanced refractory solutions, including: Shaped Products: Alumina & Silica Bricks, Basic & Specialized Bricks (e.g., Magnesia), SiC & Structural Ceramics, and Precast Shapes. Monolithic Products: Refractory Castables, Mixes & Mortars. Insulation: Insulation Fibre and High-Performance Insulation Products. |
Q: How should I choose the appropriate refractory material for my application? | A: Selecting the correct refractory is paramount to process efficiency. The choice depends on three key factors: 1. Operating Environment: Maximum process temperature and thermal cycling (shock). 2. Chemical Attack: Type of slag, molten metal, or corrosive gas being handled (acidic, neutral, or basic). 3. Mechanical Stress: Abrasion, erosion, and static load requirements. We recommend utilizing our detailed refractory solutions service to consult with our engineers for an optimized, application-specific recommendation. |
Q: Which monolithic material should I choose when patching an existing lining? | A: For patching and minor repairs, the ideal monolithic material depends on the parent lining material, the patching depth, and the need for a rapid return to service. Common choices include: Refractory Mortars & Mixes (for minor joints/surfaces) or Plastic Refractories (for areas requiring physical compaction). Always choose a patch material chemically compatible with the existing lining to ensure proper bonding and service life. |
Q: Can I receive product samples before placing a major order? | A: Yes. We gladly provide product samples for your internal testing and validation purposes. This ensures you can confirm the quality, composition, and fit of the materialβsuch as our Refractory Castables or Alumina-Silicate Bricksβin your specific operational environment before committing to a bulk purchase. |
Q: Do you provide certifications to verify material quality? | A: Absolutely. We provide product-related inspection certificates and quality assurance documentation upon request. This verifies that your order has passed all internal quality control checks and meets the required material specifications and industry standards. |
Q: What measures are taken for product protection during transport? | A: We ensure quick, reliable transport by using robust, industrial packaging that strictly follows industry standards. This includes high-strength palletization, heavy-duty strapping, and weather-resistant wrapping to protect fragile items like bricks and mixes from corner chipping, mechanical damage, and moisture during transit. |
