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TEXTURE AND MECHANICAL ANISOTROPY IN THE COPPER - ZINC SYSTEMStephens, Arthur William, 1936- January 1968 (has links)
No description available.
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Proposed phase transitions in copper-zinc alloys at very high pressuresHonig, Ernest Martin, 1941- January 1968 (has links)
No description available.
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Plasticity of gamma brass copper-aluminum and copper-zinc systemsRevolinsky, Eugene. January 1961 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1961. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaf 44)
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Temperature dependence of stacking fault energy in a Cu-30w/o Zn alloyShevlin, Craig Martin, 1943- January 1969 (has links)
No description available.
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Evaluation of a novel method to investigate diffusion between copper-zinc alloys and cemented carbidesLarsson, André January 2022 (has links)
When slow wear mechanisms are studied it is important to examine slower processes, such as diffusion. Such processes can have a significant impact over time and can cause other phases to form, which can have a large effect on the wear. This thesis has investigated the diffusion that is believed to take place between brass and cemented carbide tools. This was done to further the understanding of the slow atomic wear which if properly understood, could lead to solutions that would increase the lifetime of the tools. The diffusion pairs were made from a tribological contact and then heat treated to speed up the diffusion process. Different temperatures and times were tested, from 400 °C for 3 h to 700 °C for 24 h. The samples were analysed with SEM and EDS both before and after the heat treatment, to see if diffusion had taken place. However, because of many unexpected processes and reactions the analysis could not confirm that diffusion had taken place. The transportation of Cu at the higher temperatures was much faster than expected, and in some samples, Cu could not be detected after the heating. Since the surface was so mobile, the slower diffusion process did not have time to take place. Many improvements for future experiments are suggested to be able to observe the diffusion, such as depositing a thin film or adding more work material.
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Исследование механических свойств труб из латуни ЛМцАКНХ, выпускаемых ОАО РЗОЦМ для нужд отечественного автомобилестроения : магистерская диссертация / Investigation of the pipes mechanical properties of brass CuZnMnAlSiNiCr, produced by JSC Revda Non-Ferrous Metals Processing Works for the needs of Russian automotive industryШешукова, Ю. А., Sheshukova, Y. A. January 2017 (has links)
Представлен литературный обзор в области свойств сплавов из сложнолегированных латуней и заготовок из них. В экспериментальной части работы представлены результаты исследований, направленных на изучение механических свойств сложнолегированной латуни CuZnMnAlSiNiCr в горячепрессованном состоянии. Выполнена статистическая обработка результатов измерений. Наблюдается значительная дисперсия механических свойств, что объяснено сложностью химического состава, фазового и структурного состояния сплава. Обнаружено проявление анизотропии. / A literature review is given in the field of properties of alloys from complex-alloyed brasses and blanks from them. The experimental part of the paper presents the results of studies aimed at studying the mechanical properties of complex-alloyed brass CuZn30Al2Mn3SiNiCr in the hot-extruded state. Statistical processing of measurement results is performed. A significant dispersion of mechanical properties is observed, which is explained by the complexity of the chemical composition, phase and structural state of the alloy. Anisotropy is observed.
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