Pangang Successfully Developed A New Type Of Titanium Alloyed Wear-resistant Steel To Fill The Technical Gap in The Domestic Production Of High-titanium Steel
Jun 20, 2022
Pangang successfully developed a new type of titanium alloyed wear-resistant steel to fill the technical gap in the domestic production of high-titanium steel

On June 14th, the reporter learned from Pangang Group that in order to give full play to the high-strength, high-toughness, corrosion-resistant and wear-resistant characteristics of titanium in steel, and to develop and extend the back-end high-value applications, Pangang, in collaboration with Beijing Institute of Steel Research, Chongqing University, Northeastern University and other scientific research institutions, has successfully developed a new type of titanium alloyed wear-resistant steel, opening up a new scenario for the application of titanium resources. At the same time, a complete industrial chain of “resource—product—industry” integration has been formed, and a green and low—cost preparation technology for titanium alloyed wear-resistant steel has been formed, filling the gap in the domestic use of “continuous casting-hot rolling” technology to produce high-titanium steel.
It is understood that through a combination of laboratory basic theoretical research, industrial test preparation, and industrial large—scale application, the project team has gradually broken through a number of key technical problems plaguing the continuous casting production of high-titanium steel, and researched and developed the “continuous casting-hot continuous rolling” preparation process of titanium-containing wear-resistant steel. Compared with the traditional process, the titanium alloyed wear-resistant steel produced by this process has the advantages of high production efficiency, high yield, low production cost and wide product range. “The production process is simple, has both wear resistance and toughness, and has broad application prospects. "Xiong Xuegang, a senior engineer at Pangang Research Institute, said.
Xiong Xuegang introduced that in the production process route of wear-resistant steel, Pangang creatively uses titanium carbide particles to enhance wear resistance and improve toughness, which can effectively reduce energy consumption.
It is worth mentioning that the technology studied in the project can also be popularized and applied in the production of various types of high-titanium steels, which provides an important process and technology platform for enterprises to further build and develop high-performance and low-cost titanium-containing high-tech material products and achieve low-cost, high-efficiency, large-scale preparation and application. It also promotes the high-value and deep extension and sustainable development of the Panxi vanadium-titanium industry chain, and enhances the overall level of high-titanium steel production in China and the self-sufficiency rate of high-end products. It provides strong technical support.






