Strengthening of austenitic steel
Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dis...
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| Autor*in: |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
1963 |
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| Umfang: |
4 |
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| Reproduktion: |
Springer Online Journal Archives 1860-2002 |
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| Übergeordnetes Werk: |
in: Metal science and heat treatment - 1959, 5(1963) vom: Mai, Seite 286-289 |
| Übergeordnetes Werk: |
volume:5 ; year:1963 ; month:05 ; pages:286-289 ; extent:4 |
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| 520 | |a Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. | ||
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(DE-627)NLEJ191651915 DE-627 ger DE-627 rakwb eng Strengthening of austenitic steel 1963 4 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. Springer Online Journal Archives 1860-2002 Sakhin, S. I. oth Sokolov, O. G. oth in Metal science and heat treatment 1959 5(1963) vom: Mai, Seite 286-289 (DE-627)NLEJ188985840 (DE-600)2037339-9 1573-8973 nnns volume:5 year:1963 month:05 pages:286-289 extent:4 http://dx.doi.org/10.1007/BF00649339 GBV_USEFLAG_U ZDB-1-SOJ GBV_NL_ARTICLE AR 5 1963 5 286-289 4 |
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(DE-627)NLEJ191651915 DE-627 ger DE-627 rakwb eng Strengthening of austenitic steel 1963 4 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. Springer Online Journal Archives 1860-2002 Sakhin, S. I. oth Sokolov, O. G. oth in Metal science and heat treatment 1959 5(1963) vom: Mai, Seite 286-289 (DE-627)NLEJ188985840 (DE-600)2037339-9 1573-8973 nnns volume:5 year:1963 month:05 pages:286-289 extent:4 http://dx.doi.org/10.1007/BF00649339 GBV_USEFLAG_U ZDB-1-SOJ GBV_NL_ARTICLE AR 5 1963 5 286-289 4 |
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(DE-627)NLEJ191651915 DE-627 ger DE-627 rakwb eng Strengthening of austenitic steel 1963 4 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. Springer Online Journal Archives 1860-2002 Sakhin, S. I. oth Sokolov, O. G. oth in Metal science and heat treatment 1959 5(1963) vom: Mai, Seite 286-289 (DE-627)NLEJ188985840 (DE-600)2037339-9 1573-8973 nnns volume:5 year:1963 month:05 pages:286-289 extent:4 http://dx.doi.org/10.1007/BF00649339 GBV_USEFLAG_U ZDB-1-SOJ GBV_NL_ARTICLE AR 5 1963 5 286-289 4 |
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(DE-627)NLEJ191651915 DE-627 ger DE-627 rakwb eng Strengthening of austenitic steel 1963 4 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. Springer Online Journal Archives 1860-2002 Sakhin, S. I. oth Sokolov, O. G. oth in Metal science and heat treatment 1959 5(1963) vom: Mai, Seite 286-289 (DE-627)NLEJ188985840 (DE-600)2037339-9 1573-8973 nnns volume:5 year:1963 month:05 pages:286-289 extent:4 http://dx.doi.org/10.1007/BF00649339 GBV_USEFLAG_U ZDB-1-SOJ GBV_NL_ARTICLE AR 5 1963 5 286-289 4 |
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(DE-627)NLEJ191651915 DE-627 ger DE-627 rakwb eng Strengthening of austenitic steel 1963 4 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. Springer Online Journal Archives 1860-2002 Sakhin, S. I. oth Sokolov, O. G. oth in Metal science and heat treatment 1959 5(1963) vom: Mai, Seite 286-289 (DE-627)NLEJ188985840 (DE-600)2037339-9 1573-8973 nnns volume:5 year:1963 month:05 pages:286-289 extent:4 http://dx.doi.org/10.1007/BF00649339 GBV_USEFLAG_U ZDB-1-SOJ GBV_NL_ARTICLE AR 5 1963 5 286-289 4 |
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Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. |
| abstractGer |
Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. |
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Conclusions 1. High-temperature deformation and quenching increase the strength of austenitic manganese steel considerably without the formation of the α-phase: the yield strength of the steel not subjected to dispersional hardening is increased more than three times, while the yield strength of dispersionally hardened steel is increased 25%. 2. The combination of different treatments with dispersional hardening makes it possible to change the mechanical properties within wide limits. The strengthening resulting from the combined treatment is due essentially to the increased dispersional hardening resulting from preliminary deformation and to the cold hardening of austenitic steel. 3. Altenating deformation and intermediate relaxation or recrystallization of precooled austenite increases the strength considerably. Certain treatments of this type are technically easy and very promising for industrial use. 4. An important condition of the success of this combined treatment of steels which can be dispersionally hardened is the prevention of the precipitation and coagulation of carbides before deformation of the austenite. |
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