Engineering Materials: Properties and Selection |
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Page 620
... stress concentrations ( Figure 20-7 ) . The calcu- lations performed by most designers yield the macroscopic stress level . If stress con- centrations are present , the local state of stress can be orders of magnitude greater than the macro ...
... stress concentrations ( Figure 20-7 ) . The calcu- lations performed by most designers yield the macroscopic stress level . If stress con- centrations are present , the local state of stress can be orders of magnitude greater than the macro ...
Page 621
... stress concentration factor is known , it can be used in design calculations to calculate local stress . Allowable stress limits should then be applied to this value ( Smax ) rather than to the apparent stress that is derived from ...
... stress concentration factor is known , it can be used in design calculations to calculate local stress . Allowable stress limits should then be applied to this value ( Smax ) rather than to the apparent stress that is derived from ...
Page 622
... Stress concentration factors for bending of a stepped shaft . 5. Use snap rings judiciously ; the notch effect of snap ring grooves cannot be elimi- nated by radiusing . Put them at the end of shafts or in low - stress areas . 6. Stress ...
... Stress concentration factors for bending of a stepped shaft . 5. Use snap rings judiciously ; the notch effect of snap ring grooves cannot be elimi- nated by radiusing . Put them at the end of shafts or in low - stress areas . 6. Stress ...
Contents
PROPERTIES AND SELECTION | 19 |
PRINCIPLES OF POLYMERIC MATERIALS | 53 |
ENGINEERING PLASTICS POLYMERIC COATINGS | 136 |
Copyright | |
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abrasion addition alloys aluminum anode applications ASTM atoms attack austenitic bond brass bronze carbide carbon cast cause ceramics characteristics chemical chromium coatings common compared composites concentration contain copper copper alloys corrosion corrosion resistance cost cracking discussed effect electrical electrons elements engineering environments example factor failures Figure filler finish glass grades hardening hardness heat higher important industry involves iron less limit machine magnesium material measured mechanical melting metal mold nature needed nickel occur operations oxide phase plastics plating polymer prevent problems produce properties pure quench range reducing reinforcement resistance selection shapes sheet shown silicon similar solution specific stainless steels strength stress structure surface Table techniques temper temperature tensile strength thermal thickness tion titanium tool steels treatments types typical usually various wear welding widely zinc