NTL Record

Title Evaluation of Semi-Empirical Analyses for Tank Car Puncture Velocity, Part II: Correlations with Engineering Analyses
Record ID 12868
Personal Name
Creator
Jeong, D.Y.; Tang, Y.H.; Perlman, A.B.
Corporate
Contributor
John A. Volpe National Transportation Systems Center (U.S.)
Publisher United States. Department of Transportation. Federal Railroad Administration
Publication Date 20011100
Language English
Abstract This report is the second in a series focusing on methods to determine the puncture velocity of railroad tank car shells. In this context, puncture velocity refers to the impact velocity at which a coupler will completely pierce the shell and puncture the tank. In the first report in this series, a set of semi-empirical equations was evaluated by comparing calculated puncture velocities with data from tank car impact tests. These equations were originally developed by the RPI-AAR Tank Car Safety Committee and later modified by the industry to account for head shield protection and jacket insulation. The semi-empirical equations generally produced reasonable and conservative estimates of puncture velocity when compared with the experimental data. However, differences between the calculated and observed results become more widespread when the tank is pressurized or when shield protection is present. Moreover, alternative methods to determine puncture velocity may be observed by the industry to avoid overdesign. In this report, methods to predict puncture velocity based only on engineering mechanics principles (i.e., no empiricism) are developed and described. Results from the semi-empirical approach are compared with results from the engineering methods. These methods rely on both analytical and computational tools to examine the structural behavior of tanks with ellipsoidal shapes. These tools include finite element and dynamic lumped mass models.
Rosap ID dot:8441
Rosap URL https://rosap.ntl.bts.gov/view/dot/8441
TRT Terms Railroad trains; Railroad cars; Tank cars; Correlation analysis; Mechanical analysis; Puncture resistance; Couplers; Impact; Velocity; Finite element method
General Subjects Coupler impact; Indentation; Puncture velocity; Shield protection
Classification NTL - RAIL TRANSPORTATION - RAIL TRANSPORTATION;
NTL - RAIL TRANSPORTATION - Rail Safety
Geographical
Coverage
United States
TRIS Online
Accession No
932359
Report Number DOT/FRA/ORD-01/21.II; DOT-VNTSC-FRA-99-10
Availability Volpe National Transportation Systems Center, Technical Reference Center
Resource type Research Paper
URL https://ntlrepository.blob.core.windows.net/lib/12000/12800/12868/ord0121_2.pdf
Format PDF
Database NTL Digital Repository