06:45

spring buckling

10:20

spring lecture 4

05:26

Spring Design Lecture 3 Comparing FEA and Castigliano's theorem for spring stiff

10:07

Spring Design Class 2 Estimating spring stiffness using Castigliano's theorem

11:43

Spring Design Lecture 1

13:48

gear meshing

10:49

Intro to Gear Trains

07:12

FEA of simplified diesel engine to evaluate gasket pressure

09:50

head bolt lifetimes and gasket failures in the Ford 6 0L powerstroke diesel

18:01

Sample problem showing factors of safety for a bolted pressure vessel

03:35

Climbing robot demo

05:24

Lecture 27c Sample gear tooth contact calculation

09:52

Lecture 27b Gear Tooth Contact Stress

05:06

Lecture 27a Comparing Lewis Bending Stress with FEA

21:37

Lecture 26 Lewis Bending Stress in Gears

16:57

Lecture 25 forces between gears and intro to gear trains

15:34

Lecture 24 Intro to gears

09:12

Lecture 23 Bushings

18:27

Lecture 22 More info on Journal bearings

16:47

Lecture 21a intro to Journal bearings

12:56

Lecture 20b Sample problem for tapered roller bearings

08:29

Lecture 20a Intro to Tapered Roller bearings

07:53

Lecture 19 variable loading of bearings and intro to damage mechanics

15:20

Lecture 18 Combined axial and radial loads on bearings

09:57

Lecture 15 Weld Fatigue

17:50

lecture 14 welds under bending and shear

18:00

Lecture 12 Shear loading of bolted joints subjected to moments

10:28

Lecture 11b example problem for bolts in shear

08:34

ME 329 Design of Machine elements: Lecture 11a intro to shear loading of bolts

09:02

Lecture 10 Fatigue factors of safety for bolted joints in tension

12:25

Lecture 9 static factors of safety for bolted joints

05:24

Lecture 8d Comparing Frustum and Finite element analysis

05:39

Lecture 8b: Example problem on member spring constant

09:18

Lecture 8a Calculating the equivalent spring constant of a clamped member

13:11

Lecture 7 Finding the equivalent stiffness of bolts in a clamped joint

14:47

ME 329 Lecture 17: Weibull reliability shifting for rolling contact bearings

19:40

ME 329 Lecture 13: Weld Stress and Weldment Design

17:22

ME 329 Lecture 16: Intro to Rolling Contact Bearings

12:20

ME 329 Lecture 6: Intro to calculating bolt and member stiffness

06:15

ME 329 Lecture 5c: Sample power screw Problem

10:34

ME 329 Lecture 5b: Thread and Body Stresses in Power screws

05:06

ME 329 Lecture 5a: basic torque example for power screws

17:01

ME 329 Lecture 4: Intro to bolts and Power Screws

11:21

ME 329 Lecture 3: Whirling Failure using FEA and hand calcs

05:40

ME 329 Lecture 2e: Extracting stresses from the FEA for comparison to hand calculations

17:04

ME 329 Lecture 2d: How to use AutoCADs Fusion 360 to CAD and analyze a shaft

05:24

ME 329 Lecture 2c: Overview of CAD and FEA after estimating a target shaft d

06:46

ME 329 Lecture 2b: Building a spreadsheet to find shaft diameter

16:27

ME 329 Lecture 2a: Basics of shafts and how to approach shaft design

29:57

ME 329 Lecture 1: Intro to the design of a shaft for transmitting rotational power.

11:03

Understanding fault trees

10:22

Lecture 30 Multiaxial fatigue

11:56

Lecutre 29 estimating cycles to failure

12:49

Lecture 28 Fatigue Stress Concentration Factors

13:42

Lecture 27 Mean Stress Corrections in Fatigue

15:31

Lecture 26 Building a Marin factor worksheet in Excel

16:46

Lecture 25 Using Marin Factors to fit Basquin's law

13:35

Lecture 24 Marin Factors

12:29

Lecture 23 Estimating endurance limits and HCF parameters

15:04

Lecture 22 Stress-Life, Strain-Life and Fatigue crack growth