Freight car dispatching with generalized flows

A method of obtaining freight car truck loading data utilizing a strain gaged truck bolster as a load cell is described. Analysis necessary to derive both the magnitude and location of the line of action of the freight car body vertical load resultant is presented. Techniques for cycle counting applicable to fatigue studies are suggested. Sample data from actual service testing are presented.

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The Effect of Deformation on Mechanical Properties and Shakedown on Railroad Wheels

2014 Joint Rail Conference ◽

10.1115/jrc2014-3813 ◽

2014 ◽

Cited By ~ 1

Author(s):

Steven L. Dedmon ◽

Takashi Fujimura ◽

Daniel Stone

Keyword(s):

Mechanical Properties ◽

Rolling Contact ◽

Effect Of Temperature ◽

Plastic Deformations ◽

Rail Head ◽

Class D ◽

Shakedown Theory ◽

Freight Car ◽

Class C ◽

Railroad Wheels

Plastic deformations alter the mechanical properties of many metals and alloys. Class C and Class D wheel steels such as are used in North American freight car service are particularly affected by plastic deformations occurring during rolling contact between the wheel tread and rail head. This investigation determines the effect plastic deformations have on the mechanical properties of Class C and D wheel steels and how those changes could relate to shakedown theory. The effect of temperature is also discussed.

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An Improved Freight Car

Scientific American ◽

10.1038/scientificamerican12151888-370 ◽

1888 ◽

Vol 59 (24) ◽

pp. 370-370

Keyword(s):

Freight Car

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ASSESSMENT AND FORECASTING OF FREIGHT CAR TECHNICAL STATE

Bulletin of Bryansk state technical university ◽

10.30987/1999-8775-2021-5-40-47 ◽

2021 ◽

Vol 2021 (5) ◽

pp. 40-47

Author(s):

Elena Rozhkova

Keyword(s):

Graphical Model ◽

Technical State ◽

Distribution Law ◽

Repair Service ◽

Statistic Modeling ◽

Average Operating ◽

Freight Car ◽

Run Up ◽

Definition Of ◽

The Given

The purpose of this work is the assessment and forecasting of freight car technical state at life stages. The scientific novelty consists in the definition of car operating run-up to the first failure and between failures, and also in the definition of car life to considerable repair fulfillment from the operating run between failures and development of a graphical model of freight car reliability. As a result of the statistic modeling of gondola car operating runs up to the first failure it is defined that the given random value conforms to a normal distribution law, the first car setoff in TOR due to wear failure takes place at the operating run of 85,000 km. Besides the operating run-up to the first failure there was defined an operating run-up between failures. It is proved that the operating run-up between failures conforms to the exponential law of distribution, the mathematical expectation of which is 13,000 km. The results of investigations mentioned above formed the basis of the graphical model of car reliability. An inter-repair service life of a car can be represented as a sum of the following operating run-ups: operating run-ups to the first failure, the product of operating run-ups between failures and the number of failures and a residual operating run-up (from the utmost current repair to the nearest scheduled repair). On the basis of the mentioned it is expedient to consider a technology for the realization of an enlarged repair with the purpose of the repetition exclusion in car setoffs during the inter-repair term. On the basis of the simulator there is obtained the dependence of the frequency of car enlarged current repair fulfillment depending on average operating run-up between failures. At present an enlarged current repair must be carried out only for gondola cars in the planned order after having reached 80,000 km. The repair mentioned can be carried out both under depot conditions, and under conditions of repair workshops. The advantage of such a system of repair consists in the increase car work reliability during the inter-repair term.

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From Coarse to Fine: An Augmented Reality Based Dynamic Inspection Method for Visualized Railway Routing of Freight Cars

Measurement Science and Technology ◽

10.1088/1361-6501/ac3c1c ◽

2021 ◽

Author(s):

Bing Yi ◽

Renkai Sun ◽

Long Liu ◽

Yongfeng Song ◽

Yinggui Zhang

Keyword(s):

Augmented Reality ◽

High Efficiency ◽

Low Cost ◽

Digital Data ◽

Route Selection ◽

Inspection Method ◽

Envelope Model ◽

Freight Car ◽

Cargo Transportation ◽

Selection Of

Abstract It is a challenge for the dynamic inspection of railway route for freight car transporting cargo that out-of-gauge. One possible way is using the inspection frame installed in the inspection train to simulate the whole procedure for cargo transportation, which costs a lot of manpower and material resources as well as time. To overcome the above problem, this paper proposes an augmented reality (AR) based dynamic inspection method for visualized railway routing of freight car with out-of-gauge. First, the envelope model of the dynamic moving train with out-of-gauge cargo is generated by using the orbital spectrum of the railway, and the envelope model is matched with a piece of homemade calibration equipment located on the position of the railway that needs to be inspected. Then, the structure from motion (SFM) algorithm is used to reconstruct the environment where the virtual envelope model occludes the buildings or equipment along the railway. Finally, the distance function is adopted to calculate the distance between the obstacle and the envelope of the freight car with out-of-gauge, determining whether the freight car can pass a certain line. The experimental results show that the proposed method performs well for the route selection of out-of-gauge cargo transportation with low cost, high precision, and high efficiency. Moreover, the digital data of the environments along the railway and the envelope of the freight car can be reused, which will increase the digitalization and intelligence for route selection of out-of-gauge cargo transportation.

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Use of On-Board Hand Brake Monitoring to Prevent Freight Car Wheel Damage and Improve Maintenance and Safety

ASME 2011 Rail Transportation Division Fall Technical Conference ◽

10.1115/rtdf2011-67002 ◽

2011 ◽

Cited By ~ 1

Author(s):

Cameron Lonsdale ◽

Brent Wilson

Keyword(s):

North American ◽

Impact Load ◽

Significant Source ◽

Freight Car ◽

Service Data ◽

Proactive Maintenance

This paper discusses the benefits of using on-board hand brake sensors to determine whether a freight car hand brake is applied or released in service. Unreleased hand brakes are a significant source of wheel tread damage, which can lead to wheel removals, and in extreme cases can cause damage and derailments. Also, hand brake-related accidents are a significant cause of North American railroad accidents. Wheel tread damage and wayside wheel impact load detectors (WILD) are reviewed, along with AAR why made codes for wheel removals. Wheel failures and other wheel impact associated damage are discussed, along with operational considerations for hand brakes. Further, on-board sensors in general, and hand brake sensors in particular, are described in detail and service data from monitored cars is presented. Additionally, possible safety and operational improvements related to use of hand brake sensors are discussed, along with comments on the use of sensors to assist with proactive maintenance of freight cars.

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DYNAMICAL BEHAVIOUR OF A FORCED-STEERING THREE-PIECE FREIGHT CAR TRUCK

Vehicle System Dynamics ◽

10.1080/00423118808969281 ◽

1988 ◽

Vol 17 (sup1) ◽

pp. 407-418

Author(s):

Zhiyun Shen ◽

Junmao Yan ◽

Jing Zen ◽

Jianxin Liu

Keyword(s):

Dynamical Behaviour ◽

Freight Car

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