High Strength Silicon Carbide Ceramic Foam Filter for Metal Castings Filtration

Product DescriptionHigh strength silicon carbide ceramic foam filter for foundry molten metal castings filtrationApplication: For the filtration of molten Iron, copper, aluminum and steel alloySic (silicon carbide) ceramic foam filters of OBBO Environmental are developed and manufactured for the filtration of cast iron and non ferrous alloys. As the most advanced filter type with the higher filtration efficiency, It can effectively reduce inclusions and turbulence of molten metal, ensuring purified molten metal goes into the mold cavity with improved flow rates.Using the unique formula and manufacturing process, OBBO Environmental sic ceramic foam filters have the excellent thermal shock, chemical and high temperature resistance up to 1500°C. Ceramic foam filter main material Silicon Carbide Max. applied temperature ≤1500ºC Color Gray black Hole density (PPI) 10/15/20/25/30 (PPI=pores per inch) Porosity(%) 80-90 High temperature bending strength(Mpa) ≥2.5 Bending strength(Mpa) ≥1.5 Compressive Strength(MPa) ≥1.0 Bulk Density(g/cm3) 0.4-0.5 Thermal shock resistance 6 times/1100ºC-room temp. Shape:Circle shape and square shapeRecommended ProductsCompany ProfilePackaging & ShippingFAQ1.Q:Are you trade company or manufacture?A:We are manufacture with more than 14 years experience,and the price is the factory price. 2.Q:How to control the quality?A:We have strict quality by QC team. 3.Q:How long is the delivery time?A:It is about 5 days after payment for stoct goods,10-15 days for new producing goods. 4.Q: How to get the sample ?A: Please contact us for send your samples. 5.Q:What is the payment terms?A:Flexible and diverse payment ways can be chosen, make you more convenient .Generally,30% in advance,70% before shipment 6.Q:Can you do OES service?A:Yes,size & shape could be made as customer requirment/* March 10, 2023 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1