Shuxiang Mei scite author profile

Low-percolation threshold and large deformation capacity are two critical attributes of the strain sensor, which determine its sensitivity and stability respectively. However, endowing these two attributes to the strain sensor simultaneously is still a great challenge in this field. In this work, the strain sensor with the three-dimensional porous segregated structure constructed by graphene wrapped thermoplastic polyurethane (TPU) particles was fabricated successfully through the selective laser sintering technology. Results demonstrated that the percolation threshold of the composite is only 0.2 wt% and the strain gage factor can reach as high as 668.3, which represents the excellent sensitivity of the strain sensor. Furthermore, after 10 circles of stretching at the 15% strain, resistance-strain behavior of the strain sensor shows great repeatable, which represents the remarkable stability. Therefore, the highly sensible and stable strain sensor was fabricated successfully, which will provide the guidance for the manufacture of the high-performance strain sensor.

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Selective laser sintering 3D-Printed conductive thermoplastic polyether-block-amide elastomer/carbon nanotube composites for strain sensing system and electro-induced shape memory

Ding

Zhang

Wang

et al. 2022

Composites Communications

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4D printing of polyamide 1212 based shape memory thermoplastic polyamide elastomers by selective laser sintering

Mei

Wang

et al. 2023

Journal of Manufacturing Processes

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Multiple/Two‐Way Shape Memory Poly(urethane‐urea‐amide) Elastomers

Li¹,

Mei²,

Lu³

et al. 2023

Macromol. Rapid Commun.

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4D Printed Thermoplastic Polyamide Elastomers with Reversible Two‐Way Shape Memory Effect

Liu

Mei

et al. 2023

Adv Materials Technologies

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4D printing has become a research hotspot in recent years. Only a few elastomer materials can be printed by selective laser sintering (SLS) and achieve a reversible two-way shape memory effect (2W-SME) at the same time, which greatly limits the applications of 4D printing. Therefore, it's still a challenge to develop a new elastomer possessing reversible 2W-SME. In this work, a series of thermoplastic polyamide elastomers (TPAEs) are synthesized successfully through the polycondensation reaction of PA1212 prepolymer and polyetheramine, which exhibited excellent thermal stability, flexibility, and resilience. The crystalline PA1212 hard domains acted as a skeleton to maintain the permanent shapes, and the polyether soft segments acted as actuation phase to realize crystallization-induced elongation (CIE) and melting-induced contraction (MIC) under internal stress. The reversible 2W-SME of T0.6-2 films is first realized, and the reversible response strain can reach 15.2% and a good shape recovery ratio is also achieved. After freeze-crushing and sieving, SLS-printable TPAE powder is obtained, and the SLS-processed samples also exhibited excellent reversible 2W-SME to realize 4D printing. This new TPAE material not only broadens 4D printable materials, but also has a potential in the fields of soft robots, temperature sensors, and even aerospace equipment.

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Shuxiang Mei

3D‐Printed thermoplastic polyurethane/graphene composite with porous segregated structure: Toward ultralow percolation threshold and great strain sensitivity

Selective laser sintering 3D-Printed conductive thermoplastic polyether-block-amide elastomer/carbon nanotube composites for strain sensing system and electro-induced shape memory

4D printing of polyamide 1212 based shape memory thermoplastic polyamide elastomers by selective laser sintering

Multiple/Two‐Way Shape Memory Poly(urethane‐urea‐amide) Elastomers

4D Printed Thermoplastic Polyamide Elastomers with Reversible Two‐Way Shape Memory Effect

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