Lecture 17 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.7 Jiangyu Li

Mechanics of Materials Lab Lecture 17 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.7 Jiangyu Li University of Washington Jiangyu Li, University of Washington

S-N Diagram Jiangyu Li, University of Washington

S-N Diagram Endurance limit Jiangyu Li, University of Washington

Endurance Limit For steel Jiangyu Li, University of Washington

Fatigue Failure Criteria Jiangyu Li, University of Washington

Effect of Mean Stress Jiangyu Li, University of Washington

Fatigue Failure Criteria Multiply the stress By safety factor n Jiangyu Li, University of Washington

Example: Gerber Line AISI 1050 cold-drawn bar, withstand a fluctuating axial load varying from 0 to16 kip. Kf=1.85; Find Sa and Sm and the safety factor using Gerber relation Sut=100kpsi; Sy=84kpsi; Se’=0.504Sut kpsi Table 7-10 2 Change over 1 3 Jiangyu Li, University of Washington

Example: ASME Elliptic Table 7-11 2 3 1 Jiangyu Li, University of Washington

Torsional Fatigue Strength Jiangyu Li, University of Washington

Combination of Loads • Use Se from bending; • Apply appropriate Kf for each mode; • Multiply axial stress component by 1/kc • Find the principle stresses • Find von Mises effective alternative stress • Use the fatigue failure criteria to determine safety factor Jiangyu Li, University of Washington

Example A rotating AISI 1018 cold-drawn steel tube (42x4 mm) has a 6mm diameter hole drilled transversely through it. The shaft is subjected to a torque Fluctuating from 20Nm to 160Nm, and a stead bending moment 150Nm Estimate safety factor Sut=440 Mpa, Syt=370MPa, Se’=0.504x440 =222 Mpa, Se=166MPa Stress concentration factor Kt=2.366, from Table A-16, for bending, Kts=1.75 for torsion; from the Fig. 7-20, 7-21, notch sensitivity q is 0.78 for bending, and 0.96 for torsion. Thus Kf=2.07 for bending, and Kfs=1.72 for torsion Jiangyu Li, University of Washington

Example Tm=(20+160)/2=90Nm; Ta=(160-20)/2=70Nm Jiangyu Li, University of Washington

Assignment Mechanical Behavior of Materials 9.30, 9.33 Jiangyu Li, University of Washington

Lecture 17 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.7 Jiangyu Li

Lecture 17 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.7 Jiangyu Li

Presentation Transcript

Mechanical Behavior, Testing, and Manufacturing Properties of Materials

Mechanical Behavior of Materials

Mechanical Behavior of Materials

Materials for Lecture 17

Materials for Lecture 17

Lecture 1 Overview Jiangyu Li University of Washington

mechanical behavior of materials 1. overview of mechanical behavior 2. dislocations

Mechanical Behavior of Materials

Fatigue phenomenon of materials

mechanical behavior of materials 1. overview of mechanical behavior 2. dislocations

Lecture 18 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.7 Jiangyu Li

Lecture 5-6 Beam Mechanics of Materials Laboratory Sec. 3-4 Jiangyu Li University of Washington

Lecture 1 Overview Jiangyu Li University of Washington

Yielding and Failure Criteria Plasticity Fracture Fatigue Jiangyu Li University of Washington

Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 11.1-11.3 Jiangyu Li

Lecture 24 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.8 Jiangyu Li

Lecture 19 Fatigue Mechanical Behavior of Materials Sec. 9.6-9.8 Jiangyu Li

MSE 527 Lab Mechanical Behavior of Materials

Fatigue of Materials

Fatigue of Materials

Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 9.1, 9.2, 9.6 Jiangyu Li