Process for on-line quenching of seamless steel tube using residual heat and manufacturing method

The invention claimed is: 1. A process for the on-line quenching of seamless steel tube using residual heat, consisting of the following steps: cooling the tube when the temperature of tube is higher than Ar3 by spraying water evenly along the circumferential direction of the tube so as to continuously cool the tube to be at least 120° C. but not higher than a threshold temperature that is 95° C. less than the martensitic phase transition temperature, ceasing cooling before the tube reaches a temperature of lower than 120° C., wherein the cooling rate is controlled to be between a range of E1° C./s and E2° C./s that is based on the mass percentage of corresponding elements of the seamless steel tube to obtain a microstructure with martensite as the main composition, wherein E1=20×(0.5−C)+15×(3.2−Mn)−8×Cr−28×Mo−4×Ni−2800×B, E2=96×(0.45−C)+12×(4.6−Mn), and wherein C, Mn, Cr, Ni, B and Mo in the equations each represent the mass percentage of corresponding elements of the seamless steel tube, and wherein the seamless steel tube comprises the following composition by mass percentage: C: 0.17%-0.3%, Mn: 0.45%-1.65%, Cr: 0-1.05%, Mo: 0-0.23%, B: 0-0.0025%, and Ni: 0-1.05%. 2. The process for the on-line quenching of seamless steel tube according to claim 1 , wherein the total amount of alloying elements of the seamless steel tube is not more than 5% by mass, said alloying elements being at least one selected from C, Mn, Cr, Mo, Ni, Cu, V, Nb and Ti. 3. The process for the on-line quenching of seamless steel tube according to claim 2 , wherein the total amount of alloying elements of the seamless steel tube is 0.2% to 5% by mass. 4. The process for the on-line quenching of seamless steel tube according to claim 1 , wherein the phase ratio of martensite is not less than 90%. 5. A method for manufacturing a seamless steel tube using residual heat, comprising the following steps: (1) manufacturing the billet; (2) forming the billet into tube; (3) cooling the tube by the process for the on-line quenching of seamless steel tube according to claim 1 ; and (4) tempering. 6. The method for manufacturing seamless steel tube according to claim 5 , wherein in the step (4), the tempering temperature is not less than 400° C., the tempering time is not less than 30 min. 7. The method for manufacturing seamless steel tube according to claim 5 , wherein in the step (2), the billet is heated to 1100° C. to 1300° C., maintained for 1-4 hours, followed by piercing, successive rolling, stretch reducing or sizing, so as to obtain the tube.