Heat treatment is the unsung hero of industrial metallurgy, transforming the performance of materials through controlled temperature cycles. Among these treatments, case hardening and tempering play distinct and critical roles. While often used together, they serve different purposes: one improves surface hardness, while the other modifies internal strength and ductility.

This article explores the difference between case hardening and tempering, focusing on the intricacies of case hardening heat treatment, including carburising processes, material compatibility, and how companies like Metal Technology Engineering deliver industry-leading results.

What Is Case Hardening?

Case hardening is a heat treatment process that hardens only the surface layer (or “case”) of a metal component while keeping the inner core soft and ductile. This results in a part that is both wear-resistant on the outside and tough and impact-resistant on the inside.

The process is particularly valuable for components that experience surface wear but must also endure impact or torque, such as:

Carburising: A Type of Case Hardening Heat Treatment

Carburising is the most widely used form of case hardening heat treatment. It involves diffusing carbon atoms into the surface of a metal, typically low-carbon steel, to increase its surface hardness. The process is performed after machining, allowing for the manufacture of complex parts from relatively inexpensive, easily machinable steels.

How Carburising Works

What Is Tempering?

Tempering is a separate heat treatment process applied after hardening. It involves heating a previously hardened metal to a lower temperature, typically between 150°C and 700°C, and then cooling it.

Tempering:

Where case hardening is about increasing surface hardness, tempering is about balancing that hardness with internal toughness, especially important after quenching, which can create internal stresses.

Key Differences Between Case Hardening and Tempering

Aspect Case Hardening Tempering
Purpose Hardens the surface while preserving a tough core Reduces brittleness and internal stress after hardening
Process type Carburising (carbon diffusion) followed by quenching Reheating and cooling post-hardening
Temperature range 880°C to 900°C (for carburising) 150°C to 700°C
Effect Wear-resistant exterior, tough interior Balanced toughness and hardness
Application timing Applied before or during initial hardening Always applied after hardening or quenching
Common uses Gears, cams, bearing surfaces Quenched tools, springs, structural parts

 

Metal Technology Engineering: Leaders in Case Hardening Heat Treatment

Metal Technology Engineering specialises in molten salt bath carburising, a highly controlled and versatile method of case hardening. Our facilities include:

Our jobbing capability and flexible furnace design enable us to accommodate a wide range of materials, shapes, and production volumes, all while maintaining the highest quality standards.

Benefits of Case Hardening Heat Treatment

This makes it an ideal process for high-load, high-friction components across various sectors, including automotive, industrial, agricultural, and aerospace.

FAQs: Case Hardening Heat Treatment

What is the best steel for case hardening?

Low-carbon steels such as 1018 or 1020 are commonly used because they are easy to machine and can develop a hard outer case through carburising.

How deep can a carburised case be?

At Metal Technology Engineering, we can produce case depths ranging from 0.1 mm to 3 mm, depending on the treatment time and temperature.

Is case hardening permanent?

Yes, the hardening effect is permanent, forming a hardened outer shell that cannot be reversed through normal wear.

Why temper a component after case hardening?

Tempering reduces internal stress caused by quenching, helps stabilise dimensions, and improves the overall mechanical properties of the part.

Can all metals be case hardened?

Not all. Case hardening is typically used on low-carbon steels. High-carbon steels may become too brittle, and non-ferrous metals usually don’t respond to carburising.

What’s the difference between case hardening and surface coating?

Case hardening modifies the steel’s actual surface through atomic diffusion, whereas coatings sit on top of the material and can wear off more easily.

Engineering Strength Where It Matters

Case hardening and tempering are not interchangeable; they are complementary. Case hardening heat treatment imparts a hardened shell to components, while tempering fine-tunes the internal structure for enhanced performance and reliability.

We combine deep technical knowledge with world-class facilities to deliver precision-engineered, wear-resistant components for demanding applications.

Ready to enhance the performance and lifespan of your components? Contact Metal Technology Engineering today for expert case hardening heat treatment services.

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