The heat treatment of Hardox 450 steel is crucial, as it directly affects the performance and application areas of the steel. In the field of machinery manufacturing, properly heat-treated Hardox 450 steel can significantly improve the wear resistance, strength and toughness of parts, extend the service life of mechanical equipment, and reduce maintenance costs. For example, in mining equipment, such as excavator buckets and ore conveying equipment, after reasonable heat treatment, they can withstand the high-intensity wear and impact of the ore.
In the construction industry, Hardox 450 steel is commonly used in concrete mixer trucks, pump trucks, mixing blades and hoppers, among other components. Through heat treatment, it has excellent wear resistance and can withstand the wear caused by frequent material mixing and conveying.
In the metallurgical industry, Hardox 450 steel is also often used in wear-resistant parts such as blast furnace inner walls and iron ore conveyor belts, and is heat treated to improve its smelting efficiency and equipment service life.
In summary, the heat treatment of Hardox 450 steel enables it to play a key role in many fields and meet the stringent requirements for material properties under different working conditions.
2. Types and characteristics of heat treatment
(1) Annealing
Annealing is a heat treatment process in which steel parts are heated to a certain temperature, kept warm for a certain period of time, and then slowly cooled to room temperature. For Hardox 450 steel, the annealing temperature is usually 10 (20 – 50℃), and it is commonly heated at 830 – 880℃, and then cooled in the furnace after holding for 2 – 5h. Annealing can reduce the hardness of steel, improve plasticity, refine grains, uniform the structure of steel, eliminate internal stress in steel, and prevent deformation and cracking of parts after processing.
(2) Normalizing the fire
Normalizing is to heat the steel to 30 – 50 degrees Celsius above Ac3 (hypoeutectoid steel) and Accm (hypereutectoid steel), hold it for a period of time, and then cool to room temperature in air or forced flowing air. When Hardox 450 steel is normalized, the temperature is generally 40 – 60°C above Ac3 or Accm. Normalizing can improve the structure and cutting performance. For parts with low strength requirements, normalizing can also be used as the final heat treatment. At the same time, normalizing can refine the grains, homogenize the structure, and improve the strength, hardness and toughness of steel.
(3) Quenching
Quenching is a heat treatment process in which steel is heated above the phase transformation temperature, kept warm for a certain period of time, and then rapidly cooled to obtain a martensite structure. The quenching temperature of Hardox 450 steel, under normal circumstances, is 30 – 50℃ above Ac3 for hypoeutectoid steel, and 30 – 50℃ above Ac1 for eutectoid steel and hypereutectoid steel. Commonly used cooling media include water and oil. Water has a greater cooling capacity in the range of 650 – 550°C, but it can easily cause deformation and cracking of parts; oil has a low cooling capacity in the range of 300 – 200°C, which is beneficial to reducing workpiece deformation, but 650 – 550 The cooling capacity in the ℃ range is also low, which is not conducive to the hardening of steel. Quenching imparts high hardness and wear resistance to Hardox 450 steel.
(4) Tempering
Tempering refers to the process of heating quenched steel to a temperature below A1, holding it for an appropriate period of time, and then cooling it in air or water. The choice of tempering temperature is determined based on the required mechanical properties, and the holding time also varies depending on the size and requirements of the steel parts. Through tempering, the internal stress of quenching can be reduced or eliminated to prevent deformation or cracking; the required mechanical properties can be obtained, such as adjusting hardness, toughness, etc.; the size can be stabilized to transform the quenched structure into a balanced or close to balanced structure to prevent deformation during use. .
3. Key points and precautions
(1) Temperature control
Temperature plays a decisive role in the heat treatment of Hardox 450 steel plate. Appropriate temperature can promote the ideal transformation of the internal structure of steel to achieve the required properties. For example, during the quenching process, if the temperature is too low, the martensite structure may not be fully formed, resulting in insufficient hardness and wear resistance; while if the temperature is too high, the grains may become coarse, reducing the toughness and strength of the steel.
Accurate temperature control requires high-precision heating equipment and temperature monitoring systems. In actual operation, the heating temperature should be accurately set based on factors such as the composition of the steel, the size and shape of the workpiece, and real-time monitoring and adjustment through temperature sensors such as thermocouples to ensure the accuracy and stability of the temperature.
(2) Time control
The holding time is also important for the effectiveness of the heat treatment of Hardox 450 steel. If the holding time is too short, the structural transformation inside the steel may be incomplete, affecting the performance; if the holding time is too long, the grains may grow excessively and reduce the performance of the steel.
In annealing treatment, the holding time is generally 2-5 hours; in normalizing, the holding time is relatively short; in quenching, the holding time needs to be determined according to the thickness of the steel and the heating equipment. For example, for thinner workpieces, the holding time is relatively short, while thicker workpieces require a longer holding time.
(3) Cooling method
Different cooling methods have a significant impact on the performance of Hardox 450 steel. Single-liquid quenching is to cool the heated steel parts directly in a cooling medium, such as quenching in water. The cooling speed is fast and high hardness can be obtained, but it is easy to cause deformation and cracking of the workpiece. Double-liquid quenching is first cooled in a medium with a fast cooling rate, such as cooling in water to close to the Ms point, and then quickly transferred to a medium with a slower cooling rate, such as cooling in oil. This method can reduce the temperature to a certain extent. Risk of deformation and cracking while ensuring a certain hardness.
When selecting a cooling method, factors such as the performance requirements of the steel and the shape and size of the workpiece need to be comprehensively considered. For workpieces with complex shapes and large sizes, a gentler cooling method is usually preferred to reduce the possibility of deformation and cracking.
4. Methods to optimize heat treatment effects
(1) Use protective coatings
During the heat treatment of Hardox 450 steel, the use of protective coatings such as RLHY-33 Metal High Temperature Antioxidation Coating can provide significant protection. RLHY-33 coating can form a dense continuous oxide layer in high temperature environment to seal the steel billet and reduce the temperature drop of the cast billet. It has obvious anti-oxidation and decarburization effects, has no obstruction to the quenching medium, and is easy to operate. When using, first clean the surface of the steel parts to be treated to ensure that there is no oil stain and impurities. Then use brushing, roller coating or high-pressure airless spraying to evenly cover the surface of the steel parts with the coating. Apply twice to completely cover the steel matrix. The curing method can be self-curing at room temperature or heating curing at 60 to 70 degrees.
(2) Choose appropriate equipment
Choosing the right heat treatment equipment is crucial to improving the treatment results and quality stability of Hardox 450 steel. Advanced heat treatment equipment, such as box furnaces and salt bath furnaces with automatic temperature control and adjustment devices, can accurately control the heating temperature and ensure that steel parts are heated evenly. Box-type furnaces are generally suitable for single-piece or small-batch production, while salt bath furnaces heat evenly and quickly, can accurately control temperature, and are suitable for heat treatment processes with higher temperature requirements. In addition, heat treatment equipment with a convection cooling system can speed up cooling, which is beneficial to obtaining ideal tissue structure and performance. For example, the roller-hearth bright heat treatment furnace is suitable for the heat treatment of large-sized and large-volume Hardox 450 steel, while the mesh-belt bright heat treatment furnace is suitable for the processing of small-diameter, thin-walled precision steel parts. These equipment can effectively reduce quality problems caused by temperature deviation and uneven cooling, and improve the stability and consistency of heat treatment.
5. Practical application case analysis
(1) Mining industry application
In the mining industry, Hardox 450 steel is commonly used in excavator buckets. After specific heat treatment processes, such as quenching and tempering, the surface hardness of the bucket can reach more than 450HBW, greatly improving its wear resistance. This enables the bucket to withstand strong wear and tear of the ore during the mining process and extend its service life. For example, a mining company uses a bucket made of optimized heat-treated Hardox 450 steel, which lasts 30% longer than a bucket made of traditional materials, reducing the frequency of equipment replacement and lowering production costs.
At the same time, in parts of ore conveying equipment, such as conveyor belt rollers, Hardox 450 steel not only improves hardness and wear resistance, but also enhances its impact resistance through reasonable heat treatment. Even under the frequent impact and friction of ore, it can maintain good working condition, reduce equipment maintenance and downtime, and improve the production efficiency of the mine.
(2) Application in construction industry
In the construction industry, Hardox 450 steel is widely used in the mixing blades of concrete mixer trucks. Through the combination of normalizing and tempering heat treatments, the mixing blades obtain excellent wear resistance and a certain toughness. Under frequent concrete mixing conditions, the wear of the blades is significantly reduced and the service life is greatly increased.
Among the hopper components of construction machinery, the surface hardness of the Hardox 450 steel hopper is significantly improved through heat treatment methods of quenching and low-temperature tempering, and its wear resistance is enhanced while maintaining good strength and toughness. This enables the discharge hopper to maintain stable performance when it is subjected to long-term erosion and wear of concrete, reduces the number of repairs, and improves the efficiency and quality of construction.
6. Future development trends and prospects
With the continuous advancement of science and technology and the increasing requirements for material performance in the industrial field, the heat treatment technology of Hardox 450 steel also presents some potential development directions and innovation points.
In terms of process optimization, more precise temperature control and time management technologies will continue to emerge. By introducing advanced sensors and intelligent control systems, millisecond-level precise control of temperature and time during the heat treatment process can be achieved, thereby further optimizing the structural structure and performance of steel.
The research and development of new heat treatment media will also become an important trend. The currently commonly used water and oil cooling media have certain limitations. In the future, new cooling media may be developed that have higher cooling efficiency, are more environmentally friendly, and can better control the deformation of steel parts.
In terms of equipment innovation, heat treatment equipment based on the Internet of Things and big data technology will enable remote monitoring and fault diagnosis. This can not only improve production efficiency, but also detect and solve problems in time, ensuring the stability and reliability of the heat treatment process.
In addition, integration with other advanced manufacturing technologies is also one of the future development directions. For example, combining 3D printing technology with heat treatment of Hardox 450 steel is expected to enable customized production of complex-shaped parts and achieve better performance.
At the same time, green and environmentally friendly heat treatment processes will receive more attention. Research and develop heat treatment technology with low energy consumption and low emissions to reduce the impact on the environment and meet the requirements of sustainable development.
In terms of materials research, by fine-tuning the composition of Hardox 450 steel and adding new alloy elements, combined with innovative heat treatment processes, it is expected to further improve its performance and expand its application under more demanding working conditions.
In short, the heat treatment technology of Hardox 450 steel will develop in a more precise, efficient, environmentally friendly and innovative direction in the future, providing better material solutions for various industrial fields.