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Mn-Cr-Mo-V steel

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Published: 01 January 2005
Fig. 16 Influence of initial die hardness on wear of die steels. The wear index is defined as average cross-sectional area of wear depressions in dies. No. 5 die steel: 0.6 C, 0.3 Si, 0.6 Mn, 1.5 Ni, 0.6 Cr, 0.25 Mo; 5% Cr steel: 0.33 C, 0.3 Si, 1.0 Mn, 5.0 Cr, 1.5 Mo, 1.5 W, 0.5 V; 12% Cr More
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Published: 01 January 1990
Fig. 15 Distribution of mechanical properties and carbon and alloy contents for alloy steel castings. (a) Cr-Mo-V steel, 1.00Cr-1.00Mo-0.25V, normalized and tempered; 25 heats. (b) Cr-Mo steel, 1.00Cr-1.00Mo, normalized and tempered; 25 heats. (c) Nickel steel, 0.20C-2.25Ni, normalized More
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Published: 01 January 1987
Fig. 601 Elevated-temperature fracture surface of Cr-Mo-V alloy steel specimen tensile tested at failure at 500 °C (930 °F) and an initial strain rate of 4.4 × 10 −5 /s. Composition of the hot-rolled steel plate: 0.29% C, 1.01% Cr, 1.26% Mo, 0.25% V, 0.01% Mn, 0.59% Si, 0.037% P, 0.004% S More
Series: ASM Handbook
Volume: 18
Publisher: ASM International
Published: 31 December 2017
DOI: 10.31399/asm.hb.v18.a0006392
EISBN: 978-1-62708-192-4
... resistance of various materials in each specific application. Example 4: Wear of Grinding Balls Performances of low-alloy martensitic steel grinding balls containing 0.80% C, 0.70% Mn, 0.30% Si, 0.20% Cr, 0.15% Mo, and 0.002% B (water quenched to 60 HRC) and pearlitic steel containing 0.80% C, 0.70...
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Published: 01 December 1998
Fig. 47 Effect of carbon content and testing temperature on fracture toughness of alloy steels. Data are for steels containing 0.65% Mn, 0.35% Si, 0.80% Cr, 3.00% Ni, 0.30% Mo, 0.10% V, and various amounts of carbon; all steels were hardened and tempered to a yield strength of approximately More
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Published: 01 January 1996
Fig. 12 Effect of carbon content and testing temperature on fracture toughness of alloy steels. Data are for steels containing (in wt%) 0.65 Mn, 0.35 Si, 0.80 Cr, 3.00 Ni, 0.30 Mo, 0.10 V, and various amounts of carbon; all steels were hardened and tempered to a yield strength of approximately More
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Published: 01 January 1996
Fig. 10 Effect of nickel content on fracture toughness of high-strength steels containing (in wt%) 0.35 C, 0.65 Mn, 0.35 Si, 0.80 Cr, 0.30 Mo, 0.10 V, and various amounts of nickel; all steels hardened to a yield strength of 1175 MPa (170 ksi). Source: Ref 19 , 20 More
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Published: 01 December 2004
: 0.18% C, 0.58% Mn, 0.31% Si, 0.18% Ni, 11.7% Cr, 0.49% Mo, 0.01% Al, 0.38% V, 0.20% Nb, and 0.033% N. This diagram is based on observations of specimens subjected to more than 30 different tempering treatments in the temperature interval of 500 to 700 °C (930 to 1290 °F). Source: Ref 9 More
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Published: 01 January 1993
Fig. 1 Graville diagram showing susceptibility of steels to hydrogen-assisted cold cracking relative to carbon content and carbon equivalent (CE), where CE = %C + (%Mn + %Si)/6 + (%Ni + %Cu)/15 + (%Cr + %Mo + %V)/5. Susceptibility to cold cracking progressively increases as steels migrate from More
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Published: 01 December 1998
Fig. 46 Effect of nickel content on fracture toughness of several steels. (a) High-strength steels containing 0.35% C, 0.65% Mn, 0.35% Si, 0.80% Cr, 0.30% Mo, 0.10% V, and various amounts of nickel; all steels hardened to a yield strength of 1175 MPa (170 ksi). Source: Ref 8 , 9 . (b) Lower More
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Published: 01 January 1996
Fig. 22 Effect of carbon content and tempering temperature on fracture toughness of alloy steels containing (in wt%) 0.65 Mn, 0.35 Si, 0.80 Cr, 3.00 Ni, 0.30 Mo, 0.10 V, and various amounts of carbon. Source: Ref 19 More
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Published: 01 January 1996
Fig. 20 Variation of room-temperature notch-bend fracture toughness with tempering temperature for steel containing (in wt%) 0.35 C, 0.65 Mn, 0.35 Si, 0.80 Cr, 0.30 Mo, 0.10 V, and various amounts of nickel. Source: Ref 20 More
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Published: 01 January 1996
Fig. 21 Variation of notch-bend fracture toughness at −73 °C (−100 °F) with tempering temperature for steels containing (in wt%) 0.35 C, 0.65 Mn, 0.35 Si, 0.80 Cr, 0.30 Mo, 0.10 V, and various amounts of nickel. Source: Ref 19 More
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Published: 01 October 2014
Fig. 1 Phase diagrams for categories of alloying elements in steels. (a) Austenite stabilizers, type I (e.g., Mn, Ni, Co). (b) Austenite stabilizers, type II (e.g., Cu, Zn, Au, N, C). (c) Ferrite stabilizers, type I (e.g., Si, Cr, Mo, P, V, Ti, Be, Sn, Sb, As, Al). (d) Ferrite stabilizers More
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Published: 01 August 2013
Fig. 18 Factors affecting the microhardness profile of a nitrided steel. The hardness of the compound zone is unaffected by alloy content, while the hardness of the diffusion zone is determined by nitride-forming elements (Al, Cr, Mo, Ti, V, Mn). Δ X is influenced by the type More
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Published: 01 December 1998
Fig. 50 Variation of notch-bend fracture toughness with tempering temperature for steels containing 0.35% C, 0.65% Mn, 0.35% Si, 0.80% Cr, 0.30% Mo, 0.10% V, and various amounts of nickel. (a) Measurements made at 25 °C (75 °F). Source: Ref 9 . (b) Measurements made at −73 °C (−100 °F More
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Published: 01 January 1997
Fig. 16 Factors affecting the microhardness profile of a nitrided steel. The hardness of the compound zone is unaffected by alloy content, while the hardness of the diffusion zone is determined by nitride-forming elements (Al, Cr, Mo, Ti, V, Mn,). Δ X is influenced by the type More
Series: ASM Handbook Archive
Volume: 12
Publisher: ASM International
Published: 01 January 1987
DOI: 10.31399/asm.hb.v12.a0000609
EISBN: 978-1-62708-181-8
... Elevated-temperature fracture surface of Cr-Mo-V alloy steel specimen tensile tested at failure at 500 °C (930 °F) and an initial strain rate of 4.4 × 10 −5 /s. Composition of the hot-rolled steel plate: 0.29% C, 1.01% Cr, 1.26% Mo, 0.25% V, 0.01% Mn, 0.59% Si, 0.037% P, 0.004% S, and 0.006% Sn. Heat...
Series: ASM Handbook
Volume: 19
Publisher: ASM International
Published: 01 January 1996
DOI: 10.31399/asm.hb.v19.a0002402
EISBN: 978-1-62708-193-1
...-Mo steels. It details the Charpy V-notch (CVN) toughness properties of Cr-Mo steels relevant to fatigue and fracture resistance. The fracture mechanics of Cr-Mo steels are reviewed. The article analyzes the characterization of low-cycle fatigue based on fatigue damage calculations. It concludes...
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Published: 01 January 1987
, and may also be present around the lower left corner. (D6B steel contains 0.45% C, 0.80% Mn, 1.00% Cr, 0.50% Ni, 1.00% Mo, and 0.10% V.) ∼1.13× More