NONSTATIONARY TEMPERATURE DISTRIBUTION OVER THE DEPTH OF A PLATE WITH AN ELONGATED DEFECT IN INSPECTION BY CONSTANT AND IMPULSE THERMAL FLOW.

Abstract

An algorithm is described for numerically calculating the temperature field in inspecting with a thermal flow arbitrarily changing with time, in particular by constant and impulse ones, taking into consideration the final thickness and thermophysical properties of the defect. As a concrete example, the temperature distribution over the depth of parts in the area of a defect is shown.

Original language	English
Title of host publication	Sov J Nondestr Test
Pages	209-211
Number of pages	3
Volume	13
Edition	2
Publication status	Published - Mar 1977

ASJC Scopus subject areas

Engineering(all)

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title = "NONSTATIONARY TEMPERATURE DISTRIBUTION OVER THE DEPTH OF A PLATE WITH AN ELONGATED DEFECT IN INSPECTION BY CONSTANT AND IMPULSE THERMAL FLOW.",

abstract = "An algorithm is described for numerically calculating the temperature field in inspecting with a thermal flow arbitrarily changing with time, in particular by constant and impulse ones, taking into consideration the final thickness and thermophysical properties of the defect. As a concrete example, the temperature distribution over the depth of parts in the area of a defect is shown.",

author = "Vavilov, {V. P.} and Gorbunov, {V. I.}",

year = "1977",

month = mar,

language = "English",

volume = "13",

pages = "209--211",

booktitle = "Sov J Nondestr Test",

edition = "2",

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AU - Gorbunov, V. I.

PY - 1977/3

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N2 - An algorithm is described for numerically calculating the temperature field in inspecting with a thermal flow arbitrarily changing with time, in particular by constant and impulse ones, taking into consideration the final thickness and thermophysical properties of the defect. As a concrete example, the temperature distribution over the depth of parts in the area of a defect is shown.

AB - An algorithm is described for numerically calculating the temperature field in inspecting with a thermal flow arbitrarily changing with time, in particular by constant and impulse ones, taking into consideration the final thickness and thermophysical properties of the defect. As a concrete example, the temperature distribution over the depth of parts in the area of a defect is shown.

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BT - Sov J Nondestr Test

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