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C10E
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Journal Articles
Alloy Digest (2023) 72 (12): CS-265.
Published: 01 December 2023
... 1010, C10E, and C10R are wrought low-carbon (carbon = 0.07–0.13%) non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within...
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1010, C10E, and C10R are wrought low-carbon (carbon = 0.07–0.13%) non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of these steel grades, strength and hardness will increase with increase in carbon content and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1010, C10E, and C10R are widely used for lightly stressed parts where cold formability is the primary requisite. They are less expensive than 1008 and can be used when the requirements for cold forming are less exacting. 1010, C10E, and C10R may also be used in the case hardened, nitrided, or nitrocarburized condition. This datasheet provides information on composition, physical properties, microstructure, hardness, and tensile properties. It also includes information on forming and heat treating. Filing Code: CS-265. Producer or source: Heat Treater's Guide.
Journal Articles
Alloy Digest (2022) 71 (6): CS-224.
Published: 01 June 2022
... 1010, C10E, and C10R are wrought low-carbon non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are widely used for lightly stressed parts that require excellent cold formability and excellent weldability. They are less expensive than 1008...
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1010, C10E, and C10R are wrought low-carbon non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are widely used for lightly stressed parts that require excellent cold formability and excellent weldability. They are less expensive than 1008 / C8C and can be used when the requirements for cold forming are less exacting. C10, C10E, and C10R may also be used in the carburized or carbonitrided, and subsequently quench hardened and tempered condition for parts requiring a hard, wear-resistant surface, but with little need for increased mechanical properties in the core. This datasheet provides information on composition, physical properties, hardness, elasticity, and tensile properties. It also includes information on corrosion resistance and wear resistance as well as forming, heat treating, machining, and joining. Filing Code: CS-224. Producer or source: Data Survey.
Journal Articles
Alloy Digest (2024) 73 (6): CS-267.
Published: 01 June 2024
... Hardenability of Steels 14. Heat Treatment Guide, Steel Navigator, Ovako AB 15. C10E (1.1121), Lucefin S.p.A., 2018 16. Heating for Forging, E.G. Nisbett, Steel Forgings: Design, Production, Selection, Testing, and Application, ASTM Stock No. MNL53, ASTM International, 2005, p 32 33 17. G.F. Vander Voort...
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1006 is a wrought low-carbon (carbon ≤ 0.08%) non-alloy steel that is used in the as rolled, annealed, normalized, or cold worked condition. This steel is characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of this steel grade, both strength and hardness will increase with increase in carbon and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1006 is widely used for lightly stressed parts where cold formability or drawability is the primary requisite. In general, it is not intended for heat treatment after cold working. 1006 may, however, be used in the case hardened, nitrided, or nitrocarburized condition. This datasheet provides information on composition, physical properties, microstructure, hardness, and tensile properties. It also includes information on forming and heat treating. Filing Code: CS-267. Producer or source: Heat Treater's Guide.
Journal Articles
Alloy Digest (2023) 72 (11): CS-264.
Published: 01 November 2023
... Navigator, Ovako AB 18. C10E (1.1121), Lucefin S.p.A., 2018 19. Heating for Forging, E.G. Nisbett, Steel Forgings: Design, Production, Selection, Testing, and Application, ASTM Stock No. MNL53, ASTM International, 2005, p 32 33 20. G.F. Vander Voort, Microstructure of Carbon- and LowAlloy Steels, Buehler...
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1008 and C8C are wrought low-carbon (carbon ≤ 0.10%) non-alloy steels that are used in the as-rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of these steel grades, strength and hardness will increase with increase in carbon content and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1008 and C8C are widely used for lightly stressed parts where cold formability or drawability is the primary requirement. In general, they are not intended for heat treatment after cold working.1008 may, however, be used in the case hardened, nitrided, or nitrocarburized condition. This datasheet provides information on composition, physical properties, microstructure, hardness, and tensile properties. It also includes information on forming and heat treating. Filing Code: CS-264. Producer or source: Heat Treater's Guide.
Journal Articles
Alloy Digest (2024) 73 (9): CS-268.
Published: 05 September 2024
... Part 3: Case-Hardening Steels 12. JIS G 4051:2016, Carbon Steels for Machine Structural Use 13. SAE J406:2009, Methods of Determining Hardenability of Steels 14. Heat Treatment Guide, Steel Navigator, Ovako AB 15. C10E (1.1121), Lucefin S.p.A., 2018 16. C15E (1.1141), Lucefin S.p.A., 2018 17. Heating...
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1012 and S12C are wrought low-carbon (carbon = 0.10–0.15 percent) non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of these steel grades, strength and hardness will increase with increase in carbon content and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. Grades 1012 and S12C are widely used for lightly stressed parts that require higher strength levels than can be achieved by the lower carbon grades and for applications where cold formability is the primary requisite. They are less expensive than 1008 and can be used when the requirements for cold forming are less exacting. 1012 and S12C may also be used in the case hardened, nitrided, or nitrocarburized condition. This datasheet provides information on composition, physical properties, microstructure, hardness, and tensile properties. It also includes information on low and high temperature performance as well as forming and heat treating. Filing Code: CS-268. Producer or source: Heat Treater's Guide.
Journal Articles
Alloy Digest (2022) 71 (8): CS-228.
Published: 01 August 2022
...-228 / 13 16. C10E (1.1121), Lucefin S.p.A., 2018 17. SAE J406:2009, Methods of Determining Hardenability of Steels 18. P.A. Schweitzer, Fundamentals of Metallic Corrosion: Atmospheric and Media Corrosion of Metals, 2nd ed., CRC Press, 2007, P 67 82, httpsdoi.org/10.1201/ 9780849382444 19. R.W. Revie...
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1008 and C8C are wrought low-carbon (carbon ≤ 0.10%) non-alloy steels that are used in the as-rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of these steel grades, strength and hardness will increase with increase in carbon and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1008 and C8C are widely used for lightly stressed parts where cold formability or drawability is the primary requisite. In general, they are not intended for heat treatment after cold working. 1008 may, however, be used in the carburized or carbonitrided, and subsequently quench hardened and tempered condition for parts requiring a hard, wear-resistant surface, but with little need for increased mechanical properties in the core. This datasheet provides information on composition, physical properties, microstructure, hardness, elasticity, and tensile properties as well as fatigue. It also includes information on corrosion resistance as well as casting, forming, heat treating, machining, and joining. Filing Code: CS-228. Producer or source: Data Survey.
Journal Articles
Alloy Digest (2022) 71 (8): CS-229.
Published: 01 August 2022
..., 11th ed., Steelmaking and Refining Volume, The AISE Steel Foundation, 1998, p 69 15. SAE J1099:2018, Technical Report on Low Cycle Fatigue Properties Ferrous and Non-Ferrous Materials 16. U1004, Bright Steels Pty Ltd 17. C10E (1.1121), Lucefin S.p.A., 2018 18. SAE J406:2009, Methods of Determining...
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1005 and C4C are wrought low-carbon (carbon ≤ 0.06%) non-alloy steels that are used in the as rolled, annealed, normalized, or cold worked condition. These steels are characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of these steel grades, strength and hardness will increase with increase in carbon and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1005 and C4C are widely used for lightly stressed parts where cold formability or drawability is the primary requisite. In general, they are not intended for heat treatment after cold working. 1005 may, however, be used in the carburized or carbonitrided, and subsequently quench hardened and tempered condition for parts requiring a hard, wear-resistant surface, but with little need for increased mechanical properties in the core. This datasheet provides information on composition, physical properties, microstructure, hardness, elasticity, and tensile properties as well as fatigue. It also includes information on corrosion resistance and wear resistance as well as forming, heat treating, machining, and joining. Filing Code: CS-229. Producer or source: Data Survey.
Journal Articles
Alloy Digest (2022) 71 (10): CS-232.
Published: 01 October 2022
...-Cliffs Inc., 2021 24. C10E (1.1121), Lucefin S.p.A., 2018 25. SAE J406:2009, Methods of Determining Hardenability of Steels 26. P.A. Schweitzer, Fundamentals of Metallic Corrosion: Atmospheric and Media Corrosion of Metals, 2nd ed., CRC Press, 2007, p 67 82, httpsdoi.org/10.1201/ 9780849382444 27. R.W...
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1006 is a wrought low-carbon (carbon ≤ 0.08%) non-alloy steel that is used in the as rolled, annealed, normalized, or cold worked condition. This steel is characterized by low strength, high ductility, excellent cold formability, and excellent weldability. Within the carbon range of this steel grade, both strength and hardness will increase with increase in carbon and with cold work. Such increases in strength are at the sacrifice of ductility or the ability to withstand cold deformation. 1006 is widely used for lightly stressed parts where cold formability or drawability is the primary requisite. In general, it is not intended for heat treatment after cold working. 1006 may, however, be used in the carburized or carbonitrided, and subsequently quench hardened and tempered, condition for parts requiring a hard, wear-resistant surface, but with little need for increased mechanical properties in the core. This datasheet provides information on composition, physical properties, microstructure, hardness, elasticity, and tensile properties. It also includes information on corrosion resistance as well as casting, forming, heat treating, machining, and joining. Filing Code: CS-232. Producer or source: Data Survey.