Institution of Higher Education Prydniprovs'ka State Academy of Civil Engineering and Architecture

1. Institution of Higher Education Prydniprovs'ka State Academy of Civil Engineering and Architecture Kseniia Salangina 832-AMS group THE INVESTIGATION OF KINETICS OF FRACTURE OF HSLAX70 STEEL WITH DIFFERENT STRUCTURE Scientific Supervisors: Ph.D. O. Beketov Ph.D. D. Laukhin English Supervisor: E. Kuznetsova

2. Purpose: to investigate the kinetics of fracture of HSLA X70 steel in different conditions, namely: in the cold water, boiling water, oil and in the air. Object: the low-carbon low-alloyed HSLA X70 steel micro-alloyed with niobium and vanadium. Sheets of HSLA X70 steel 18,7mm thick (for the experimental part). Topicality: reduction of steel intensity of construction iron due to the utilization of HSLA X70 steel with a high level of running ability. Methods of research: investigations, analysis and photos of samples were made with the help of Scanning Electron Microscope SEM-160I. To research the samples structure a metallographic microscope NEOPHOT-2 was used.

3. BRITTLE FRACTUREDUCTILE FRACTURE Fig.1. Schematic presentation of three characteristic features of quasi-cleavage. Fig.2. Three main types of void coalescence: a) it occurs under the action ofplastic deformation in direction of applied stresses; b) It is under the action of both theinfluence of plastic deformation in direction ofapplied load and the shear stresses in the area of maximum shear stresses; c) It is under the action ofuneven plastic deformation in active direction ofapplied load.

4. X70 STEEL AFTER THE CONTROL ROLLING AND HEAT TREATMENT Fig. 4. The microstructure of steel after cooling in the boiling water. Fig. 3.The microstructure of steel after cooling in the air. Fig. 5. The microstructure of steelafter cooling in the oil. Fig. 6. The microstructure of steel after cooling in the cold water.

5. THE MICROSTRUCTURE OF FRACTURE OF HSLA X70 STEEL Fig. 8. After cooling in boiling water. Fig. 7. After cooling in the air. Fig. 9. After cooling in the oil. Fig.10. After cooling in cold water.

6. FRACTURE INVESTIGATION RESULTS Fracture after cooling in the air: – ductile fracture; – microvoid coalescence; – pearlite colonies have features of brittle fracture. Fracture after cooling in the boiling water: – ductile fracture; – microvoid coalescence; – cleavage facets. Fracture after cooling in the oil: – microvoid coalescence; – equiaxed pits. Fracture after cooling in the cold water: – ductile fracture; – elements of brittle fracture; – martensite and bainite colonies; – quasi-cleavage; – screw dislocations.

7. EFFICIENCY After checking up and analyzing of finding of the receivedcalculations, we can make a conclusion, that substitution of elements of reinforcing cage for HSLA X70 steel is an economically sound procedure. It shows a general tendency of cost-effectiveness of high-strength steels of HSLA X70 type application and both utilization and production of construction iron of high-duty benefits from it.Utilization of HSLA X70 steel is economical and actual nowadays because it reduces the steel intensity of construction iron due to the high level of running ability.

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