Full Name
Wei Zhai
Variants
Zhai, W
 
Main Affiliation
 
 
Email
mpezwei@nus.edu.sg
 

Publications

Results 21-40 of 42 (Search time: 0.006 seconds).

Issue DateTitleAuthor(s)
215-Jul-2022Hierarchical Porous Ceramics with Distinctive Microstructures by Emulsion-Based Direct Ink WritingLiu, Quyang; Zhai, Wei 
2215-Jan-2023Highly robust and hydrophobic aerogel beads with dandelion-like structure for water treatmentDong, X; Liu, Q; Zhao, Y; Zhai, W 
2322-Apr-2023Interpenetrating a Hollow Microlattice Metamaterial Enables Efficient Sound-Absorptive and Deformation-Recoverable CapabilitiesLi, Zhendong; Li, Xinwei ; Wang, Xinxin; Wang, Zhonggang; Zhai, Wei 
241-Jan-2023Interpenetrating phase composites with 3D printed triply periodic minimal surface (TPMS) lattice structuresGuo, Xiao; Ding, Junhao; Li, Xinwei ; Qu, Shuo; Fuh, Jerry Ying His ; Lu, Wen Feng ; Song, Xu; Zhai, Wei 
253-Nov-2022Less Is More: Hollow-Truss Microlattice Metamaterials with Dual Sound Dissipation Mechanisms and Enhanced Broadband Sound AbsorptionLi, X ; Yu, X; Zhai, W 
2613-May-2021Microlattice Metamaterials with Simultaneous Superior Acoustic and Mechanical Energy AbsorptionLi, Xinwei ; Yu, Xiang; Chua, Jun Wei ; Lee, Heow Pueh ; Ding, Jun ; Zhai, Wei 
275-Jan-2018Microstructure-based experimental and numerical investigations on the sound absorption property of open-cell metallic foams manufactured by a template replication techniqueZhai, Wei ; Yu, Xiang; Song, Xu; Ang, Linus Yinn Leng; Cui, Fangsen; Lee, Heow Pueh; Li, Tao
281-Dec-2022Multi-directional freeze casting of porous ceramics with bone-inspired microstructureDong, X; Chua, BW; Li, T; Zhai, W 
2910-Jan-2023Multi-Level Bioinspired Microlattice with Broadband Sound-Absorption Capabilities and Deformation-Tolerant Compressive ResponseLi, X ; Yu, X; Zhao, M; Li, Z; Wang, Z; Zhai, W 
3017-Oct-2022Multifunctional sound-absorbing and mechanical metamaterials via a decoupled mechanism design approachLi, Z; Li, X ; Wang, Z; Zhai, W 
3119-Jan-2023New Class of Multifunctional Bioinspired Microlattice with Excellent Sound Absorption, Damage Tolerance, and High Specific StrengthLi, Zhendong; Wang, Xinxin; Li, Xinwei ; Wang, Zhonggang; Zhai, Wei 
3215-Jan-2023Novel slow-sound lattice absorbers based on the sonic black holeChua, JW ; Li, X ; Yu, X; Zhai, W 
331-Dec-2023Numerical and Constitutive Modeling of Quasi-static and Dynamic Mechanical Behavior in Graded Additively Manufactured Lattice StructuresErdong Wang; Jiahui Zhou; Xiao Guo; Man Gu; Huiran Wang; Wei Zhai 
3424-Nov-2022Prestrain Programmable 4D Printing of Nanoceramic Composites with Bioinspired MicrostructureLi, T ; Liu, Q; Qi, H; Zhai, W 
351-Aug-2022Strong and Tough Conductive Organo-Hydrogels via Freeze-Casting Assisted Solution SubstitutionDong, X; Guo, X; Liu, Q; Zhao, Y; Qi, H; Zhai, W 
3613-Jan-2023Strong and tough fibrous hydrogels reinforced by multiscale hierarchical structures with multimechanismsGuo, X; Dong, X; Zou, G; Gao, H; Zhai, W 
379-Sep-2020Study of the Freeze Casting Process by Artificial Neural NetworksLiu, Yue; Zhai, Wei ; Zeng, Kaiyang 
181-Aug-2023Superior broadband sound absorption in hierarchical ultralight graphene oxide aerogels achieved through emulsion freeze-castingYang, L ; Chua, JW ; Li, X ; Zhao, Y; Thai, BQ; Yu, X; Yang, Y; Zhai, W 
191-Mar-2022Toward stronger robocast calcium phosphate scaffolds for bone tissue engineering: A mini-review and meta-analysisLiu, Quyang; Lu, Wen Feng ; Zhai, Wei 
2015-Apr-2023TPMS-based interpenetrating lattice structures: Design, mechanical properties and multiscale optimizationZhao, M; Li, X ; Zhang, DZ; Zhai, W