L.M. Wang scite author profile

The impact of compositional complexity on the ion-irradiation induced swelling and hardening is studied in Ni and six Ni-containing equiatomic alloys with face-centered cubic structure. The irradiation resistance at the temperature of 500 °C is improved by controlling the number and, especially, the type of alloying elements. Alloying with Fe and Mn has a stronger influence on swelling reduction than does alloying with Co and Cr. The quinary alloy NiCoFeCrMn, with known excellent mechanical properties, has shown 40 times higher swelling tolerance than nickel.

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Green luminescence originates from surface defects in ZnO nanoparticles

Wang

Zhu

et al. 2006

Physica E: Low-dimensional Systems and Nanostructures

158

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Structure and properties of ion-beam-modified (6H) silicon carbide

Weber

Wang

et al. 1998

Materials Science and Engineering: A

185

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Structural distortions and phase transformations in Sm2Zr2O7 pyrochlore at high pressures

Zhang

Lian

Becker

et al. 2007

Chemical Physics Letters

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Ion-beam irradiation of Gd₂Sn₂O₇ and Gd₂Hf₂O₇ pyrochlore: Bond-type effect

et al. 2004

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Ceramics with III-IV pyrochlore compositions, A3+2B4+2O7 (A = Y and rare earth elements; B = Ti, Zr, Sn, or Hf), show a wide range of responses to ion-beam irradiation. To evaluate the role of the B-site cations on the radiation stability ofthe pyrochlore structure-type, Gd2Sn2O7 and Gd2Hf2O7 have been irradiated by1 MeV Kr+. The results are discussed in terms of the ionic size and type ofbonding of Sn4+ and Hf4+ and compared to previous results for titanate andzirconate pyrochlores. Gd2Sn2O7 is sensitive to ion beam–induced amorphizationwith a critical amorphization dose of approximately 3.4 displacements per atom(dpa) (2.62 × 1015 ions/cm2) at room temperature and a critical amorphization temperature of approximately 350 K. Gd2Hf2O7 does not become amorphous at adose of approximately 4.54 displacement per [lattice] atom (3.13 × 1015 ions/cm2) at room temperature, but instead is transformed to a disordered fluorite structure upon ion-beam irradiation. Although the radius ratio of the A- to B-site cations provides a general indication of the type of radiation response of different pyrochlore compositions, the results for Gd2Sn2O7 emphasize the importance of bond type, particularly the covalency of the 〈Sn–O〉 bond in determining the radiation response.

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L.M. Wang

Effects of compositional complexity on the ion-irradiation induced swelling and hardening in Ni-containing equiatomic alloys

Green luminescence originates from surface defects in ZnO nanoparticles

Structure and properties of ion-beam-modified (6H) silicon carbide

Structural distortions and phase transformations in Sm2Zr2O7 pyrochlore at high pressures

Ion-beam irradiation of Gd₂Sn₂O₇ and Gd₂Hf₂O₇ pyrochlore: Bond-type effect

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L.M. Wang

Effects of compositional complexity on the ion-irradiation induced swelling and hardening in Ni-containing equiatomic alloys

Green luminescence originates from surface defects in ZnO nanoparticles

Structure and properties of ion-beam-modified (6H) silicon carbide

Structural distortions and phase transformations in Sm2Zr2O7 pyrochlore at high pressures

Ion-beam irradiation of Gd2Sn2O7 and Gd2Hf2O7 pyrochlore: Bond-type effect

Contact Info

Product

Resources

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Ion-beam irradiation of Gd₂Sn₂O₇ and Gd₂Hf₂O₇ pyrochlore: Bond-type effect