Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
NAKAJIMA, Hideo
2010.
Fabrication, properties, and applications of porous metals with directional pores.
Proceedings of the Japan Academy, Series B,
Vol. 86,
Issue. 9,
p.
884.
Kim, T.B.
Tane, M.
Suzuki, S.
Utsunomiya, H.
Ide, T.
and
Nakajima, H.
2011.
Strength and pore morphology of porous aluminum and porous copper with directional pores deformed by equal channel angular extrusion.
Materials Science and Engineering: A,
Vol. 528,
Issue. 6,
p.
2363.
Tane, Masakazu
Okamoto, Rika
and
Nakajima, Hideo
2011.
Anisotropic Tensile Deformation of Lotus-Type Porous Copper.
Materials Science Forum,
Vol. 695,
Issue. ,
p.
545.
Kim, Tae Bum
Tane, Masakazu
Suzuki, Shinsuke
Ide, Takuya
Utsunomiya, Hiroshi
and
Nakajima, Hideo
2011.
Improvement of Strength of Lotus-Type Porous Aluminum through ECAE Process.
Materials Science Forum,
Vol. 695,
Issue. ,
p.
263.
Song, Y.H.
Tane, M.
and
Nakajima, H.
2012.
Peculiar formation mechanism of a plateau stress region during dynamic compressive deformation of porous carbon steel with oriented cylindrical pores.
Acta Materialia,
Vol. 60,
Issue. 3,
p.
1149.
Nakajima, Hideo
and
Nakajima, Hideo
2013.
Porous Metals with Directional Pores.
p.
127.
Yang, F.
Tane, M.
Lin, J.P.
Song, Y.H.
and
Nakajima, H.
2013.
Pore formation and compressive deformation in porous TiAl–Nb alloys containing directional pores.
Materials & Design,
Vol. 49,
Issue. ,
p.
755.
Tane, M.
Zhao, F.
Song, Y.H.
and
Nakajima, H.
2014.
Formation mechanism of a plateau stress region during dynamic compression of porous iron: Interaction between oriented cylindrical pores and deformation twins.
Materials Science and Engineering: A,
Vol. 591,
Issue. ,
p.
150.
Li, Chong
E., Daxin
and
Yi, Ning
2016.
Analysis on fracture initiation and fracture angle in ductile sheet metal under uniaxial tension by experiments and finite element simulations.
Journal of Materials Research,
Vol. 31,
Issue. 24,
p.
3991.
Ren, HuiLan
Wang, Jing
Hao, Li
and
Shen, HaiTing
2017.
Failure behavior of cellular titanium under dynamic loading.
Science China Technological Sciences,
Vol. 60,
Issue. 4,
p.
613.
Kim, Tae Bum
Jung, Taek Kyun
Kim, Yong Hwan
Kim, Taek Soo
and
Hyun, Soong Keun
2018.
RETRACTED ARTICLE: Fabrication of Lotus-Type Porous Al-Si Alloys Using Thermal Decomposition Method Combined with Mold Casting and Continuous Casting Techniques.
Metallurgical and Materials Transactions B,
Vol. 49,
Issue. 6,
p.
3682.
Zhao, Mingyue
Schlueter, Karsten
Wurmshuber, Michael
Reitgruber, Maria
and
Kiener, Daniel
2021.
Open-cell tungsten nanofoams: Scaling behavior and structural disorder dependence of Young’s modulus and flow strength.
Materials & Design,
Vol. 197,
Issue. ,
p.
109187.
Jana, Prasanta
Ray, Sumit
Goldar, Diya
Kota, Navya
Kar, Sujoy Kumar
and
Roy, Siddhartha
2022.
Study of the elastic properties of porous copper fabricated via the lost carbonate sintering process.
Materials Science and Engineering: A,
Vol. 836,
Issue. ,
p.
142713.
Ray, Sumit
Jana, Prasanta
Kar, Sujoy Kumar
and
Roy, Siddhartha
2023.
Influence of monomodal K2CO3 and bimodal K2CO3 + NaCl as space holders on microstructure and mechanical properties of porous copper.
Materials Science and Engineering: A,
Vol. 862,
Issue. ,
p.
144516.
Ray, Sumit
Kar, Sujoy Kumar
and
Roy, Siddhartha
2024.
An ultrasonic study of the effect of uniaxial green compaction pressure on the elastic anisotropy of porous copper fabricated using the pore-former route.
Materials Chemistry and Physics,
Vol. 316,
Issue. ,
p.
129094.
Goetze, Joshua W.
Benitez, Cesar
Bates, Frank S.
and
Ellison, Christopher J.
2024.
Porous Melt Blown Poly(butylene terephthalate) Fibers with High Ductility and High-Temperature Structural Stability.
ACS Macro Letters,
Vol. 13,
Issue. 5,
p.
558.