Dehydrogenation method for steel material and steel product, and production method for steel material and steel product

1 . A dehydrogenation method for a steel material, wherein in a series of steel material production process including: a supply process of supplying a steel raw material; a hot working process of subjecting the steel raw material to hot working; an inspection process of inspecting a steel material obtained from the steel raw material; and a shipment process of shipping the steel material, at least one of the steel raw material and the steel material at any stage from the supply process to the shipment process is subjected to, at least once, a treatment of irradiating with sound waves so that a sound pressure level at a surface of the at least one of the steel raw material and the steel material will be 30 dB or more. 2 . The dehydrogenation method according to claim 1 , wherein the series of steel material production process further includes a cold working process of subjecting the steel material after the hot working process to cold working. 3 . A dehydrogenation method for a steel product, wherein in a series of steel product production process including: a transportation process of transporting a steel material shipped from a steelworks; a storage process of storing the steel material; and a working process of working the steel material to obtain a steel product, at least one of the steel material and the steel product at any stage from the shipped steel material to any process out of the transportation process, the storage process, and the working process is subjected to, at least once, a treatment of irradiating with sound waves so that a sound pressure level at a surface of the at least one of the steel material and the steel product will be 30 dB or more. 4 . The dehydrogenation method according to claim 1 , wherein the sound waves have a frequency from 10 Hz to 100000 Hz. 5 . The dehydrogenation method according to claim 1 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more. 6 . A production method for a steel material, comprising the dehydrogenation method according to claim 1 . 7 . A production method for a steel product, comprising the dehydrogenation method according to claim 3 . 8 . The dehydrogenation method according to claim 2 , wherein the sound waves have a frequency from 10 Hz to 100000 Hz. 9 . The dehydrogenation method according to claim 3 , wherein the sound waves have a frequency from 10 Hz to 100000 Hz. 10 . The dehydrogenation method according to claim 2 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more. 11 . The dehydrogenation method according to claim 3 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more. 12 . The dehydrogenation method according to claim 4 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more. 13 . The dehydrogenation method according to claim 8 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more. 14 . The dehydrogenation method according to claim 9 , wherein a sound wave irradiation time in the treatment of irradiating with the sound waves is 1 second or more.