SMOLJAN, Božo ;ILJKIĆ, Dario ;TRAVEN, Furio . Predictions of Mechanical Properties of Quenched and Tempered Steel. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 56, n.2, p. 115-120, october 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/>. Date accessed: 19 dec. 2024. doi:http://dx.doi.org/.
Smoljan, B., Iljkić, D., & Traven, F. (2010). Predictions of Mechanical Properties of Quenched and Tempered Steel. Strojniški vestnik - Journal of Mechanical Engineering, 56(2), 115-120. doi:http://dx.doi.org/
@article{., author = {Božo Smoljan and Dario Iljkić and Furio Traven}, title = {Predictions of Mechanical Properties of Quenched and Tempered Steel}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {56}, number = {2}, year = {2010}, keywords = {quenching; tempering; computer simulation; microstructure; mechanical properties; }, abstract = {Mechanical properties of quenched steel directly depend on the degree of quenched steel hardening. Fracture toughness and fatigue limit depend on microstructural constituents, and distribution of the usual intermetallic particles and non-metallic inclusions. Fatigue resistance of quenched and tempered steel is achieved by eliminating coarse alloy carbides present in steel. Properties of matrix may also have an important influence on fracture and fatigue proper behaviour. Most high-strength materials are fracture and fatigue limited. Fatigue strength is directly proportional to the difficulty of dislocation cross slip. Grain size has its greatest effect on fatigue life in the low-stress, high-cycle regime. In this paper, fatigue crack initiation threshold of quenched and tempered steel is predicted. The method of computer simulation of mechanical properties was applied for a workpiece of complex form made of quenched and tempered steel. Distribution of as-quenched hardness within workpiece of complex form was predicted by computer simulation of steel quenching using the finite volume method. Microstructure composition and hardness of tempered steel were predicted based on as-quenched hardness. Fatigue crack initiation threshold of quenched and tempered steel were predicted based on microstructure composition and hardness. It was found that the proposed method can be successfully applied in calculating fatigue crack initiation threshold of quenched and tempered steel.}, issn = {0039-2480}, pages = {115-120}, doi = {}, url = {https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/} }
Smoljan, B.,Iljkić, D.,Traven, F. 2010 October 56. Predictions of Mechanical Properties of Quenched and Tempered Steel. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 56:2
%A Smoljan, Božo %A Iljkić, Dario %A Traven, Furio %D 2010 %T Predictions of Mechanical Properties of Quenched and Tempered Steel %B 2010 %9 quenching; tempering; computer simulation; microstructure; mechanical properties; %! Predictions of Mechanical Properties of Quenched and Tempered Steel %K quenching; tempering; computer simulation; microstructure; mechanical properties; %X Mechanical properties of quenched steel directly depend on the degree of quenched steel hardening. Fracture toughness and fatigue limit depend on microstructural constituents, and distribution of the usual intermetallic particles and non-metallic inclusions. Fatigue resistance of quenched and tempered steel is achieved by eliminating coarse alloy carbides present in steel. Properties of matrix may also have an important influence on fracture and fatigue proper behaviour. Most high-strength materials are fracture and fatigue limited. Fatigue strength is directly proportional to the difficulty of dislocation cross slip. Grain size has its greatest effect on fatigue life in the low-stress, high-cycle regime. In this paper, fatigue crack initiation threshold of quenched and tempered steel is predicted. The method of computer simulation of mechanical properties was applied for a workpiece of complex form made of quenched and tempered steel. Distribution of as-quenched hardness within workpiece of complex form was predicted by computer simulation of steel quenching using the finite volume method. Microstructure composition and hardness of tempered steel were predicted based on as-quenched hardness. Fatigue crack initiation threshold of quenched and tempered steel were predicted based on microstructure composition and hardness. It was found that the proposed method can be successfully applied in calculating fatigue crack initiation threshold of quenched and tempered steel. %U https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/ %0 Journal Article %R %& 115 %P 6 %J Strojniški vestnik - Journal of Mechanical Engineering %V 56 %N 2 %@ 0039-2480 %8 2017-10-24 %7 2017-10-24
Smoljan, Božo, Dario Iljkić, & Furio Traven. "Predictions of Mechanical Properties of Quenched and Tempered Steel." Strojniški vestnik - Journal of Mechanical Engineering [Online], 56.2 (2010): 115-120. Web. 19 Dec. 2024
TY - JOUR AU - Smoljan, Božo AU - Iljkić, Dario AU - Traven, Furio PY - 2010 TI - Predictions of Mechanical Properties of Quenched and Tempered Steel JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - quenching; tempering; computer simulation; microstructure; mechanical properties; N2 - Mechanical properties of quenched steel directly depend on the degree of quenched steel hardening. Fracture toughness and fatigue limit depend on microstructural constituents, and distribution of the usual intermetallic particles and non-metallic inclusions. Fatigue resistance of quenched and tempered steel is achieved by eliminating coarse alloy carbides present in steel. Properties of matrix may also have an important influence on fracture and fatigue proper behaviour. Most high-strength materials are fracture and fatigue limited. Fatigue strength is directly proportional to the difficulty of dislocation cross slip. Grain size has its greatest effect on fatigue life in the low-stress, high-cycle regime. In this paper, fatigue crack initiation threshold of quenched and tempered steel is predicted. The method of computer simulation of mechanical properties was applied for a workpiece of complex form made of quenched and tempered steel. Distribution of as-quenched hardness within workpiece of complex form was predicted by computer simulation of steel quenching using the finite volume method. Microstructure composition and hardness of tempered steel were predicted based on as-quenched hardness. Fatigue crack initiation threshold of quenched and tempered steel were predicted based on microstructure composition and hardness. It was found that the proposed method can be successfully applied in calculating fatigue crack initiation threshold of quenched and tempered steel. UR - https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/
@article{{}{.}, author = {Smoljan, B., Iljkić, D., Traven, F.}, title = {Predictions of Mechanical Properties of Quenched and Tempered Steel}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {56}, number = {2}, year = {2010}, doi = {}, url = {https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/} }
TY - JOUR AU - Smoljan, Božo AU - Iljkić, Dario AU - Traven, Furio PY - 2017/10/24 TI - Predictions of Mechanical Properties of Quenched and Tempered Steel JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 56, No 2 (2010): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - quenching, tempering, computer simulation, microstructure, mechanical properties, N2 - Mechanical properties of quenched steel directly depend on the degree of quenched steel hardening. Fracture toughness and fatigue limit depend on microstructural constituents, and distribution of the usual intermetallic particles and non-metallic inclusions. Fatigue resistance of quenched and tempered steel is achieved by eliminating coarse alloy carbides present in steel. Properties of matrix may also have an important influence on fracture and fatigue proper behaviour. Most high-strength materials are fracture and fatigue limited. Fatigue strength is directly proportional to the difficulty of dislocation cross slip. Grain size has its greatest effect on fatigue life in the low-stress, high-cycle regime. In this paper, fatigue crack initiation threshold of quenched and tempered steel is predicted. The method of computer simulation of mechanical properties was applied for a workpiece of complex form made of quenched and tempered steel. Distribution of as-quenched hardness within workpiece of complex form was predicted by computer simulation of steel quenching using the finite volume method. Microstructure composition and hardness of tempered steel were predicted based on as-quenched hardness. Fatigue crack initiation threshold of quenched and tempered steel were predicted based on microstructure composition and hardness. It was found that the proposed method can be successfully applied in calculating fatigue crack initiation threshold of quenched and tempered steel. UR - https://www.sv-jme.eu/article/predictions-of-mechanical-properties-of-quenched-and-tempered-steel/
Smoljan, Božo, Iljkić, Dario, AND Traven, Furio. "Predictions of Mechanical Properties of Quenched and Tempered Steel" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 56 Number 2 (24 October 2017)
Strojniški vestnik - Journal of Mechanical Engineering 56(2010)2, 115-120
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
Mechanical properties of quenched steel directly depend on the degree of quenched steel hardening. Fracture toughness and fatigue limit depend on microstructural constituents, and distribution of the usual intermetallic particles and non-metallic inclusions. Fatigue resistance of quenched and tempered steel is achieved by eliminating coarse alloy carbides present in steel. Properties of matrix may also have an important influence on fracture and fatigue proper behaviour. Most high-strength materials are fracture and fatigue limited. Fatigue strength is directly proportional to the difficulty of dislocation cross slip. Grain size has its greatest effect on fatigue life in the low-stress, high-cycle regime. In this paper, fatigue crack initiation threshold of quenched and tempered steel is predicted. The method of computer simulation of mechanical properties was applied for a workpiece of complex form made of quenched and tempered steel. Distribution of as-quenched hardness within workpiece of complex form was predicted by computer simulation of steel quenching using the finite volume method. Microstructure composition and hardness of tempered steel were predicted based on as-quenched hardness. Fatigue crack initiation threshold of quenched and tempered steel were predicted based on microstructure composition and hardness. It was found that the proposed method can be successfully applied in calculating fatigue crack initiation threshold of quenched and tempered steel.