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Browsing publications by Dr Xinwei Li.

Newcastle AuthorsTitleYearFull text
Dr Xinwei Li
3D-Printed Lattice Structures for Sound Absorption: Current Progress, Mechanisms and Models, Structural-Property Relationships, and Future Outlook2024
Dr Xinwei Li
A ribbed strategy disrupts conventional metamaterial deformation mechanisms for superior energy absorption2024
Dr Xinwei Li
Customizable anisotropic microlattices for additive manufacturing: Machine learning accelerated design, mechanical properties and structural-property relationships2024
Dr Xinwei Li
Horsetail-inspired lattice structures for bone scaffold applications2024
Dr Xinwei Li
Imperfection-Enabled Strengthening of Ultra-Lightweight Lattice Materials2024
Dr Xinwei Li
Lattice Architectures for Thermoelectric Energy Harvesting2024
Dr Xinwei Li
Machine learning–enabled inverse design of shell-based lattice metamaterials with optimal sound and energy absorption2024
Dr Xinwei Li
Recipe for Simultaneously Achieving Customizable Sound Absorption and Mechanical Properties in Lattice Structures2024
Dr Xinwei Li
Superior damage tolerance observed in interpenetrating phase composites composed of aperiodic lattice structures2024
Dr Xinwei Li
Superior Strength, Toughness, and Damage-Tolerance Observed in Microlattices of Aperiodic Unit Cells2024
Dr Xinwei Li
Unprecedented Strength Enhancement Observed in Interpenetrating Phase Composites of Aperiodic Lattice Metamaterials2024
Dr Xinwei Li
A novel class of bioinspired composite via ultrasound-assisted directed self-assembly digital light 3D printing2023
Dr Xinwei Li
Additive Manufacturing of Lattice Structures2023
Dr Xinwei Li
Customizable plateau in face-centered cubic hierarchical lattices achieved by self-similar embedded design2023
Dr Xinwei Li
Enhanced energy-absorbing and sound-absorbing capability of functionally graded and helicoidal lattice structures with triply periodic minimal surfaces2023
Dr Xinwei Li
Harnessing cavity dissipation for enhanced sound absorption in Helmholtz resonance metamaterials2023
Professor Zhenhong Li
Dr Xinwei Li
Interpenetrating Hollow Microlattice Metamaterial Enables Efficient Sound-Absorptive and Deformation-Recoverable Capabilities2023
Dr Xinwei Li
Less Is More: Hollow-Truss Microlattice Metamaterials with Dual Sound Dissipation Mechanisms and Enhanced Broadband Sound Absorption2023
Dr Xinwei Li
Multifunctional and customizable lattice structures for simultaneous sound insulation and structural applications2023
Dr Xinwei Li
Multifunctional sound-absorbing and mechanical metamaterials via a decoupled mechanism design approach2023
Dr Xinwei Li
Multi-Level Bioinspired Microlattice with Broadband Sound-Absorption Capabilities and Deformation-Tolerant Compressive Response2023
Professor Zhenhong Li
Dr Xinwei Li
New Class of Multifunctional Bioinspired Microlattice with Excellent Sound Absorption, Damage Tolerance, and High Specific Strength2023
Dr Xinwei Li
Additively Manufactured Deformation-Recoverable and Broadband Sound-Absorbing Microlattice Inspired by the Concept of Traditional Perforated Panels2021
Dr Xinwei Li
Microlattice metamaterials with simultaneous superior acoustic and mechanical energy absorption2021