Heat Treatment Services
Improve the physical and mechanical properties of materials through heat treatment. Improve hardness, increase strength, enhance toughness, stress relief, and more.
Mekalite
Harder with Heat Treatment
Enhancing hardness makes materials more resistant to wear and abrasion. Make them less prone to fracture or failure under impact or shock loading.
Mekalite approach involves a systematic sequence of steps, beginning with thoroughly analyzing raw materials to determine the most suitable heat treatment methods. Then, finalizing with rigorous testing, such as hardness assessments, to verify that the heat treatment adheres to specified requirements, with a stringent focus on quality control to ensure consistent and reliable final products.
Heat treatment processes like annealing can induce recrystallization, leading to a more uniform and refined microstructure, improving overall material properties. Mekalite can precisely control heat treatment processes to achieve desired outcomes. This level of control allows for the customization of material properties based on specific engineering requirements.
TECHNOLOGY OVERVIEW
More About Heat Treatment
What’s Heat Treatment?
Heat treatment is a process that modifies materials’ physical, mechanical, and sometimes chemical characteristics, especially metals or alloys. The method involves controlled heating and cooling to enhance properties like hardness, strength, toughness, and ductility.
Annealing involves slow cooling to relieve internal stresses and improve ductility while quenching rapidly cools to increase hardness. Tempering balances hardness and toughness by reheating and controlled cooling.
Normalizing enhances grain structure and properties, and hardening increases hardness through rapid cooling. These processes are important in manufacturing tools, automotive parts, gears, and other products, allowing materials to be customized for specific applications.
Advantages of Heat Treatment
- Improved hardness
- Enhanced strength
- Increased toughness
- Reduction of brittleness
- Better wear resistance
- Enhanced machinability
- Improved dimensional stability
- Stress relief
- Modification of material properties
- Increased corrosion resistance
Design Considerations for Heat Treatment
- Choose materials with known heat treatment characteristics.
- Clearly define objectives for desired properties.
- Control rates to prevent distortion or cracking.
- Maintain precise furnace temperature.
- Consider the impact of the atmosphere on surface chemistry.
- Choose based on material and desired cooling rate.
- Design fixtures for part stability during treatment.
- Ensure even heating and cooling for consistent properties.
- Address potential stresses with post-treatment processes.
Get An Accurate Quote For Your Next Projects
No matter your project is complicated or simple, no matter is metal or plastic, you will get an accurate quotation within 6 hours.