Preparation of Cu-Cr alloy powder by mechanical alloying

Qing Zhao; Zhongbao Shao; Chengjun Liu; Maofa Jiang; Li Xuetian; Ron Zevenhoven; Henrik Saxén

doi:10.1016/j.jallcom.2014.04.054

Preparation of Cu-Cr alloy powder by mechanical alloying

Qing Zhao, Zhongbao Shao, Chengjun Liu, Maofa Jiang, Li Xuetian, Ron Zevenhoven, Henrik Saxén

Forskningsoutput: Tidskriftsbidrag › Artikel › Vetenskaplig › Peer review

51 Citeringar (Scopus)

Sammanfattning

A study of Cu-Cr alloy powder preparation by a newly developed mechanical alloying (MA) approach was conducted using a modified mill. Results showed that the preparation temperature was much lower in the tests employing modified mill than with traditional equipment, and that no distinct differences could be found in the products prepared by the vibratory and planetary mills. Active carbon powder was found to exhibit an excellent reducing capacity for metallic oxides, while graphite powder was found inappropriate in this process. Based on the experimental results, purified Cu-Cr alloy nano-scale grain can prepared by mechanical alloying in the modified mill at 325 degrees C for 3 h with a ball-to-powder mass ratio of 15:1. A crystal agglomeration phenomenon was also found in the final alloy powder, leading to an increase in particle size.

Originalspråk	Odefinierat/okänt
Sidor (från-till)	118–124
Antal sidor	7
Tidskrift	Journal of Alloys and Compounds
Volym	607
DOI	https://doi.org/10.1016/j.jallcom.2014.04.054
Status	Publicerad - 2014
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

Nyckelord

Cu-Cr
Mechanical alloying
Milling
Powder

Åtkomst av dokument

10.1016/j.jallcom.2014.04.054

Citera det här

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title = "Preparation of Cu-Cr alloy powder by mechanical alloying",

abstract = "A study of Cu-Cr alloy powder preparation by a newly developed mechanical alloying (MA) approach was conducted using a modified mill. Results showed that the preparation temperature was much lower in the tests employing modified mill than with traditional equipment, and that no distinct differences could be found in the products prepared by the vibratory and planetary mills. Active carbon powder was found to exhibit an excellent reducing capacity for metallic oxides, while graphite powder was found inappropriate in this process. Based on the experimental results, purified Cu-Cr alloy nano-scale grain can prepared by mechanical alloying in the modified mill at 325 degrees C for 3 h with a ball-to-powder mass ratio of 15:1. A crystal agglomeration phenomenon was also found in the final alloy powder, leading to an increase in particle size.",

keywords = "Cu-Cr, Mechanical alloying, Milling, Powder, Cu-Cr, Mechanical alloying, Milling, Powder, Cu-Cr, Mechanical alloying, Milling, Powder",

author = "Qing Zhao and Zhongbao Shao and Chengjun Liu and Maofa Jiang and Li Xuetian and Ron Zevenhoven and Henrik Sax{\'e}n",

year = "2014",

doi = "10.1016/j.jallcom.2014.04.054",

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TY - JOUR

T1 - Preparation of Cu-Cr alloy powder by mechanical alloying

AU - Zhao, Qing

AU - Shao, Zhongbao

AU - Liu, Chengjun

AU - Jiang, Maofa

AU - Xuetian, Li

AU - Zevenhoven, Ron

AU - Saxén, Henrik

PY - 2014

Y1 - 2014

N2 - A study of Cu-Cr alloy powder preparation by a newly developed mechanical alloying (MA) approach was conducted using a modified mill. Results showed that the preparation temperature was much lower in the tests employing modified mill than with traditional equipment, and that no distinct differences could be found in the products prepared by the vibratory and planetary mills. Active carbon powder was found to exhibit an excellent reducing capacity for metallic oxides, while graphite powder was found inappropriate in this process. Based on the experimental results, purified Cu-Cr alloy nano-scale grain can prepared by mechanical alloying in the modified mill at 325 degrees C for 3 h with a ball-to-powder mass ratio of 15:1. A crystal agglomeration phenomenon was also found in the final alloy powder, leading to an increase in particle size.

AB - A study of Cu-Cr alloy powder preparation by a newly developed mechanical alloying (MA) approach was conducted using a modified mill. Results showed that the preparation temperature was much lower in the tests employing modified mill than with traditional equipment, and that no distinct differences could be found in the products prepared by the vibratory and planetary mills. Active carbon powder was found to exhibit an excellent reducing capacity for metallic oxides, while graphite powder was found inappropriate in this process. Based on the experimental results, purified Cu-Cr alloy nano-scale grain can prepared by mechanical alloying in the modified mill at 325 degrees C for 3 h with a ball-to-powder mass ratio of 15:1. A crystal agglomeration phenomenon was also found in the final alloy powder, leading to an increase in particle size.

KW - Cu-Cr

KW - Mechanical alloying

KW - Milling

KW - Powder

KW - Cu-Cr

KW - Mechanical alloying

KW - Milling

KW - Powder

KW - Cu-Cr

KW - Mechanical alloying

KW - Milling

KW - Powder

U2 - 10.1016/j.jallcom.2014.04.054

DO - 10.1016/j.jallcom.2014.04.054

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SN - 0925-8388

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JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

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