Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Men, Hua
Fu, Junying
Pang, Shujie
Ma, Chaoli
and
Zhang, Tao
2006.
Formation and Thermal Stability of Cu<SUB>46.25</SUB>Zr<SUB>44.25</SUB>Al<SUB>7.5</SUB>Er<SUB>2</SUB> Bulk Metallic Glass with a Diameter of 12 mm.
MATERIALS TRANSACTIONS,
Vol. 47,
Issue. 11,
p.
2882.
Li, Y.
Poon, S. J.
Shiflet, G. J.
Xu, J.
Kim, D. H.
and
Löffler, J. F.
2007.
Formation of Bulk Metallic Glasses and Their Composites.
MRS Bulletin,
Vol. 32,
Issue. 8,
p.
624.
Men, H.
Pang, S.J.
and
Zhang, T.
2007.
Thermal stability and microhardness of new Co-based bulk metallic glasses.
Materials Science and Engineering: A,
Vol. 449-451,
Issue. ,
p.
538.
Yuan, Zi-Zhou
Bao, Shi-Lei
Lu, Ye
Zhang, Da-Peng
and
Yao, Lin
2008.
A new criterion for evaluating the glass-forming ability of bulk glass forming alloys.
Journal of Alloys and Compounds,
Vol. 459,
Issue. 1-2,
p.
251.
Wu, Hong
Liu, Yong
He, Shiwen
Liu, Zuming
and
Huang, Baiyun
2008.
Effect of yttrium addition on the glass forming ability of Co-based alloys.
International Journal of Materials Research,
Vol. 99,
Issue. 6,
p.
689.
Greer, A. Lindsay
2009.
Metallic glasses…on the threshold.
Materials Today,
Vol. 12,
Issue. 1-2,
p.
14.
Zhang, Tao
Li, Ran
and
Pang, Shujie
2009.
Effect of similar elements on improving glass-forming ability of La–Ce-based alloys.
Journal of Alloys and Compounds,
Vol. 483,
Issue. 1-2,
p.
60.
Zhu, C.L.
Wang, Q.
Wang, Y.M.
Qiang, J.B.
and
Dong, C.
2010.
Co–B–Si–Ta bulk metallic glasses designed using cluster line and alloying.
Journal of Alloys and Compounds,
Vol. 504,
Issue. ,
p.
S34.
Ding, Hong-Yu
Li, Yang
and
Yao, Ke-Fu
2010.
Preparation of a Pd-Cu-Si Bulk Metallic Glass with a Diameter up to 11 mm.
Chinese Physics Letters,
Vol. 27,
Issue. 12,
p.
126101.
Zhang, Tao
Yang, Qin
Ji, YunFei
Li, Ran
Pang, ShuJie
Wang, JianFeng
and
Xu, Tao
2011.
Centimeter-scale-diameter Co-based bulk metallic glasses with fracture strength exceeding 5000 MPa.
Chinese Science Bulletin,
Vol. 56,
Issue. 36,
p.
3972.
Xia, L.
Chan, K.C.
and
Tang, M.B.
2011.
Enhanced glass forming ability and refrigerant capacity of a Gd55Ni22Mn3Al20 bulk metallic glass.
Journal of Alloys and Compounds,
Vol. 509,
Issue. 23,
p.
6640.
Xia, L.
Chan, K.C.
Kwok, S.K.
and
Yu, P.
2011.
Enhanced plasticity of a Zr50Cu48Al2 bulk metallic glass.
Journal of Non-Crystalline Solids,
Vol. 357,
Issue. 5,
p.
1469.
Li, Yan
Li, Ran
Pang, Shujie
Chen, Bingqing
Georgarakis, Konstantinos
Le Moulec, Alain
Vaughan, Gavin
Zhang, Tao
and
Yavari, Alain R.
2012.
Investigation of viscosity and crystallization in supercooled-liquid region of Zr-based glassy alloys.
Journal of Non-Crystalline Solids,
Vol. 358,
Issue. 2,
p.
150.
Greer, A.L.
2014.
Physical Metallurgy.
p.
305.
Cheng, Yangyang
Chen, Chen
Shi, Minjie
and
Zhang, Tao
2015.
Synthesis of CoCrMoCB bulk metallic glasses with high strength and good plasticity via regulating the metalloid content.
Journal of Non-Crystalline Solids,
Vol. 410,
Issue. ,
p.
155.
Qiao, Junwei
Jia, Haoling
and
Liaw, Peter K.
2016.
Metallic glass matrix composites.
Materials Science and Engineering: R: Reports,
Vol. 100,
Issue. ,
p.
1.
Hua, Neng Bin
Chen, Wen Zhe
and
Liao, Zhen Long
2018.
Effects of Zr Content on the Bending Property and Crystallization Behavior of Ductile Zr-Based Bulk Metallic Glasses.
Materials Science Forum,
Vol. 913,
Issue. ,
p.
765.
Kim, Jeong Tae
Hong, Sung Hwan
Bian, Xilei
Gokuldoss, Prashanth Konda
Song, Kaikai
Eckert, Jürgen
Park, Jin Man
and
Kim, Ki Buem
2018.
Effect of boron addition on thermal and mechanical properties of Co-Cr-Mo-C-(B) glass-forming alloys.
Intermetallics,
Vol. 99,
Issue. ,
p.
1.
Li, H.X.
Lu, Z.C.
Wang, S.L.
Wu, Y.
and
Lu, Z.P.
2019.
Fe-based bulk metallic glasses: Glass formation, fabrication, properties and applications.
Progress in Materials Science,
Vol. 103,
Issue. ,
p.
235.
Kim, J.T.
Hong, S.H.
Kim, Y.S.
Park, H.J.
Maity, T.
Chawake, N.M.
Prashanth, K.G.
Park, J.M.
Song, K.K.
Wang, W.M.
Eckert, J.
and
Kim, K.B.
2019.
Co-Cr-Mo-C-B metallic glasses with wide supercooled liquid region obtained by systematic adjustment of the metalloid ratio.
Journal of Non-Crystalline Solids,
Vol. 505,
Issue. ,
p.
310.