Gas Carburising

Gas Carburising

Gas carburising is a thermochemical diffusion process used to enhance the surface hardness of ferrous alloys, most commonly low-carbon steels, by introducing carbon into their surface layers. This is achieved by heating components in a carbon-rich gaseous atmosphere at elevated temperatures, typically between 880°C and 980°C, for a specific period, allowing carbon atoms to diffuse into the metal surface.

The depth of carbon diffusion, known as the effective case depth (ECD), depends on time and temperature. It can range from shallow depths of 0.2–1 mm to medium depths of 1–3 mm and even deep case depths of up to 6 mm. After the gas carburising cycle, components are quenched to harden the carburised layer, while the core remains tough and ductile, depending on the steel’s original alloy and carbon content.

The Gas Carburising Process: A Three-Phase Approach

Gas carburising is typically performed in a sealed chamber furnace with integrated quenching capabilities. The process consists of the following phases:

  • Carburising Phase (Diffusion): Parts are heated in a carbon-rich gas environment (e.g., endothermic gas enriched with methane or propane) at 880–980°C. The carbon atoms diffuse into the steel surface, enriching it for subsequent hardening.
  • Quenching Phase (Hardening): After carburisation, parts are quenched in oil, a polymer/water solution, or molten salt. This rapid cooling transforms the carbon-enriched surface into martensite, achieving high hardness.
  • Tempering Phase: After quenching, the components undergo tempering—controlled reheating to reduce internal stresses and increase toughness. Tempering parameters (time and temperature) vary depending on the application’s performance requirements.

Why Gas Carburising is Widely Adopted

Gas carburising is among the most widely used surface hardening methods in modern manufacturing. Due to its reliability, repeatability, and depth control, it accounts for nearly a third of all industrial hardening heat treatments.

Key Benefits of Gas Carburising

  • Exceptional Wear Resistance: Produces a hard, wear-resistant surface layer ideal for high-friction applications.
  • Tough Core Strength: Maintains a softer, ductile core, ideal for absorbing impact without fracturing.
  • Deep Case Depths: Unlike other case hardening methods, gas carburising can achieve deep case depths of up to 6 mm.
  • Precision Control: Carbon potential, cycle time, and case depth can be precisely managed to meet tight tolerances.
  • Clean, Aesthetic Finish: Parts are treated in a protective atmosphere, minimising oxidation and delivering a visually appealing surface.

Applications of Gas Carburising

Gas carburising is used in industries where long-lasting, impact-resistant components are essential. Typical applications include:

  • Automotive transmission gears and shafts
  • Wind turbine components
  • Pump shafts and housings
  • Heavy-duty industrial equipment
  • High-load bearings and drive train parts

The process is suitable for a wide range of low-carbon and alloy steels, and by adjusting process parameters and alloy composition, manufacturers can precisely balance surface hardness with core toughness.

Contact Metal Technology Engineering for Gas Carburising

Gas carburising continues to be a cornerstone of industrial surface hardening, delivering the perfect combination of wear resistance, impact durability, and production flexibility. Its ability to provide deep, controlled case depths with repeatable results makes it indispensable in demanding sectors like automotive, aerospace, and heavy machinery.

As a trusted and proven technology, gas carburising ensures that components are built to last and perform under pressure.

Contact us to request a quote or consultation today to find out how we can tailor our heat treatment solutions to your specific needs.