Plastics
Plastics
Ready-to-use materials applied by ramming or compressing. After drying, they transition to the solid phase with the help of heat or chemical binders. They have wide areas of use in the iron and steel, wood, paper, aluminum, foundry, and ceramic industries. In addition to being used as the main lining material in places such as furnaces, burner zones, crucibles, etc., they are also used as repair materials in many places.
Hyplas® 45
It is a super-duty material used in general applications. It is ceramically bonded and hardens with heat. Its good insulation property reduces energy losses. It is resistant to spalling and mechanical wear. It is used in crucibles in foundries, combustion chambers of Incineration Plants, boilers and incinerators in Refinery and Petrochemistry, and combustion chambers of pelletizing furnaces in Iron and Steel.
Hyplas® 60
A super-duty plastic material with over 55% Al2O3, ceramically bonded, and heat-setting. See Hyplas® 45 for typical applications.
Hyplas® S-light
It is an air-setting plastic material. It is used in foundries, crucibles, and for repairing the upper zone and spout sections in induction furnaces.
Hyplas® 65
65 Al2O3, ceramically bonded, heat-setting plastic material. It is used in places where higher alumina is required. Similar to Hyplas® 45 for typical applications
Hyplas® 60 CH
Phosphate-bonded with 55 Al2O3, air-setting, it is a material more resistant to higher heat and metals compared to similar heat-curable plastics. It is used in aluminum melting and holding furnaces side walls and roofs, in foundries in crucibles and launder systems, and in incineration plants. It is used in industrial furnaces back walls and burner blocks, in refinery furnaces, in iron and steel soaking pits, covers, and recuperators.
Hyplas® 70 CH
70 Al2O3, phosphate-bonded, air-setting plastic material.
Hyplas® 70 SG
70 Al2O3, phosphate-bonded, air-setting plastic material. It is used in foundries, crucibles, and for repairing the upper zone and spout sections in induction furnaces. It is a product with higher strength and bonding power compared to other plastic materials.
Hyplas® 75 CH
75 Al2O3, phosphate-bonded, air-setting plastic material. In typical applications, it is used in places requiring higher strength at high temperatures in addition to those of Hyplas® 60 CH.
Hyplas® 80 CH
80 Al2O3, phosphate-bonded, air-setting plastic material.
Hyplas® 85 CH
86 Al2O3, phosphate-bonded, air-setting plastic material. In typical applications, it is used in places requiring higher strength at high temperatures in addition to those of Hyplas® 60 CH.
Hyplas® Blue
Mullite-based, phosphate-bonded plastic material comparable to 85 alumina and above refractories in terms of refractory properties. It is far superior to similar materials in terms of hot deformation resistance, abrasion resistance, volume stability, and thermal shock resistance.
Hyplas® 90 CH
93 Alumina, phosphate-bonded, air-setting plastic material. It has very high abrasion and erosion resistance, and high resistance to slag and metals, carbon monoxide, hydrogen, and hydrocarbons. It is used in aluminum melting and holding furnaces, cement combustion cavities, foundries, crucibles, tundishes, furnace mouths, tapholes, refineries and petrochemistry cyclones, catalyst transfer lines, process furnaces, combustion chambers, electric arc furnace delta sections, torpedo cars, tundishes, crucibles, etc.
Hyplas® LW
It is a plastic material with low density and low thermal conductivity coefficient.
Hyplas® SIC
It is a very special Silicon Carbide-based material reinforced with stainless steel wire, used for lining boiler hopper zone tubes and burner throats in thermal power plants.
Hyplas® Emerald
It is an aluminum-chrome based, phosphate-bonded material that is highly resistant to friction and abrasion, and extremely resistant to acid-base and erosion.
