Zhan Shu scite author profile

Motivated by the recent blockchain technology originally built for bitcoin transactions, various industries are exploring the opportunities to redefine their existing operational systems. In this study, an innovative environmentally sustainable solution is proposed for the fashion apparel manufacturing industry (FAMI), which is energized by blockchain. Incorporating the Emission Trading Scheme (ETS), and a novel "emission link" system, the proposed framework exposes carbon emission to the public and establishes a feature to reduce the emissions for all key steps of clothing making. Fully compatible with Industry 4.0, blockchain provides decentralization, transparency, automation, and immutability characteristics to the proposed framework. Specifically, the blockchain supported ETS framework, the carbon emissions of clothing manufacturing life cycle, and the emission link powered procedures are introduced in detail. A case study is provided to demonstrate the carbon emission evaluation procedure. Finally, a multi-criteria evaluation is performed to demonstrate the benefits and drawbacks of the proposed system.

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Superelastic SMA Belleville washers for seismic resisting applications: experimental study and modelling strategy

Fang

Zhou

Osofero

et al. 2016

Smart Mater. Struct.

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This study sheds considerable light on the potential of superelastic Shape Memory Alloy (SMA) Belleville washers for innovative seismic resisting applications. A series of experimental studies were conducted on washers with different stack combinations under varying temperatures and loading scenarios. The washers showed satisfactory self-centring and energy dissipation capacities at room temperature, although slight degradations of the hysteretic responses accompanied by residual deformations were induced. The hysteretic loops became stable after a few number of cycles, indicating good repeatability. The washers also showed good flexibility in terms of load resistance and deformation, which could be easily varied via changes in the stack combination. Compromised selfcentring responses were observed at temperatures below 0 °C or above 40 °C, and a numerical study, validated by the experimental results, was adopted to further investigate the deformation mechanism of the washers. A further phenomenological model, taking account of the degradation effects under varied temperatures, was developed to enable effective and accurate simulation of devices incorporating the washers. Good agreements were observed between the test and simulation results, and the model was shown to have good numerical robustness for wide engineering applications.

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Metal leaching from the bridge paint waste in the presence of steel grit

et al. 2015

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Rotational performance of glulam bolted joints: Experimental investigation and analytical approach

Shu

et al. 2019

Construction and Building Materials

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ExploitMeter: Combining Fuzzing with Machine Learning for Automated Evaluation of Software Exploitability

Yan¹,

Lu²,

Shu³

et al. 2017

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Zhan Shu

Blockchain Enhanced Emission Trading Framework in Fashion Apparel Manufacturing Industry

Superelastic SMA Belleville washers for seismic resisting applications: experimental study and modelling strategy

Metal leaching from the bridge paint waste in the presence of steel grit

Rotational performance of glulam bolted joints: Experimental investigation and analytical approach

ExploitMeter: Combining Fuzzing with Machine Learning for Automated Evaluation of Software Exploitability

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