Transcription of Introduction to Railroad Track Structural Design
{{id}} {{{paragraph}}}
BCR2A 09 Railroad Track Design Including Asphalt Trackbeds Pre-Conference WorkshopIntroduction to Railroad Track Structural DesignDon Uzarski, , Vertical Load Distribution, and DeflectionsComponents do not function independently!Each component layer must protect the one Distribution3 Deflection ProfileSource: Selig and Waters, Track Geotechnology and Substructure Management, 19944 Static vs. Dynamic Loads Dynamic loads higher Acceleration from speed Downward rotation of wheel Smaller wheels, faster rotation, more acceleration Speed/wheel influence Pv= P + P (AREMA)wherePv= Vertical Dynamic Load (lbs) = D33x VDwx 100D = Wheel diameter (in)V = Speed (MPH)P = Static Load (lbs) Larger wheels impose less influence Additional dynamic loads from impacts such as caused by wheel flat spots, rail discontinuities ( frog flangeways), Track transitions ( bridge approaches), Track condition, Wheel Diameters38 inches28 inch
wheels in a truck and proximity of adjacent cars. 2. Select a Track Modulus, u or k, based on desired design deflection 3. Select rail size and section 4. Determine moment and loading coefficients 5. Check rail bending stress 6. Choose trial …
Domain:
Source:
Link to this page:
Please notify us if you found a problem with this document:
{{id}} {{{paragraph}}}