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・ Tilted Thunder Rail Birds
・ Tilted updraft
・ Tiltfactor Lab
・ Tilth
・ Tiltil
・ Tiltill Valley
・ Tilting
・ Tilting at windmills
・ Tilting at Windmills (Consafos album)
・ Tilting at windmills (disambiguation)
・ Tilting car
・ Tilting our plates to catch the light
・ Tilting pan filter
・ Tilting theory
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Tilting train
・ Tilting Train Express
・ Tilting, Newfoundland and Labrador
・ Tiltjet
・ Tiltman
・ Tiltmeter
・ Tilton
・ Tilton Downtown Historic District
・ Tilton Island Park Bridge
・ Tilton Northfield, New Hampshire
・ Tilton on the Hill
・ Tilton railway station
・ Tilton River
・ Tilton School
・ Tilton, Illinois


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Tilting train : ウィキペディア英語版
Tilting train

A tilting train is a train that has a mechanism enabling increased speed on regular rail tracks. As a train (or other vehicle) rounds a curve at speed, objects inside the train experience inertia. This can cause packages to slide about or seated passengers to feel squashed by the outboard armrest due to its centripetal force, and standing passengers to lose their balance. Tilting trains are designed to counteract this discomfort. In a curve to the left, the train tilts to the left to compensate for the g-force push to the right, and vice versa. The train may be constructed such that inertial forces cause the tilting (passive tilt), or it may have a computer-controlled power mechanism (active tilt).
The first tilting train in regular public service was the 381 series electric multiple unit train operated by Japanese National Railways (JNR), which entered revenue service from 10 July 1973 on the ''Shinano'' limited express between Nagoya and Nagano on the Chūō Main Line. This technology was not fully implemented worldwide, as the marginally increased curve speeds did not justify the extra expense and technology in many cases. The British Advanced Passenger Train (being operational from 1984 to 1985) was the first to successfully implement active tilt, enabling significantly increased speeds on tight rail curves. Active tilting is the mechanism most widely used today.
== Rationale ==

Airplanes and bicycles tilt inwards when cornering, but automobiles and trains cannot do this on their own. Vehicles with high centres of gravity rounding sharp curves at high speeds may topple over. To make their turns easier, the outer edge of a roadway of a high-speed highway or outer rail of a railway may be canted (raised) upward around the curve. The combination of tilt and centrifugal force combines to produce an effective acceleration that is down through the floor, reducing or eliminating any sideways component.
The particular angle of tilt ("superelevation") is determined by the intended vehicle speed — higher speeds require more banking. But with a growing desire in the 1960s and 1970s to build high-speed rail networks, a problem arose: the amount of tilt appropriate for high-speed trains would be over-tilted for lower-speed local passenger and freight trains sharing the lines. Japan's early bullet train efforts of the 1960s avoided this problem by laying all-new lines as part of a re-gauging effort, and France's TGV followed the same pattern. Other operators did not have this luxury and were generally limited to much lower speeds.
Spain's national railway RENFE took a domestic invention, the Talgo, and developed it into a reliable high-speed train for a low-traffic-density railway. British Railways invested heavily in tilting-train technology to overcome the limitations of a rail network located in space-constrained built-up areas. Italy's Trenitalia has used tilting technology to speed trains through mountainous terrain.〔Michael Valenti, ("Tilting trains shorten transit time" ), ''Mechanical Engineering'', 1998〕
Tilting trains are meant to help reduce the effects of centrifugal force on the human body, but they can still cause nausea, a problem that was widely seen on early "active" tilting trains that exactly balanced the outward force. The effect could be felt under maximum speed and tilt, when the combination of tilting outside view and lack of corresponding sideways force can be disconcerting to passengers, like that of a "thrill ride". Researchers have found that if the tilting motion is reduced to compensate for 80% or less of lateral apparent force, then passengers feel more secure. Also, motion sickness on tilting trains can be essentially eliminated by adjusting the timing of when the cars tilt as they enter and leave the curves. Systems typically tilt the cars based on a sensor at the front of the train, and the slight delay in reacting to this information leads to a short period of sideways force while the cars react. It was found that when the cars tilt just at the beginning of the curves instead of while they are making the turns, there was no motion sickness. To provide information about the upcoming curves before the front of the train reaches them, a GPS system is used.〔("New study shows how to eliminate motion sickness on tilting trains " ), Icahn School of Medicine at Mount Sinai, 4 August 2011〕

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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