having brand name ‘ANTecC’- ‘Advanced NanoTechnicalCeramics’ is a newly born Indian company, under technical guidance with USA based company. ‘ANTecC’ having innovative ideas, high tech manufacturing facilities and most modern advanced technology for development and production of advanced technical ceramics industrial products. ‘ANTecC’ provide a wide selection of Advanced Nano Technical Ceramics
including Alumina Oxide, Zirconia Oxide, Silicon Carbide and Silicon Nitride, which improves and extends the performance of your product, process or system. Whether you need high temperature stability, hard and wear resistance surfaces, improved stiffness to weight reduction, anti-corrosive barriers or low thermal expansion rates - we can deliver. We can offer significant performance and cost advantages to meet your needs.
‘ANTecC’manufacturing capabilities provide solutions to complex applications. We can assist you with material solutions and design considerations.
‘ANTecC’specializes in high tolerances, machining, grinding, lapping, and polishing of advanced ceramic. Our green state advanced ceramics machine processing technology allows us to manufacture advanced ceramic parts that are not available by any other manufacturing methods. Ceramic Manufacturing Capabilities:
‘ANTecC’ specializes in high pressing, high sintering temperature, high tolerances, precision machining, grinding, lapping, and polishing of advanced ceramic. Our green state advanced ceramics machine processing technology allows us to manufacture advanced ceramic parts that are not available by any other manufacturing methods.‘ANTecC’specializes in high tolerance ceramic machining, grinding and polishing of unfired (green) and fired ceramics. Our state-of-the-art equipments allows us to offer a variety of ceramic services including:
• Isostatic PressingSystem-Working Pressure: 70,000 PSI, Chamber Inside Diameter: 457mm, Inside Length-1700mm
(Make: National Forge Europe, Belgium)
• Dry Pressing (160 Tons Hydraulic Presses)
• Pre- and Post-Fire ceramic machining
• High Temperature (2300 Deg. Vacuum
Sintering Furnaces (Make: Degussa, Germany)
• Debinding (800 Deg. Vacuum Furnace (Make:
Degussa, Germany)
• High Temperature (1700 Deg. Muffle Furnace
(Make: Micro Thermal Inc, India)
• Precision grinding and machining
• CNC ceramic machining and grinding
• Lapping and polishing
Technical Ceramics Materials:
‘ANTecC’ has a wide range of Technical Ceramics Materials to offer. Each one with its own unique characteristics, designed to meet the requirements of many diverse applications. Some of the more widely used materials are described below. Alumina Ceramics (92% to 99.8% Al2O3):
Alumina Ceramics is the most widely used advanced ceramic material. It offers very good performance in terms of wear resistance, corrosion resistance and strength at a reasonable price. Its high dielectric properties are beneficial in electronic products. Applications include armor tiles, semiconductor processing equipment parts, faucet disc valves; seal face rings & sleeves, electronic substrates and industrial machine components. Zirconia Oxide Ceramics:
Zirconia oxide has the highest strength and toughness at room temperature of all the advanced ceramic materials. The fine grain size allows for extremely smooth surfaces and sharp edges. Applications include scissors, knifes, slitters, pump shafts, metal-forming tools, fixtures, tweezers, wire drawing pulleys &rings, bearing sleeves and valves. Silicon Carbide Ceramics:
Silicon carbide has the highest corrosion resistance of all the advanced ceramic materials. It also retains its strength at temperatures as high as 1400°C and offers excellent wear resistance and thermal shock resistance. Applications include armor tiles, mechanical seal face rings&sleeves, tubes, nozzles, silicon wafer polishing plates and pump parts. Silicon Nitride Ceramics:
Silicon Nitride exceeds other ceramic materials in thermal shock resistance. It also offers an excellent combination of low density, high strength, low thermal expansion and good corrosion resistance and fracture toughness. Applications include various aerospace and automotive engine components, paper making machine, wear surfaces, armor tiles, burner nozzles and molten metal processing parts.
