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Introductory technical guidance for professional engineers and construction managers interested in design and construction of railroads. Here is what is discussed: 1. ROADWAY.DESIGN, 2. GRADES AND TRACK PROFILE, 3. HORIZONTAL CURVES, 4. CLEARANCES, 5. TRACK STRUCTURE, 6. TRACK DESIGN METHODS, 7 AREMA DESIGN PROCEDURE (1995-MODIFIED), 8. SUBGRADE, 9. FROST DESIGN MODIFICATIONS, 10. DRAINAGE, 11. GEOTEXTILES, 12. BALLAST, 13. SUB-BALLAST, 14. TIES AND TIE SPACING, 15. RAIL, 16. OTHER TRACK MATERIAL, 17. TURNOUTS AND CROSSOVERS, 18. TRACK CONNECTIONS AND LADDER TRACKS, 19. RAIL CROSSINGS.
A revision of the classic text on railroad engineering, considered the ``bible'' of the field for three decades. Presents railroad engineering principles quantitatively but without excessive resort to mathematics, and applies these principles to day-by-day design, construction, operation, and maintenance. Relates practice to principles in an orderly, sequential pattern (subgrade, ballast, ties, rails). Applicable to both conventional railroads and rapid transit systems.
“Looks behind the facade to see the hidden engineering marvels . . . will deepen anyone’s appreciation for New York’s most magnificent interior space.” —The New York Times Book Review Winner of the Professional/Scholarly Publishing Award in Architecture from the Association of American Publishers Grand Central Terminal, one of New York City’s preeminent buildings, stands as a magnificent Beaux-Arts monument to America’s Railway Age, and it remains a vital part of city life today. Completed in 1913 after ten years of construction, the terminal became the city’s most important transportation hub, linking long-distance and commuter trains to New York’s network of subways, elevated trains, and streetcars. Its soaring Grand Concourse still offers passengers a majestic gateway to the wonders beyond 42nd Street. In Grand Central Terminal, Kurt C. Schlichting traces the history of this spectacular building, detailing the colorful personalities, bitter conflicts, and Herculean feats of engineering that lie behind its construction. Schlichting begins with Cornelius Vanderbilt—“The Commodore”—whose railroad empire demanded an appropriately palatial passenger terminal in the heart of New York City. Completed in 1871, the first Grand Central was the largest rail facility in the world and yet—cramped and overburdened—soon proved thoroughly inadequate for the needs of this rapidly expanding city. William Wilgus, chief engineer of the New York Central Railroad, conceived of a new Grand Central Terminal, one that would fully meet the needs of the New York Central line. Grand Central became a monument to the creativity and daring of a remarkable age. More than a history of a train station, this book is the story of a city and an age as reflected in a building aptly described as a secular cathedral.
This textbook covers the very wide spectrum of all aspects of railway engineering for all engineering disciplines, in a 'broad brush' way giving a good overall knowledge of what is involved in planning, designing, constructing and maintaining a railway. It covers all types of railway systems including light rail and metro as well as main line. The first edition has proved very popular both with students new to railways and with practicing engineers who need to work in this newly expanding area.In the second edition, the illustrations have been improved and brought up to date, particularly with the introduction of 30 colour pages which include many newly taken photographs. The text has been reviewed for present day accuracy and, where necessary, has been modified or expanded to include reference to recent trends or developments. New topics include automatic train control, level crossings, dot matrix indicators, measures for the mobility impaired, reinforced earth structures, air conditioning, etc. Recent railway experience, both technical and political, has also been reflected in the commentary.
In a rapidly changing world, with increasing competition in all sectors of transportation, railways are in a period of restructuring their management and technology. New methods of organization are introduced, commercial and tariff policies change radically, a more entrepreneurial spirit is required. At the same time, new high-speed tracks are being constructed and old tracks are renewed, high-comfort rolling stock vehicles are being introduced, logistics and combined transport are being developed. Awareness of environmental issues and search for greater safety give to the railways a new role within the transportation system. Meanwhile, methods of analysis have significantly evolved, principally due to computer applications and new ways of thinking and approaching old problems. Therefore it becomes necessary to come up with a new scientific approach to tackle management and engineering aspects of railways, to understand in-depth the origins and inter-relationships of the various situations and phenomena and to suggest the appropriate methods and solutions to solve the various emerging problems. This book aims to cover the need for a new scientific approach for railways. It is written for railway managers, economists and engineers, consulting economists and engineers, students of schools of engineering, transportation and management. The book is divided into three distinct parts: Part A deals with the management of railways, Part B deals with the track and, Part C deals with rolling stock and environmental topics. Each chapter of the book contains the necessary theoretical analysis of the phenomena studied, the recommended solutions, applications, charts and design of the specific railway component. In this way, both the requirement for a theoretical analysis is met, and the need of the railway manager and engineer for tables, nomographs, regulations, etc. is satisfied. Railways in Europe have separated activities of infrastructure from those of operation. In other parts of the world, however, railways remain unified. The book addresses both situation. Railways present great differences in their technologies. Something may be valid for one such technology, but not for another. To overcome this problem, regulations of the International Union of Railways (UIC) as well as European Standardization (CEN) have been used to the greatest extent possible. Whenever a specific technology or method is presented, the limits of its application are clearly emphasized.
With the increasing demands for safer freight trains operating with higher speed and higher loads, it is necessary to implement methods for controlling longer, heavier trains. This requires a full understanding of the factors that affect their dynamic performance. Simulation techniques allow proposed innovations to be optimised before introducing them into the operational railway environment. Coverage is given to the various types of locomotives used with heavy haul freight trains, along with the various possible configurations of those trains. This book serves as an introductory text for college students, and as a reference for engineers practicing in heavy haul rail network design,
TCRP report 155 provides guidelines and descriptions for the design of various common types of light rail transit (LRT) track. The track structure types include ballasted track, direct fixation ("ballastless") track, and embedded track. The report considers the characteristics and interfaces of vehicle wheels and rail, tracks and wheel gauges, rail sections, alignments, speeds, and track moduli. The report includes chapters on vehicles, alignment, track structures, track components, special track work, aerial structures/bridges, corrosion control, noise and vibration, signals, traction power, and the integration of LRT track into urban streets.
This new edition encompasses current design methods used for steel railway bridges in both SI and Imperial (US Customary) units. It discusses the planning of railway bridges and the appropriate types of bridges based on planning considerations.
Introductory technical guidance for civil engineers, structural engineers and construction managers interested in improving stability of existing concrete structures. Here is what is discussed: 1. EVALUATION, 2. PROCEDURES, 3. IMPROVING STABILITY, 4. CASE HISTORIES, 5. ANCHORING STRUCTURES, 6. ANCHORING STRUCTURES TO ROCK, 7. TENSIONED ANCHOR LOADS, 8. STRUCTURAL ANCHOR DESIGN, 9. CLASSIFICATION OF STRUCTURES.
International Conference on Engineering Education and Research