Results 311 to 320 of about 3,212,901 (332)
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2020
The wetting studying of single Ti and double Ti???Cu coatings by metallic melts by the sessile drop method using the method of capillary cleaning during an experiment in vacuum at temperatures of 300??????600 ??C has been studied. Studies on the wetting of an industrial Al-alloy (Ams) and SiO??? by lowtemperature solder alloys based on In, Sn and their
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The wetting studying of single Ti and double Ti???Cu coatings by metallic melts by the sessile drop method using the method of capillary cleaning during an experiment in vacuum at temperatures of 300??????600 ??C has been studied. Studies on the wetting of an industrial Al-alloy (Ams) and SiO??? by lowtemperature solder alloys based on In, Sn and their
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Cu to Cu bonding with Cu@Ag core-shell nanoparticles
2012 3rd IEEE International Workshop on Low Temperature Bonding for 3D Integration, 2012In this study, PVP-protected Cu@Ag core-shell nanoparticles with different Ag shell thicknesses were synthesized and applied to Cu to Cu bonding. The phase transformation of Cu@Ag core-shell nanoparticles (about 80 nm in average particle diameter and 10 nm in shell thickness) upon heating in air was investigated via in situ synchrotron radiation X-ray ...
Jenn-Ming Song +4 more
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2019
The work is dedicuted to investigation of overlap friction stir welded joints of sheet billets of homogeneous (Cu???Cu) and dissimilar metals with unlimited (Ni???Cu) and limited solubility (Cu???St.3, Kh18N10???Cu) of the components in solid state.
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The work is dedicuted to investigation of overlap friction stir welded joints of sheet billets of homogeneous (Cu???Cu) and dissimilar metals with unlimited (Ni???Cu) and limited solubility (Cu???St.3, Kh18N10???Cu) of the components in solid state.
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Alloy Digest, 2018
Abstract Alloy Cu-ETP (UNS C11000) is a high conductivity pure copper alloy. The alloy is characterized by good electrical and thermal conductivity, and very good resistance to stress-corrosion cracking. This datasheet provides information on composition, physical properties, and bend strength.
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Abstract Alloy Cu-ETP (UNS C11000) is a high conductivity pure copper alloy. The alloy is characterized by good electrical and thermal conductivity, and very good resistance to stress-corrosion cracking. This datasheet provides information on composition, physical properties, and bend strength.
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2018
?? ?????????????? ?????????????????? ?????????????????????? ?????????????? ?? ???????????????????????????????????? ?????????????? ?????????????????????? ?????????????????? ?? ???????????????? ????????????????????????????, ???????????????????????????? ???????????????????? ?????????????????????????????? ???????????????? Cu????? ?? ????????????????????????
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?? ?????????????? ?????????????????? ?????????????????????? ?????????????? ?? ???????????????????????????????????? ?????????????? ?????????????????????? ?????????????????? ?? ???????????????? ????????????????????????????, ???????????????????????????? ???????????????????? ?????????????????????????????? ???????????????? Cu????? ?? ????????????????????????
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2015
Polymer nanocomposites based on CuS/CdS and Cu???S/CdS are synthesized by ion-exchange technique in nanofibre CdS with a concentration of CuS and Cu???S from 0.015 to 0.15 and within the temperature range of 320???420 K, and their electrophysical properties are investigated.
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Polymer nanocomposites based on CuS/CdS and Cu???S/CdS are synthesized by ion-exchange technique in nanofibre CdS with a concentration of CuS and Cu???S from 0.015 to 0.15 and within the temperature range of 320???420 K, and their electrophysical properties are investigated.
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2017
???????????????? ?????????????????????????????????????? ??????????????, ?????????????????????? ??????????????????????, ?????????????????????????? ?????????????????????????? ???? ?????????????????????????? ???????????????????? ??????????????????, ?????????????? ??????????, ???????????????????????? ???? ???????????????? ?????????????????????? ????????????
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???????????????? ?????????????????????????????????????? ??????????????, ?????????????????????? ??????????????????????, ?????????????????????????? ?????????????????????????? ???? ?????????????????????????? ???????????????????? ??????????????????, ?????????????? ??????????, ???????????????????????? ???? ???????????????? ?????????????????????? ????????????
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2014
?????????????????????? ?????????????????????? ???????????????????????????????????????? ???????????????????????????????? ???????????????????? ?? ???????????????? Cu???Fe ?? Cu???Ni. ???????????????????? ?????????????????????? ???? ???????????????????????????? ???????????????????????????????? ???????? ?????? ???????????????? ?????? ???????????????????????
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?????????????????????? ?????????????????????? ???????????????????????????????????????? ???????????????????????????????? ???????????????????? ?? ???????????????? Cu???Fe ?? Cu???Ni. ???????????????????? ?????????????????????? ???? ???????????????????????????? ???????????????????????????????? ???????? ?????? ???????????????? ?????? ???????????????????????
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2011
The comparative analysis of physico-mechanical properties and structure of the Cu???Cr composites with content of chromium 35 and 65% (vol.) , obtained by pressure in the solid phase in the vacuum at the temperatures 750, 850, 950 and 1050 oC is carried out. Furthermore, the layer speciments which consist of two layers, whose compositions correspond to
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The comparative analysis of physico-mechanical properties and structure of the Cu???Cr composites with content of chromium 35 and 65% (vol.) , obtained by pressure in the solid phase in the vacuum at the temperatures 750, 850, 950 and 1050 oC is carried out. Furthermore, the layer speciments which consist of two layers, whose compositions correspond to
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