Temat: heat strain - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Thermal Phenomena Related to Plastic Deformation During Tensile Testing and Their Microscopic Interpretation
Autorzy:: Ostromęcka, Małgorzata
Siwiec, Jakub
Powiązania:: https://bibliotekanauki.pl/articles/2116441.pdf
Data publikacji:: 2022
Wydawca:: Instytut Kolejnictwa
Tematy:: strain of materials
heat generation
tensile test
dissimilar joint
friction welding
Opis:: Thermal phenomena related to plastic deformation can be commonly observed. By simply touching a ruptured or bent sample, it is clear that the temperature has risen at the deformation site. Such observations can be carried out for qualitative or quantitative assessment. This paper serves to qualitatively relate the changes in the structure of the deformed material to the temperature increase observed with an infrared camera.
Źródło:: Problemy Kolejnictwa; 2022, 195; 121--128
0552-2145
2544-9451
Pojawia się w:: Problemy Kolejnictwa
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Determination of constant parameters of copper as power-law hardening material at different test conditions
Autorzy:: Kowser, M. A.
Mahiuddin, M.
Powiązania:: https://bibliotekanauki.pl/articles/955240.pdf
Data publikacji:: 2014
Wydawca:: Uniwersytet Zielonogórski. Oficyna Wydawnicza
Tematy:: power-law hardening constant
work-hardening process
stress hardening exponent
power-law hardening material
heat treatment
tensile test
stress-strain curve
proces utwardzania
obróbka cieplna
próba rozciągania
Opis:: In this paper a technique has been developed to determine constant parameters of copper as a power-law hardening material by tensile test approach. A work-hardening process is used to describe the increase of the stress level necessary to continue plastic deformation. A computer program is used to show the variation of the stress-strain relation for different values of stress hardening exponent, n and power-law hardening constant, α . Due to its close tolerances, excellent corrosion resistance and high material strength, in this analysis copper (Cu) has been selected as the material. As a power-law hardening material, Cu has been used to compute stress hardening exponent, n and power-law hardening constant, α from tensile test experiment without heat treatment and after heat treatment. A wealth of information about mechanical behavior of a material can be determined by conducting a simple tensile test in which a cylindrical specimen of a uniform cross-section is pulled until it ruptures or fractures into separate pieces. The original cross sectional area and gauge length are measured prior to conducting the test and the applied load and gauge deformation are continuously measured throughout the test. Based on the initial geometry of the sample, the engineering stress-strain behavior (stress-strain curve) can be easily generated from which numerous mechanical properties, such as the yield strength and elastic modulus, can be determined. A universal testing machine is utilized to apply the load in a continuously increasing (ramp) manner according to ASTM specifications. Finally, theoretical results are compared with these obtained from experiments where the nature of curves is found similar to each other. It is observed that there is a significant change of the value of n obtained with and without heat treatment it means the value of n should be determined for the heat treated condition of copper material for their applications in engineering fields.
Źródło:: International Journal of Applied Mechanics and Engineering; 2014, 19, 4; 687-698
1734-4492
2353-9003
Pojawia się w:: International Journal of Applied Mechanics and Engineering
Dostawca treści:: Biblioteka Nauki

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