## Design of machine and structural partsVery Good,No Highlights or Markup,all pages are intact. |

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Page 35

DESIGNING FOR RIGIDITY For many machine components, rigidity requirements

must be met to ensure that linear or angular

affect machine performance. Components are made rigid to minimize ...

DESIGNING FOR RIGIDITY For many machine components, rigidity requirements

must be met to ensure that linear or angular

**deflection**is kept small so as not toaffect machine performance. Components are made rigid to minimize ...

Page 77

The profile of the membrane is parabolic in shape. 3. The

membrane is small. If these assumptions are true for a given case, then the

maximum shear stress can be written as _ 2M,C where Mt = twisting moment on

the member ...

The profile of the membrane is parabolic in shape. 3. The

**deflection**of themembrane is small. If these assumptions are true for a given case, then the

maximum shear stress can be written as _ 2M,C where Mt = twisting moment on

the member ...

Page 127

Kurt M. Marshek. It should be cautioned that the assumptions made may not

always yield accurate results in actual practice. For both cases shown in Figure 9

-1, the maximum

(a) ...

Kurt M. Marshek. It should be cautioned that the assumptions made may not

always yield accurate results in actual practice. For both cases shown in Figure 9

-1, the maximum

**deflection**of the impacted body is A. The maximum**deflection**in(a) ...

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### Contents

INTRODUCTION TO FORM DESIGN | 1 |

EFFICIENT AND INEFFICIENT STRESS PATTERNS | 27 |

DESIGNING FOR RIGIDITY | 35 |

Copyright | |

13 other sections not shown

### Common terms and phrases

avoirdupois bending stress body bolt cantilever beam Celsius compression compressive stress Considerations of Stress contact area contact stresses contact surface cross section cross-sectional area crowned tooth cylinders deflection deformation determined diameter effect efficient energy storage Engineering Considerations equations example flow of force force flow free-body diagram geometry given Hertz Hertz contact stress hole hollow shaft inch inefficient stress patterns inertia Isochromatic pattern joint elements joule Juvinall keyway kilogram lbf/in load distribution machine and structural material maximum stress membrane analogy meter3 modulus of elasticity neutral axis newton normal stress notch plate portion pressure distribution principle radius relative stiffness rigidity rivet round bar second mean solar shape refinement shear stress shown in Figure shows solid shaft splines spot contact spring constant spring model sprocket static stiffeners strength strength of materials stress concentration stress distribution tensile tensile stress threads torque transverse shear tube uniform shear uniform stress