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:''CRSS redirects here. For the Pakistan-based think tank, see Center for Research and Security Studies.'' Critical resolved shear stress is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal. Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.'' Resolved shear stress is given by τ = σ cos Φ cos λ〔Gottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.〕 where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force. whereas, critical resolved shear stress value is given by τ =σ (cosΦ cosλ)max ==Difference between RSS & CRSS== Resolved shear stress is the shear component of an applied tensile (or compressive) stress resolved along a slip plane that is other than perpendicular or parallel to the stress axis. The critical resolved shear stress is the value of resolved shear stress at which yielding begins; it is a property of the material. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「:''CRSS redirects here. For the Pakistan-based think tank, see Center for Research and Security Studies.'''''Critical resolved shear stress''' is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal.Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.''Resolved shear stress is given by τ = σ cos Φ cos λGottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force.whereas, critical resolved shear stress value is given byτ =σ (cosΦ cosλ)max==Difference between RSS & CRSS==Resolved shear stress is the shear component of an applied tensile (orcompressive) stress resolved along a slip plane that is other than perpendicular or parallel to thestress axis. The critical resolved shear stress is the value of resolved shear stress at whichyielding begins; it is a property of the material.」の詳細全文を読む 'Critical resolved shear stress is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal.Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.''Resolved shear stress is given by τ = σ cos Φ cos λGottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force.whereas, critical resolved shear stress value is given byτ =σ (cosΦ cosλ)max==Difference between RSS & CRSS==Resolved shear stress is the shear component of an applied tensile (orcompressive) stress resolved along a slip plane that is other than perpendicular or parallel to thestress axis. The critical resolved shear stress is the value of resolved shear stress at whichyielding begins; it is a property of the material. :''CRSS redirects here. For the Pakistan-based think tank, see Center for Research and Security Studies.'' Critical resolved shear stress is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal. Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.'' Resolved shear stress is given by τ = σ cos Φ cos λ〔Gottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.〕 where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force. whereas, critical resolved shear stress value is given by τ =σ (cosΦ cosλ)max ==Difference between RSS & CRSS== Resolved shear stress is the shear component of an applied tensile (or compressive) stress resolved along a slip plane that is other than perpendicular or parallel to the stress axis. The critical resolved shear stress is the value of resolved shear stress at which yielding begins; it is a property of the material. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「:''CRSS redirects here. For the Pakistan-based think tank, see Center for Research and Security Studies.''Critical resolved shear stress''' is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal.Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.''Resolved shear stress is given by τ = σ cos Φ cos λGottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force.whereas, critical resolved shear stress value is given byτ =σ (cosΦ cosλ)max==Difference between RSS & CRSS==Resolved shear stress is the shear component of an applied tensile (orcompressive) stress resolved along a slip plane that is other than perpendicular or parallel to thestress axis. The critical resolved shear stress is the value of resolved shear stress at whichyielding begins; it is a property of the material.」の詳細全文を読む ''Critical resolved shear stress''' is the component of shear stress, resolved in the direction of slip, necessary to initiate slip in a grain. It is a constant for a given crystal.Tests have been conducted on single crystals of metals to measure the shear stress required to initiate plastic deformation, or cause atomic planes to slip. Since this is a threshold value, it is referred to as critical; and since it is a component of the applied force or stress, it is said to be resolved; that is, the ''critical resolved shear stress.''Resolved shear stress is given by τ = σ cos Φ cos λGottstein G., Physical Foundations of Materials Science, Springer, 2004, page 227.where σ is the magnitude of the applied tensile stress, Φ is the angle between the normal of the slip plane and the direction of the applied force and λ is the angle between the slip direction and the direction of the applied force.whereas, critical resolved shear stress value is given byτ =σ (cosΦ cosλ)max==Difference between RSS & CRSS==Resolved shear stress is the shear component of an applied tensile (orcompressive) stress resolved along a slip plane that is other than perpendicular or parallel to thestress axis. The critical resolved shear stress is the value of resolved shear stress at whichyielding begins; it is a property of the material.」の詳細全文を読む スポンサード リンク
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