Add to ORKGSamarium-cobalt alloys are used in some of the strongest permanent magnets, particularly for applications between about 200 and 550°C, but the utilization of these materials is restricted by their brittleness. Improving their mechanical resilience would allow them to be used more widely and, in some cases, substitute for neodymium-based magnet alloys which are subject to supply-chain risks. We have engineered a series of novel microstructures with bi-modal grain size distributions to achieve unprecedented combinations of mechanical and magnetic properties. Improvements up to 73% are obtained in the flexural strength of Sm2(CoFeCuZr)17 sintered magnets, with negligible impact on the magnetic properties. Our mechanically-robust, high-performa...
Nanocomposite Sm(2)Co(17)-5 wt% FeCo magnets were synthesized by high energy ball milling followed b...
Iron-rich 2:17-type Sm-Co magnets are important for their potential to achieve high coercivity and m...
The Sm(Co,Zr)(7)/alpha-(Fe-Co) nanocomposite permanent magnets are produced by mechanical alloying a...
Samarium-cobalt alloys are used in some of the strongest permanent magnets, particularly for applica...
The SmCo-based permanent magnets are drawing much more attention since the early 1970\u27s for their...
The increasing use of permanent magnet motors in demanding high temperature environments has led to ...
THESIS 7062In the recent search for new high-temperature permanent magnet materials, research has co...
A higher saturation magnetization obtained by an increased iron content is essential for yielding la...
There is an increasing interest in developing desirable microstructures in hard magnetic materials. ...
Abstract. This paper presents research results reported in the past two years on high performance Sm...
Two methods of pre-crushing power, hydrogen decrepitation (HD) and mechanical crushing (MC), were ap...
The Sm (Co,Zr)7 /α- (Fe-Co) nanocomposite permanent magnets are produced by mechanical alloying and ...
Nanocomposite Sm2Co17-5wt% FeCo magnets were synthesized by high energy ball milling followed by con...
A higher saturation magnetization obtained by an increased iron content is essential for yielding la...
Improvements to the properties of Rare Earth Permanent Magnets (REPMs) are needed to advance the cap...
Nanocomposite Sm(2)Co(17)-5 wt% FeCo magnets were synthesized by high energy ball milling followed b...
Iron-rich 2:17-type Sm-Co magnets are important for their potential to achieve high coercivity and m...
The Sm(Co,Zr)(7)/alpha-(Fe-Co) nanocomposite permanent magnets are produced by mechanical alloying a...
Samarium-cobalt alloys are used in some of the strongest permanent magnets, particularly for applica...
The SmCo-based permanent magnets are drawing much more attention since the early 1970\u27s for their...
The increasing use of permanent magnet motors in demanding high temperature environments has led to ...
THESIS 7062In the recent search for new high-temperature permanent magnet materials, research has co...
A higher saturation magnetization obtained by an increased iron content is essential for yielding la...
There is an increasing interest in developing desirable microstructures in hard magnetic materials. ...
Abstract. This paper presents research results reported in the past two years on high performance Sm...
Two methods of pre-crushing power, hydrogen decrepitation (HD) and mechanical crushing (MC), were ap...
The Sm (Co,Zr)7 /α- (Fe-Co) nanocomposite permanent magnets are produced by mechanical alloying and ...
Nanocomposite Sm2Co17-5wt% FeCo magnets were synthesized by high energy ball milling followed by con...
A higher saturation magnetization obtained by an increased iron content is essential for yielding la...
Improvements to the properties of Rare Earth Permanent Magnets (REPMs) are needed to advance the cap...
Nanocomposite Sm(2)Co(17)-5 wt% FeCo magnets were synthesized by high energy ball milling followed b...
Iron-rich 2:17-type Sm-Co magnets are important for their potential to achieve high coercivity and m...
The Sm(Co,Zr)(7)/alpha-(Fe-Co) nanocomposite permanent magnets are produced by mechanical alloying a...