| Title | Author(s) | Year | View Count |  | Relationship between osseointegration and superelastic biomechanics in porous NiTi scaffolds | Liu, X; Wu, S; Yeung, KWK; Chan, YL; Hu, T; Xu, Z; Liu, X; Chung, JCY; Cheung, KMC; Chu, PK | 2011 | 246 |
| Hydrogen release from titanium hydride in foaming of orthopedic NiTi scaffolds | Wu, S; Liu, X; Yeung, KWK; Hu, T; Xu, Z; Chung, JCY; Chu, PK | 2011 | 178 |
| Fabrication and surface modification of porous nano-structured NiTi orthopedic scaffolds for bone implants | Wu, S; Liu, X; Chu, PK; Hu, T; Yeung, KWK; Chung, JCY | 2010 | 80 |
| Surface mechanical attrition treatment induced phase transformation behavior in NiTi shape memory alloy | Hu, T; Wen, CS; Lu, J; Wu, SL; Xin, YC; Zhang, WJ; Chu, CL; Chung, JCY; Yeung, KWK; Kwok, DTK; Chu, PK | 2009 | 142 |
| Effects of pulsing frequency on shape recovery and investigation of nickel out-diffusion after mechanical bending of nitrogen plasma implanted NiTi shape memory alloys | Poon, RWY; Chu, PK; Yeung, KWK; Chung, JCY; Tjong, SC; Chu, CL; Lu, WW; Cheung, KMC; Luk, KKD | 2007 | 121 |
| Improvement on corrosion resistance of NiTi orthopedic materials by carbon plasma immersion ion implantation | Poon, RWY; Ho, JPY; Luk, CMY; Liu, X; Chung, JCY; Chu, PK; Yeung, KWK; Lu, WW; Cheung, KMC | 2006 | 50 |
 | Shape memory material and method of making the same (Heat treatment protocol) | Cheung, KMC; Yeung, KWK; Chung, JCY; Lu, WW | 2005 | 165 |
| Pseudoelastic porous shape memory materials for biomedical and engineering applications | Yuan, B; Chung, JCY; Yeung, KWK; Cheung, KMC | 2005 | 128 |
| Corrosion resistance of NiTi after nitrogen, oxygen, and hydrogen plasma immersion ion implantation | Poon, RWY; Liu, XY; Chung, JCY; Yeung, KWK; Lu, WW; Cheung, KMC; Chu, PK | 2004 | 51 |
| Is possible to correct scoliosis gradually by use of superelastic rod | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY | 2002 | 82 |
| Device for gradual correction of spinal deformities | Cheung, KMC; Yeung, KWK; Chung, JCY; Lu, WW | 2002 | 272 |
| Potential use of a new super-elastic metallic material in bone deformity correction | Yeung, KWK; Cheung, KMC; Chung, JCY; Lu, WW; Luk, KDK; Leong, JCY | 2002 | 72 |
| Gradual correction of scoliosis by the use of superelastic alloy rod: phase II mechanical test | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY | 2001 | 108 |
| Gradual scoliosis correction by use of a superelastic alloy | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY; Luk, KDK; Leong, JCY | 2001 | 115 |
| Progressive scoliosis correction by using a new superelastic alloy: phase I heat treatment process | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY | 2000 | 99 |
| The use of a new superelastic alloy in the progressive correction of scoliosis | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY; Luk, KDK; Leong, JCY | 2000 | 99 |
| Intraoperative correction force measurement in adolescent idiopathic scoliosis | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY | 2000 | 78 |
| Gradual correction of scoliosis by using a new superelastic alloy: phase transition fine-tuning process and scoliiotic spine recovery force measurement | Yeung, KWK; Cheung, KMC; Lu, WW; Chung, JCY | 1999 | 104 |
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