Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Jiangyu Li, University of Washington Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 11.1-11.3 Jiangyu Li University of Washington Mechanics.

Published byAusten Simmons Modified over 9 years ago

Similar presentations

Presentation on theme: "1 Jiangyu Li, University of Washington Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 11.1-11.3 Jiangyu Li University of Washington Mechanics."— Presentation transcript:

1 1 Jiangyu Li, University of Washington Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 11.1-11.3 Jiangyu Li University of Washington Mechanics of Materials Lab

2 2 Jiangyu Li, University of Washington S-N Diagram

3 3 Jiangyu Li, University of Washington Safety Factor

4 4 Jiangyu Li, University of Washington Example 9.10 For AISI 4340 steel in Table 9.1, a life of 1.94x10 5 cycles to failure is calculated for the stress amplitude of  a =500 Mpa. Suggestion is made that parts of this type be replaced when the number of cycles applied reach 1/3 of the life. a)What is the safety factors in life and in stress b)Is the suggestion good?

5 5 Jiangyu Li, University of Washington Facture Mechanics Method of Fatigue

6 6 Jiangyu Li, University of Washington Crack Growth > >

7 7 Jiangyu Li, University of Washington Fatigue Life

8 8 Jiangyu Li, University of Washington Fatigue Crack Growth Rate

9 9 Jiangyu Li, University of Washington Crack Grow Rate

10 10 Jiangyu Li, University of Washington Crack Growth Rate

11 11 Jiangyu Li, University of Washington Effect of R Ratio

12 12 Jiangyu Li, University of Washington Example For a bar subjected to 0<M<1200lb · in, S ut =185kpsi, S y =170kpsi, K ic =74kpsi·in 1/2, C=3.8 10 -11 (in/cycle)/(kpsi·in 1/2)m, m=3.0, a=0.004in. Estimate N f.

13 13 Jiangyu Li, University of Washington Example Initial estimate, F=1

14 14 Jiangyu Li, University of Washington Assignment Mechanical Behavior of Materials 11.3, 11.7

Download ppt "1 Jiangyu Li, University of Washington Lecture 15 Fatigue Mechanical Behavior of Materials Sec. 11.1-11.3 Jiangyu Li University of Washington Mechanics."

Similar presentations

Grain Boundaries Ni-Base Superalloy Waspalloy 50µm high-angle grain boundary (  >15°) low-angle grain boundary.

Grain Boundaries Ni-Base Superalloy Waspalloy 50µm high-angle grain boundary (  >15°) low-angle grain boundary.
Kjell Simonsson 1 High Cycle Fatigue (HCF) analysis (last updated 2011-09-27)

Kjell Simonsson 1 High Cycle Fatigue (HCF) analysis (last updated )
Phase II Total Fatigue Life (Crack Initiation + Crack Propagation) SAE FD&E Current Effort 30 October 2012 at Peoria, IL.

Phase II Total Fatigue Life (Crack Initiation + Crack Propagation) SAE FD&E Current Effort 30 October 2012 at Peoria, IL.
Design of Machine Elements

Design of Machine Elements
Materials used for pipes: Sewers are made from: 1- Concrete 2- Reinforced concrete 3- Vitrified clay 4- Asbestos cement 5- Cast iron (lined with cement).

Materials used for pipes: Sewers are made from: 1- Concrete 2- Reinforced concrete 3- Vitrified clay 4- Asbestos cement 5- Cast iron (lined with cement).
CHAPTER 7 Fatigue Failure Resulting from Variable Loading

CHAPTER 7 Fatigue Failure Resulting from Variable Loading
ME 388 – Applied Instrumentation Laboratory Fatigue Lab.

ME 388 – Applied Instrumentation Laboratory Fatigue Lab.
February 25 th 2008. Overall views and concepts ◦ Adam Stagnaro (Machining) ◦ Stephen Steger (FEA) ◦ Karina Pikhart (Solidworks) ◦ Sarah Cooper-Davis.

February 25 th Overall views and concepts ◦ Adam Stagnaro (Machining) ◦ Stephen Steger (FEA) ◦ Karina Pikhart (Solidworks) ◦ Sarah Cooper-Davis.
Over the Next Several Days

Over the Next Several Days
Jiangyu Li, University of Washington Lecture 21 Fracture Mechanics Mechanical Behavior of Materials Section 8.3-8.7 Jiangyu Li University of Washington.

Jiangyu Li, University of Washington Lecture 21 Fracture Mechanics Mechanical Behavior of Materials Section Jiangyu Li University of Washington.
Mechanics of Materials Lab

Mechanics of Materials Lab
7. Fatigue Fracture Fracture surface of a bicycle spoke made of 7075-T6 aluminum alloy 25 × magnification 100 × magnification.

7. Fatigue Fracture Fracture surface of a bicycle spoke made of 7075-T6 aluminum alloy 25 × magnification 100 × magnification.
5.1 ME 340: Materials & Design Chapter 5. 5.2 ME 340: Materials & Design.

5.1 ME 340: Materials & Design Chapter ME 340: Materials & Design.
Fatigue Failure Through Bending David Burnette ME 498.

Fatigue Failure Through Bending David Burnette ME 498.
Three Stages of Fatigue Failure

Three Stages of Fatigue Failure
Jiangyu Li, University of Washington Lecture 16 Torsion Mechanical Behavior of Materials Section 4.9.3-4.9.4 Discussion on the torsion test posted online.

Jiangyu Li, University of Washington Lecture 16 Torsion Mechanical Behavior of Materials Section Discussion on the torsion test posted online.
Jiangyu Li, University of Washington Lecture 18 Impact Test and Stress Concentration Mechanical Behavior of Materials Section 4.8, 8.1, 8.2 Jiangyu Li.

Jiangyu Li, University of Washington Lecture 18 Impact Test and Stress Concentration Mechanical Behavior of Materials Section 4.8, 8.1, 8.2 Jiangyu Li.
1 Jiangyu Li, University of Washington Lecture 23 Plasticity Mechanical Behavior of Materials Sec. 12.1-12.5 Jiangyu Li University of Washington Mechanics.

1 Jiangyu Li, University of Washington Lecture 23 Plasticity Mechanical Behavior of Materials Sec Jiangyu Li University of Washington Mechanics.
1 Jiangyu Li, University of Washington Lecture 13-15 Plasticity Mechanical Behavior of Materials Chapter 12 Jiangyu Li University of Washington Mechanics.

1 Jiangyu Li, University of Washington Lecture Plasticity Mechanical Behavior of Materials Chapter 12 Jiangyu Li University of Washington Mechanics.
Chapter 6 Fatigue Failure Theories

Chapter 6 Fatigue Failure Theories

Similar presentations

Ads by Google