Product Details:
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Model: | AFS20-25-AFS55-60 | Expansion Coefficient: | 6X10-6 /ºC(20-1000ºC) |
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Conductivity: | 0.698W/M.K (1200ºC) | Process: | Fused Material |
Angularity: | Max 1.15 | Feature: | Casting |
High Light: | AFS Metal Casting Sand,AFS Resin Coated Sand,0.698W/M.K Metal Casting Sand |
1. Ceramic Foundry Sand Introduction
Resin Coated Ceramic Foundry Sand is a dry, pre-coated sand mix that is cured by heat. Sand is coated with a phenolic novolac resin along with a hexamethylene tetramine (hexa) cross-linker and other additives specific to the core or mold making process.
The Shell Method or “Croning process” was invented by Dr. Johannes Croning in Hamburg, Germany in 1944. This process is the oldest core and mold making technology that utilizes synthetic resins. Although many additional sand core and molding making technologies have since been introduced, the Shell Sand process using resin coated sand is still a very effective core and molding process today.
Ceramic Foundry Sand was firstly introduced into foundry industry in 1999. Ceramic Foundry sand, technically as fused ceramic sand for foundry, is made from calcined bauxite which main content is aluminum oxide, processed by melting, blowing, sieving and blending. Ceramic Foundry Sand has excellent properties, including spherical shape, high refractoriness, good crush resistance, inert chemical characteristics, high reclamation yields, etc. Ceramic Foundry Sand has distinguished performance in foundry in compare with silica sand and other popularly used special sands.
2. Ceramic Foundry Sand Specifications
Sand Type | Linear thermal expansion | ||
20 – 300ºC | 20 – 600ºC | 20 – 800ºC | |
Silica | 14.0 | 23.0 | 17.0 |
Chromite | 7.1 | 7.5 | 7.5 |
Zircon | 3.4 | 4.1 | 4.5 |
Cerabeads | 3.5 | 4.0 | 4.3 |
Ceramsite | 7.1 | 7.3 | 7.2 |
3. Ceramic Foundry Sand General advantages
Higher refractoriness—-to cast metals with high pouring temperature (cast steel, alloyed cast steel, stainless steel, etc.)
High strength and toughness—–to produce more complicated cores with thin sections.
Lower thermal expansion—–to avoid expansion defects
Higher reclamation yields—-to reduce waste sand disposal, to decline costs.
Excellent flowability —–to make complicated cores.
Lower binder consumption—–lower gas evolution,lower manufacturing costs
Inert chemical characteristics—–can applied in any popular alloys,includes Manganese steel.
Taking advantages of Ceramic Foundry Sand, people can make high quality resin coated ceramic foundry sand, which has exceptional properties such as high refractoriness, low thermal expansion, easy to shakeout, high strength, and less gas evolution. For particularly complex cores, resin coated ceramic foundry sand has good flow-ability, which can solve the problem of being not fully formed.
The shell process of the ceramic foundry sand is of high production efficiency. The casting dimensional accuracy and the castings finish are exceptional. The used sand is easy to recycle, which greatly reduces the emission of solid wastes. The environmental benefits of this process are also remarkable.
4. Ceramic Foundry Sand Particle Properties
Properties of RCS using Ceramic Foundry Sand(typical)
Resin addition,% | Tensile strength,MPa | Bending strength ,MPa | Thermal bending strength,MPa | Gas evolution, ml/g | Softening point,℃ | LOI,% | GFN |
1.9 | 2.8 | 6.3 | 2.5 | 11.3 | 92 | 1.8 | AFS 58 |
Contact Person: Jason Chen
Tel: 86-18603794999