Plastic Deformation Behavior and Processing Maps of 35CrMo

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Previous123456NextPlastic Deformation Behavior and Processing Maps of 35CrMo Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 temperature 35crmo#176;C and strain rate range of 0.01 to 20 s1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on User rating 5/5Investigation on Hot Deformation Behavior and Hot efciency of power dissipation are chosen as the optimum processing parameters for the hot working of materials [7,8].The objective of this paper is to study the hot deformation behavior of BSMUF601 super-alloy based on the results of isothermal compression tests.The processing maps ofUser rating 3/5Temperature-Microstructure Mapping of the Initiation of A mapping of the initiation of the three major plastic deformation processes in polyethylene is established as a function of temperature and microstructure.In this aim,a collection of polyethylene samples covering large ranges of crystallinity 0.50 Plastic Deformation Behavior and Processing Maps of 35CrMolt; Xc Plastic Deformation Behavior and Processing Maps of 35CrMolt; 0.80 and crystal thickness,8 nm Plastic Deformation Behavior and Processing Maps of 35CrMolt; Lc Plastic Deformation Behavior and Processing Maps of 35CrMolt;29 nm was prepared.The strain onsets of crystal shear,cavitation,and martensitic-like

User rating 3/5Microstructure Deformation And Cracking Characteristics

of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of Thermal and plastic behavior of nanoglasses Journal of Thermal and plastic behavior of nanoglasses - Volume 29 Issue 10 - Oliver Franke,Daniel Leisen,Herbert Gleiter,Horst Hahn Skip to main content Accessibility help We use cookies to distinguish you from other users and to provide you with a better experience on our websites.Thermal and plastic behavior of nanoglasses Journal of Thermal and plastic behavior of nanoglasses - Volume 29 Issue 10 - Oliver Franke,Daniel Leisen,Herbert Gleiter,Horst Hahn Skip to main content Accessibility help We use cookies to distinguish you from other users and to provide you with a better experience on our websites.

Temperature-Microstructure Mapping of the Initiation of

A mapping of the initiation of the three major plastic deformation processes in polyethylene is established as a function of temperature and microstructure.In this aim,a collection of polyethylene samples covering large ranges of crystallinity 0.50 Plastic Deformation Behavior and Processing Maps of 35CrMolt; Xc Plastic Deformation Behavior and Processing Maps of 35CrMolt; 0.80 and crystal thickness,8 nm Plastic Deformation Behavior and Processing Maps of 35CrMolt; Lc Plastic Deformation Behavior and Processing Maps of 35CrMolt;29 nm was prepared.The strain onsets of crystal shear,cavitation,and martensitic-like Temperature dependence of elastic and plastic deformation Single-phase solid-solution refractory high-entropy alloys (HEAs) show remarkable mechanical properties,such as their high yield strength and substantial softening resistance at elevated temperatures.Hence,the in-depth study of the deformation behavior for body-centered cubic (BCC) refractory HEAs is a critical issue to explore the uncovered/unique deformation mechanisms.Some results are removed in response to a notice of local law requirement.For more information,please see here.Previous123456NextAtomistic Investigation of Material Deformation Behavior 2 days ago Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;This research investigates deformation behavior of polystyrene (PS) as a thermoplastic resist material for the thermal nanoimprint lithography (T-NIL) process.Molecular dynamics modeling was conducted on a PS substrate with dimensions 58 Plastic Deformation Behavior and Processing Maps of 35CrMo#215; 65 Plastic Deformation Behavior and Processing Maps of 35CrMo#215; 61 Plastic Deformation Behavior and Processing Maps of 35CrMo#197; that was imprinted with a rigid,spherical indenter.The effect of indenter size,force,and imprinting duration were evaluated in terms

Some results are removed in response to a notice of local law requirement.For more information,please see here.12345Next(PDF) Hot Tensile and Fracture Behavior of 35CrMo Steel at

To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.Some results are removed in response to a notice of local law requirement.For more information,please see here.Processing maps A status report SpringerLinkIn the last two decades,processing maps have been developed on a wide variety of materials including metals and alloys,metal matrix composites,and aluminides,and applied to optimizing hot workability of materials and for process design in bulk metal working.Processing maps consist of a superimposition of efficiency of power dissipation and the instability maps,the former revealing the

Processing maps A status report SpringerLink

In the last two decades,processing maps have been developed on a wide variety of materials including metals and alloys,metal matrix composites,and aluminides,and applied to optimizing hot workability of materials and for process design in bulk metal working.Processing maps consist of a superimposition of efficiency of power dissipation and the instability maps,the former revealing the Processing and Fabrication of Advanced Materials XIII Processing and Fabrication of Advanced Materials XIII Proceedings of a Conference Organized by National University of Singapore,Singapore Institute of Manufacturing Technology,Co-sponsored by American Society for Materials International (ASM Int.) (The Materials Information Society),Held December 6-8,2004 at Pan-Pacific Hotel,Singapore,Volume 1Processing and Fabrication of Advanced Materials XIII Processing and Fabrication of Advanced Materials XIII Proceedings of a Conference Organized by National University of Singapore,Singapore Institute of Manufacturing Technology,Co-sponsored by American Society for Materials International (ASM Int.) (The Materials Information Society),Held December 6-8,2004 at Pan-Pacific Hotel,Singapore,Volume 1

Plastic Behavior of Metals at Large Strains Experimental

Two experimental devices that promote simple shear are used to investigate the plastic behavior of metals under very large strains.First,researches on the anisotropic behaviors of sheets of metals performed with the help of the planar simple shear test are reviewed.Microstructure Deformation And Cracking Characteristicsthe conditions of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of The paper reports the uniaxial deformation and fracture behaviorMicrostructure Deformation And Cracking Characteristicsof deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of

Low cycle fatigue and ratcheting behavior of 35CrMo

Apr 01,2017 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Low cycle fatigue and ratcheting deformation of 35CrMo steel under uniaxial stress-controlled loading were investigated at 500 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C.The effects of stress rates for 0.125 MPa/s,0.5 MPa/s,2.5 MPa/s,10 MPa/s,25 MPa/s and 40 MPa/s,and peak stresses max for 200 MPa,300 MPa,400 MPa and 500 MPa,were discussed in detail.Results indicated that the ratcheting strain curve versus cyclic Investigation on Hot Deformation Behavior and Hot efciency of power dissipation are chosen as the optimum processing parameters for the hot working of materials [7,8].The objective of this paper is to study the hot deformation behavior of BSMUF601 super-alloy based on the results of isothermal compression tests.The processing maps ofImages of Plastic Deformation Behavior and Processing imagesPlastic Deformation Behavior and Processing Maps ofFeb 16,2016 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate range of 0.01 to 20 s1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on the experimental data and using the principle of dynamic materials modeling (DMM),when the strain is 0.8,three safe regions with

Hot deformation behavior and processing map development

The influence of severe plastic deformation on the hot deformation behavior was analyzed based on processing map and constitutive analysis.The hot defamation behavior was carried out at temperatures ranging from 300 to 450 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rates 0.001 to 10 s 1 .Hot deformation behavior and 3D processing maps ofHot deformation behavior of AA7020 within 673793 K/0.0011 s 1 was investigated..3D processing maps were established based on DDM. Microcrack will be found in these deformed at strain rate Plastic Deformation Behavior and Processing Maps of 35CrMogt;0.1 s 1..Microstructural characteristics responding to various domains of processing maps were determined.Hot Processing Maps and Microstructural Characteristics of Oct 19,2020 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;In this paper,the hot deformation behavior of A357 alloy was investigated by hot compression tests.Isothermal hot compression simulation tests for A357 alloy were carried out at the conditions of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps

Hot Deformation Behaviors and Processing Maps of 2024

The isothermal hot compression tests of as-cast and homogenized 2024 aluminum alloy were carried out under wide range of deformation temperatures (623-773 K) and strain rates (0.001-10 s1).The constitutive equations for both initial states were established based on Arrhenius model,and the processing maps were constructed based on the dynamic material model.High-temperature deformation behavior and processingA processing map was used to identify the best domains of thermal processing,including a domain at a temperature of 650 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate of 103s1,as well as another domain at deformation Evolution of Dynamic Recrystallization in 35CrMo Steel To better understand the dynamic recrystallization (DRX) behavior of 35CrMo steel during hot deformation,a series of isothermal compression tests were carried out at different temperatures and strain rates.Using a constitutive equation built from the data obtained and the Arrhenius equation,the activation energy for hot deformation was determined through regression to be 342.69 kJ/mol.

Deformation behavior of metallic glasses with shear band

Plastic deformation in metallic glasses (MGs) at relatively low homologous temperatures (T/T g,where T is the temperature of deformation and T g is the glass transition temperature) is characterized by localization of flow into narrow regions within the volume of the material 1,2,3.Since these regions,which are often referred as shear bands (SBs),determine many mechanical properties of the Deformation behavior of metallic glasses with shear band Plastic deformation in metallic glasses (MGs) at relatively low homologous temperatures (T/T g,where T is the temperature of deformation and T g is the glass transition temperature) is characterized by localization of flow into narrow regions within the volume of the material 1,2,3.Since these regions,which are often referred as shear bands (SBs),determine many mechanical properties of the Deformation Theory of Plasticity - Robert Millard Jones Deformation Theory of Plasticity plastic Equation Esec fiber-reinforced fibers finite element function graphite increases incremental inner-surface interpolation isotropic iteration procedure Jones linear elastic load-strain curve material model material properties mechanical properties modulus Nadai nonlinear material nonlinear stress

Cited by 20Publish Year 2017Author X.T.Zheng,K.W.Wu,W.Wang,J.Y.Yu,J.M.Xu,L.W.Ma(PDF) Hot Tensile and Fracture Behavior of 35CrMo Steel at

To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.Cited by 1Publish Year 2020Author Fuyu Dong,Ye Yuan,Weidong Li,Yue Zhang,Peter K.Liaw,Xiaoguang Yuan,Hongjun HuangStudy on hot deformation behaviour and processing maps of Plastic Deformation Behavior and Processing Maps of 35CrMo Steel Yuan-Chun Huang; Yu Liu; Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature Cited by 13Publish Year 2016Author Zheng-bing Xiao,Yuan-chun Huang,Yu LiuPlastic Deformation Behavior and Processing Maps ofMar 01,2016 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate range of 0.01 to 20 s -1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on the experimental data and using the principle of dynamic materials modeling (DMM),when the strain is 0.8,three safe regions with

Cited by 13Publish Year 2016Author Zheng-bing Xiao,Yuan-chun Huang,Yu LiuHot deformation behavior and processing maps of an

Nov 01,2020 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;The hot-processing map can also be used to control microstructures,study deformation mechanisms,and analyze the cause of plastic instability during deformation processes.Download Download high-res image (254KB) Download Download full-size image; Fig.8.The processing maps for the MoNbHfZrTi RHEA.The Grey part is the instability zone.Characterization of Hot Deformation Behavior for Pure AbstractThe hot compressive deformation behavior of pure aluminum has been investigated at different conditions of strain rate range of 0.00510 s1 and temperature range of 523823 K.Based on dynamic materials model Malas criterion,processing maps were constructed to evaluate the efficiency of energy dissipation and flow instability regions.Characterization of Hot Deformation Behavior for Pure AbstractThe hot compressive deformation behavior of pure aluminum has been investigated at different conditions of strain rate range of 0.00510 s1 and temperature range of 523823 K.Based on dynamic materials model Malas criterion,processing maps were constructed to evaluate the efficiency of energy dissipation and flow instability regions.

Arrhenius-Type Constitutive Equation Model of Superplastic

Modelling and predicting the flow behaviour of metallic materials subjected to superplastic deformation is mandatory for providing useful information about the metal forming process.This information helps the designers to reduce the manufacturing time and costs by choosing appropriate deformation conditions based on the models results.The study developed a constitutive model to predict the 9 Behavior of Materials Unit Manufacturing Processes Processing maps are needed to identify processing windows (i.e.,appropriate combinations of process parameters) to ensure defect-free (at the surface as well as the interior) products.These maps could be developed in part through the application of the microstructure evolution models and enhanced constitutive relationships discussed above.(PDF) Influence of Strain and Stress Triaxiality on the To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.

temperature 35crmo-CSE Fonctions Support FedEx Express FR

Previous123456NextPlastic Deformation Behavior and Processing Maps of 35CrMo Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 temperature 35crmo#176;C and strain rate range of 0.01 to 20 s1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on User rating 5/5Investigation on Hot Deformation Behavior and Hot efciency of power dissipation are chosen as the optimum processing parameters for the hot working of materials [7,8].The objective of this paper is to study the hot deformation behavior of BSMUF601 super-alloy based on the results of isothermal compression tests.The processing maps ofUser rating 3/5Temperature-Microstructure Mapping of the Initiation of A mapping of the initiation of the three major plastic deformation processes in polyethylene is established as a function of temperature and microstructure.In this aim,a collection of polyethylene samples covering large ranges of crystallinity 0.50 Plastic Deformation Behavior and Processing Maps of 35CrMolt; Xc Plastic Deformation Behavior and Processing Maps of 35CrMolt; 0.80 and crystal thickness,8 nm Plastic Deformation Behavior and Processing Maps of 35CrMolt; Lc Plastic Deformation Behavior and Processing Maps of 35CrMolt;29 nm was prepared.The strain onsets of crystal shear,cavitation,and martensitic-like

User rating 3/5Microstructure Deformation And Cracking Characteristics

of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of Thermal and plastic behavior of nanoglasses Journal of Thermal and plastic behavior of nanoglasses - Volume 29 Issue 10 - Oliver Franke,Daniel Leisen,Herbert Gleiter,Horst Hahn Skip to main content Accessibility help We use cookies to distinguish you from other users and to provide you with a better experience on our websites.Thermal and plastic behavior of nanoglasses Journal of Thermal and plastic behavior of nanoglasses - Volume 29 Issue 10 - Oliver Franke,Daniel Leisen,Herbert Gleiter,Horst Hahn Skip to main content Accessibility help We use cookies to distinguish you from other users and to provide you with a better experience on our websites.

Temperature-Microstructure Mapping of the Initiation of

A mapping of the initiation of the three major plastic deformation processes in polyethylene is established as a function of temperature and microstructure.In this aim,a collection of polyethylene samples covering large ranges of crystallinity 0.50 Plastic Deformation Behavior and Processing Maps of 35CrMolt; Xc Plastic Deformation Behavior and Processing Maps of 35CrMolt; 0.80 and crystal thickness,8 nm Plastic Deformation Behavior and Processing Maps of 35CrMolt; Lc Plastic Deformation Behavior and Processing Maps of 35CrMolt;29 nm was prepared.The strain onsets of crystal shear,cavitation,and martensitic-like Temperature dependence of elastic and plastic deformation Single-phase solid-solution refractory high-entropy alloys (HEAs) show remarkable mechanical properties,such as their high yield strength and substantial softening resistance at elevated temperatures.Hence,the in-depth study of the deformation behavior for body-centered cubic (BCC) refractory HEAs is a critical issue to explore the uncovered/unique deformation mechanisms.Some results are removed in response to a notice of local law requirement.For more information,please see here.Previous123456NextAtomistic Investigation of Material Deformation Behavior 2 days ago Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;This research investigates deformation behavior of polystyrene (PS) as a thermoplastic resist material for the thermal nanoimprint lithography (T-NIL) process.Molecular dynamics modeling was conducted on a PS substrate with dimensions 58 Plastic Deformation Behavior and Processing Maps of 35CrMo#215; 65 Plastic Deformation Behavior and Processing Maps of 35CrMo#215; 61 Plastic Deformation Behavior and Processing Maps of 35CrMo#197; that was imprinted with a rigid,spherical indenter.The effect of indenter size,force,and imprinting duration were evaluated in terms

Some results are removed in response to a notice of local law requirement.For more information,please see here.12345Next(PDF) Hot Tensile and Fracture Behavior of 35CrMo Steel at

To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.Some results are removed in response to a notice of local law requirement.For more information,please see here.Processing maps A status report SpringerLinkIn the last two decades,processing maps have been developed on a wide variety of materials including metals and alloys,metal matrix composites,and aluminides,and applied to optimizing hot workability of materials and for process design in bulk metal working.Processing maps consist of a superimposition of efficiency of power dissipation and the instability maps,the former revealing the

Processing maps A status report SpringerLink

In the last two decades,processing maps have been developed on a wide variety of materials including metals and alloys,metal matrix composites,and aluminides,and applied to optimizing hot workability of materials and for process design in bulk metal working.Processing maps consist of a superimposition of efficiency of power dissipation and the instability maps,the former revealing the Processing and Fabrication of Advanced Materials XIII Processing and Fabrication of Advanced Materials XIII Proceedings of a Conference Organized by National University of Singapore,Singapore Institute of Manufacturing Technology,Co-sponsored by American Society for Materials International (ASM Int.) (The Materials Information Society),Held December 6-8,2004 at Pan-Pacific Hotel,Singapore,Volume 1Processing and Fabrication of Advanced Materials XIII Processing and Fabrication of Advanced Materials XIII Proceedings of a Conference Organized by National University of Singapore,Singapore Institute of Manufacturing Technology,Co-sponsored by American Society for Materials International (ASM Int.) (The Materials Information Society),Held December 6-8,2004 at Pan-Pacific Hotel,Singapore,Volume 1

Plastic Behavior of Metals at Large Strains Experimental

Two experimental devices that promote simple shear are used to investigate the plastic behavior of metals under very large strains.First,researches on the anisotropic behaviors of sheets of metals performed with the help of the planar simple shear test are reviewed.Microstructure Deformation And Cracking Characteristicsthe conditions of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of The paper reports the uniaxial deformation and fracture behaviorMicrostructure Deformation And Cracking Characteristicsof deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps of Hot Processing Maps and Microstructural Characteristics of

Low cycle fatigue and ratcheting behavior of 35CrMo

Apr 01,2017 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Low cycle fatigue and ratcheting deformation of 35CrMo steel under uniaxial stress-controlled loading were investigated at 500 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C.The effects of stress rates for 0.125 MPa/s,0.5 MPa/s,2.5 MPa/s,10 MPa/s,25 MPa/s and 40 MPa/s,and peak stresses max for 200 MPa,300 MPa,400 MPa and 500 MPa,were discussed in detail.Results indicated that the ratcheting strain curve versus cyclic Investigation on Hot Deformation Behavior and Hot efciency of power dissipation are chosen as the optimum processing parameters for the hot working of materials [7,8].The objective of this paper is to study the hot deformation behavior of BSMUF601 super-alloy based on the results of isothermal compression tests.The processing maps ofImages of Plastic Deformation Behavior and Processing imagesPlastic Deformation Behavior and Processing Maps ofFeb 16,2016 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate range of 0.01 to 20 s1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on the experimental data and using the principle of dynamic materials modeling (DMM),when the strain is 0.8,three safe regions with

Hot deformation behavior and processing map development

The influence of severe plastic deformation on the hot deformation behavior was analyzed based on processing map and constitutive analysis.The hot defamation behavior was carried out at temperatures ranging from 300 to 450 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rates 0.001 to 10 s 1 .Hot deformation behavior and 3D processing maps ofHot deformation behavior of AA7020 within 673793 K/0.0011 s 1 was investigated..3D processing maps were established based on DDM. Microcrack will be found in these deformed at strain rate Plastic Deformation Behavior and Processing Maps of 35CrMogt;0.1 s 1..Microstructural characteristics responding to various domains of processing maps were determined.Hot Processing Maps and Microstructural Characteristics of Oct 19,2020 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;In this paper,the hot deformation behavior of A357 alloy was investigated by hot compression tests.Isothermal hot compression simulation tests for A357 alloy were carried out at the conditions of deformation temperature of 350-470 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C,strain rate of 0.001-10 s1 and engineering strain of 50%.Based on the Prasad instability criterion and dynamic material model,the hot processing maps

Hot Deformation Behaviors and Processing Maps of 2024

The isothermal hot compression tests of as-cast and homogenized 2024 aluminum alloy were carried out under wide range of deformation temperatures (623-773 K) and strain rates (0.001-10 s1).The constitutive equations for both initial states were established based on Arrhenius model,and the processing maps were constructed based on the dynamic material model.High-temperature deformation behavior and processingA processing map was used to identify the best domains of thermal processing,including a domain at a temperature of 650 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate of 103s1,as well as another domain at deformation Evolution of Dynamic Recrystallization in 35CrMo Steel To better understand the dynamic recrystallization (DRX) behavior of 35CrMo steel during hot deformation,a series of isothermal compression tests were carried out at different temperatures and strain rates.Using a constitutive equation built from the data obtained and the Arrhenius equation,the activation energy for hot deformation was determined through regression to be 342.69 kJ/mol.

Deformation behavior of metallic glasses with shear band

Plastic deformation in metallic glasses (MGs) at relatively low homologous temperatures (T/T g,where T is the temperature of deformation and T g is the glass transition temperature) is characterized by localization of flow into narrow regions within the volume of the material 1,2,3.Since these regions,which are often referred as shear bands (SBs),determine many mechanical properties of the Deformation behavior of metallic glasses with shear band Plastic deformation in metallic glasses (MGs) at relatively low homologous temperatures (T/T g,where T is the temperature of deformation and T g is the glass transition temperature) is characterized by localization of flow into narrow regions within the volume of the material 1,2,3.Since these regions,which are often referred as shear bands (SBs),determine many mechanical properties of the Deformation Theory of Plasticity - Robert Millard Jones Deformation Theory of Plasticity plastic Equation Esec fiber-reinforced fibers finite element function graphite increases incremental inner-surface interpolation isotropic iteration procedure Jones linear elastic load-strain curve material model material properties mechanical properties modulus Nadai nonlinear material nonlinear stress

Cited by 20Publish Year 2017Author X.T.Zheng,K.W.Wu,W.Wang,J.Y.Yu,J.M.Xu,L.W.Ma(PDF) Hot Tensile and Fracture Behavior of 35CrMo Steel at

To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.Cited by 1Publish Year 2020Author Fuyu Dong,Ye Yuan,Weidong Li,Yue Zhang,Peter K.Liaw,Xiaoguang Yuan,Hongjun HuangStudy on hot deformation behaviour and processing maps of Plastic Deformation Behavior and Processing Maps of 35CrMo Steel Yuan-Chun Huang; Yu Liu; Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature Cited by 13Publish Year 2016Author Zheng-bing Xiao,Yuan-chun Huang,Yu LiuPlastic Deformation Behavior and Processing Maps ofMar 01,2016 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;Hot deformation behavior of 35CrMo steel was investigated by compression tests in the temperature range of 850 to 1150 Plastic Deformation Behavior and Processing Maps of 35CrMo#176;C and strain rate range of 0.01 to 20 s -1 on a Gleeble-3810 thermal simulator.According to processing maps constructed based on the experimental data and using the principle of dynamic materials modeling (DMM),when the strain is 0.8,three safe regions with

Cited by 13Publish Year 2016Author Zheng-bing Xiao,Yuan-chun Huang,Yu LiuHot deformation behavior and processing maps of an

Nov 01,2020 Plastic Deformation Behavior and Processing Maps of 35CrMo#0183;The hot-processing map can also be used to control microstructures,study deformation mechanisms,and analyze the cause of plastic instability during deformation processes.Download Download high-res image (254KB) Download Download full-size image; Fig.8.The processing maps for the MoNbHfZrTi RHEA.The Grey part is the instability zone.Characterization of Hot Deformation Behavior for Pure AbstractThe hot compressive deformation behavior of pure aluminum has been investigated at different conditions of strain rate range of 0.00510 s1 and temperature range of 523823 K.Based on dynamic materials model Malas criterion,processing maps were constructed to evaluate the efficiency of energy dissipation and flow instability regions.Characterization of Hot Deformation Behavior for Pure AbstractThe hot compressive deformation behavior of pure aluminum has been investigated at different conditions of strain rate range of 0.00510 s1 and temperature range of 523823 K.Based on dynamic materials model Malas criterion,processing maps were constructed to evaluate the efficiency of energy dissipation and flow instability regions.

Arrhenius-Type Constitutive Equation Model of Superplastic

Modelling and predicting the flow behaviour of metallic materials subjected to superplastic deformation is mandatory for providing useful information about the metal forming process.This information helps the designers to reduce the manufacturing time and costs by choosing appropriate deformation conditions based on the models results.The study developed a constitutive model to predict the 9 Behavior of Materials Unit Manufacturing Processes Processing maps are needed to identify processing windows (i.e.,appropriate combinations of process parameters) to ensure defect-free (at the surface as well as the interior) products.These maps could be developed in part through the application of the microstructure evolution models and enhanced constitutive relationships discussed above.(PDF) Influence of Strain and Stress Triaxiality on the To better understand the tensile deformation and fracture behavior of 35CrMo steel during hot processing,uniaxial tensile tests at elevated temperatures and strain rates were performed.

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