强度&韧性 ·强度:给定条件下材料达到给定变形量做需要的应力, 或者材料发生断裂的应力。 。韧性:材料在塑性变形和断裂过程中吸收能量的能力。 Ultimate Tensile Stress(UTS) 0.2%Proof Stress Stress Yield Stress (o) Slope=Work-Hardening rate Plastic Fracture Stress, Elastic Limit Strain energy o de Limit of Proportionality volume /0 Modulus Fracture Energy N.B.-this is a typical "engineering stress"vs "engineering strain" curve. The true stress vs true strain curve is different Strain and its shape determines the UTS
强度 & 韧性 强度:给定条件下材料达到给定变形量做需要的应力, 或者材料发生断裂的应力。 韧性:材料在塑性变形和断裂过程中吸收能量的能力
位错&塑性变形 1)Unsheared crystal.Potential slip plane shaded. 2)Shear stress applied.Dislocation has moved in from left.Material to left of dislocation line has sheared by one atomic spacing. 3)Shear stress continues.Dislocation has moved 4)Dislocation line has emerged at right hand further in from left.Amount of sheared material(to side.Whole crystal has sheared on the slip left of dislocation line)has increased plane by one atomic spacing
位错 & 塑性变形
佩尔斯力 (a) (b) (c) Peach-Koehler equation 佩尔斯力Peierls stress: F=(a·b)×s 移动一个位错所需要的应 Peierls stress 力 m-29即(a”) d= a V2+k2+2
Peach-Koehler equation Peierls stress 佩尔斯力 佩尔斯力 Peierls stress: 移动一个位错所需要的应 力
滑移系 FCC BCC {111} (111) <111> 最密排面 最密排方向 [110 (011) (123) 101] (112) 0111 Crystal Slip plane Slip Number of non- Slip directions Number of structure direction parallel planes per plane slip systems fec {111) (110) 4 3 12= (4×3) bcc {110} (111) 6 2 12= (6×2) {112 (11i) 12 1 12=(12×1) {123) (111) 24 1 24=(24×1) hcp {0001} (1120 1 3 3=(1×3) (1010} (1120 3 1 3= (3×1) (1011} (1120) 6 1 6= (6×1)
FCC {111} 最密排面 BCC <111> 最密排方向 滑移系
临界分切应力 ·具有最高Schmid因子的滑移系,最先达到临界分切 应力。 BCC等低对称性的体系, 温度影响很大。 T=T-AT2 slip plane direction of slip FCC等体系,位错通过本身位错群 所需的应力影响更大。 0=o+号[ac-k灯(a9月 (a)
临界分切应力 具有最高Schmid因子的滑移系,最先达到临界分切 应力。 BCC 等低对称性的体系, 温度影响很大。 FCC 等体系,位错通过本身位错群 所需的应力影响更大