Plasma Diffusion Technology in Wear-Resistant Parts — Enhancing Surface Durability and Extending Service Life

In the field of engineering machinery, mining equipment, and concrete batching plants, wear-resistant parts are critical to maintaining stable operation. Components such as mixing arms, worm rotors, hammer plates, and transmission castings are continuously subjected to high loads, abrasion, and fatigue.

Traditional approaches to improve wear resistance, such as material upgrades, surface coatings, or heat treatment, often face challenges: uneven hardness, peeling, distortion, or limited effectiveness in high-load and continuous operation conditions.

Plasma diffusion technology offers a new, highly effective solution by enhancing the surface properties of critical parts while preserving the integrity of the core material.

What is Plasma Diffusion Technology?

Plasma diffusion is a metal surface strengthening process in which selected alloying elements are diffused into the surface layer of a metal part using plasma activation under controlled atmosphere and temperature.

Key features:

• Forms a metallurgically bonded hardened layer on the surface

• Retains original toughness and strength of the part’s core

• Maintains dimensional and assembly precision

• Significantly improves wear resistance, fatigue strength, and corrosion resistance

Unlike some traditional coatings, plasma diffusion cannot peel off and does not distort complex-shaped parts.

Plasma Diffusion Process Flow

1. Material Selection and Pre-Analysis

• Evaluate the part’s base material, operating load, and wear characteristics

• Identify critical functional areas for reinforcement

2. Surface Preparation

• Cleaning, degreasing, and oxide removal to ensure uniform diffusion

3. Plasma Activation

• Part placed in controlled atmosphere chamber

• Plasma generates reactive surface sites for alloy diffusion

4. Alloy Diffusion

• Alloying elements diffuse into surface layer

• Depth and concentration controlled based on working conditions

5. Cooling and Inspection

• Controlled cooling preserves core toughness

• Hardness, microstructure, and surface quality inspection

6. Final Machining and Assembly

• Ensure dimensional accuracy and assembly fit

• Ready for direct installation

This workflow ensures consistent, high-quality reinforcement without compromising geometry or core properties.

Plasma Diffusion vs. Traditional Methods

Summary: Plasma diffusion provides a stable, reliable, and long-lasting solution for wear-resistant parts, overcoming traditional heat treatment or coating limitations.