Causes and prevention of splitting/bursting failure of concrete crossties: a computational study

Yu, Hailing; John A. Volpe National Transportation Systems Center (U.S.)

Advanced Search

Select up to three search categories and corresponding keywords using the fields to the right. Refer to the Help section for more detailed instructions.

Search our Collections & Repository

Advanced Search
Custom Query

All these words:

For very narrow results

This exact word or phrase:

When looking for a specific result

Any of these words:

Best used for discovery & interchangable words

None of these words:

Recommended to be used in conjunction with other fields

Language:

Dates

Publication Date Range:

to

Document Data

Title:

Document Type:

Library

Collection:

Series:

People

Author:

Clear All

Query Builder

Query box

Clear All

For additional assistance using the Custom Query please check out our Help Page

i

Causes and prevention of splitting/bursting failure of concrete crossties: a computational study

2017-09-17
By Yu, Hailing

[PDF-1.85 MB]

English

Details You May Also Like

Details:

Creators:

Yu, Hailing
Corporate Creators:

John A. Volpe National Transportation Systems Center (U.S.)
Corporate Contributors:

United States. Federal Railroad Administration. Office of Research, Development, and Technology
Subject/TRT Terms:

[+]

Failure Analysis Finite Element Method Prestressed Concrete Ties Railroad Safety Railroad Ties Railroad Tracks Stress Cracking
Resource Type:

Tech Report
Geographical Coverage:

United States
Corporate Publisher:

John A. Volpe National Transportation Systems Center (U.S.)
NTL Classification:

AGR-INFRASTRUCTURE-Railroads;NTL-RAIL TRANSPORTATION-Rail Safety;NTL-RAIL TRANSPORTATION-RAIL TRANSPORTATION;
Abstract:

Concrete splitting/bursting is a well-known failure mode of concrete crossties that can compromise the crosstie integrity and raise railroad maintenance and track safety concerns. This paper presents a computational study aimed at better understanding the main contributing factors to this failure mode. Finite element models are developed for concrete crossties with different geometric and reinforcement configurations. The investigated factors include: steel reinforcement type, concrete release strength, presence of fastener shoulders, and cyclic dynamic loading. Five steel reinforcements with various surface geometries, including a smooth wire, three indented wires and a seven-wire strand, are studied. Three concrete release strengths are applied at 3,500, 4,500 and 6,000 psi, respectively. Static analyses of pretension release and dynamic analyses of repeated rail seat loading are conducted. The study concludes that low concrete release strengths, accompanied by underdeveloped steel-concrete bond for prestress transfer, are responsible for initial concrete material degradation patterns that can further deteriorate under cyclic dynamic loading and develop into macroscopic cracks consistent with the field observations. Based on these findings, this paper recommends (1) sufficiently high concrete release strengths during production and (2) development and implementation of a qualification test standard with dynamic loading cycles to ensure long term splitting/bursting performances of concrete crossties.
Format:

PDF
Collection(s):

Federal Railroad Administration Volpe Center
Main Document Checksum:

[+]

urn:sha256:6329822f90362ca8adc1b7d1c75c55e79ada911a9709382c1a3848e90235e839
Download URL:

https://rosap.ntl.bts.gov/view/dot/32566/dot_32566_DS1.pdf
File Type:

No Additional Files

More +

Causes and prevention of splitting/bursting failure of concrete crossties: a computational study

Details:

Supporting Files

You May Also Like