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Split Tube Furnace for High-Temperature Chemistry

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Split Tube Furnace for High-Temperature Chemistry

Split Tube Furnace for
High-Temperature Chemistry

The Split Tube Furnace for High-Temperature Chemistry is a precision-engineered heating system designed for thermal processing of chemical reactions under carefully controlled conditions. Built for laboratory and industrial applications alike, this furnace supports a broad spectrum of high-temperature gas-solid, solid-state, and molten-phase reactions enabling safe, uniform, and repeatable chemical synthesis and transformation. 

Its split-hinge design ensures easy access to the reaction tube, making setup and sample handling fast and efficient ideal for dynamic and iterative experimental workflows. 

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  • Temperature Range: Ambient to 1200°C (extendable based on application) 
  • Uniform Heating: Multi-zone configuration for precise temperature profiles 
  • Split-Hinge Design: Quick and easy loading of reaction vessels or tubes 
  • Gas Compatibility: Inert, reducing, oxidizing, or reactive gas atmospheres supported 
  • Control System: Digital PID controller with programmable temperature ramp/hold profiles 
  • Safety Interlocks: Over-temperature protection and gas leak detection (optional) 
  • High-Temperature Synthesis: Solid-state reactions, precursor calcination 
  • Gas–Solid Reactions: Oxidation, reduction, nitridation under flowing gases 
  • Pyrolysis: Thermal decomposition of organic and polymeric materials 
  • Molten Salt Chemistry: Reactions in alkali or halide-based fluxes 
  • Corrosion Studies: Testing of material resistance in aggressive high-temp environments 
  • Catalyst Development: Stability testing and regeneration cycles 
  • Rotameter or MFC-based gas flow systems 
  • Quartz, alumina, or inconel reaction tubes 
  • Vacuum-tight flanges and ports for sampling or pressure control 
  • Data logging and remote monitoring interface 
  • Refractory liner for high-temperature molten salt or corrosive reaction compatibility 
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