摘要
Studies show that manganese sulfide (MnS) inclusions in pipeline steel affect the lateral performance of steel in its rolling deformation, as well as the hydrogen induced cracking and sulfide stress corrosion cracking resistance performance. To inhibit the precipitation of MnS and its effect on pipeline steel, a quenching experiment and a diffusion couple experiment, which investigated the evolution of MnS inclu sions in Ti bearing X80 pipeline steel, were conducted. The experimental results show that the transfor marion of the MnS inclusions during solidification is as follows: MnS→titanium sulfide (TiS) →Ti4 C2S2. The transition temperatures of MnS to TiS and TiS to Ti4C2S2 are 1673 and 1273 K, respectively, and the overall size of the sulfide decreased as well. Thermodynamic calculation results confirm that the transi tion temperatures of MnS to TiS and TiS to Ti4C2S2 are 1 623 and 1 203 K, respectively. When the sulfur content in the X80 pipeline steel is 0. 0015%, all the sulfur in the steel can be converted into Ti4C2S2 with a titanium content of more than 0.02%.
Studies show that manganese sulfide (MnS) inclusions in pipeline steel affect the lateral performance of steel in its rolling deformation, as well as the hydrogen induced cracking and sulfide stress corrosion cracking resistance performance. To inhibit the precipitation of MnS and its effect on pipeline steel, a quenching experiment and a diffusion couple experiment, which investigated the evolution of MnS inclu sions in Ti bearing X80 pipeline steel, were conducted. The experimental results show that the transfor marion of the MnS inclusions during solidification is as follows: MnS→titanium sulfide (TiS) →Ti4 C2S2. The transition temperatures of MnS to TiS and TiS to Ti4C2S2 are 1673 and 1273 K, respectively, and the overall size of the sulfide decreased as well. Thermodynamic calculation results confirm that the transi tion temperatures of MnS to TiS and TiS to Ti4C2S2 are 1 623 and 1 203 K, respectively. When the sulfur content in the X80 pipeline steel is 0. 0015%, all the sulfur in the steel can be converted into Ti4C2S2 with a titanium content of more than 0.02%.
基金
supported by the National Natural Science Foundation of China(Grant No.51604201)