Your search keyword '"Xie, Zhuobin"' showing total 4 results

1. Optimization of process parameters and performance for machining Inconel 718 in renewable dielectrics.

Author

Ming, Wuyi, Guo, Xudong, Zhang, Guojun, Hu, Shunchang, Liu, Zhen, Xie, Zhuobin, Zhang, Shengfei, and Duan, Liuyang

Subjects

ELECTRIC metal-cutting, MACHINE performance, SUNFLOWER seed oil, INCONEL, OPTIMIZATION algorithms, RAPESEED oil

Abstract

In this study, the optimization of processing parameters of Inconel 718 using electrical discharge machining (EDM) with three kinds of renewable dielectrics (soybean oil, sunflower seed oil, and rapeseed oil) was studied. As input process parameters, pulse current, pulse duration, duty ratio, and dielectric type were all utilized. The machining performance indices of EDM were material removal rate (MRR), surface roughness (Ra), energy pulse ratio per volume (EEV), and exhaust emission characteristics (EEC). The response surface method (RSM) was used to carry out the central composite design of the EDM experiment, and it looked into how process parameters affected machining performance. In addition, the extreme learning machine (ELM)-improved integrated beta-distribution cuckoo search (IBCS) algorithm was used to optimize the EDM process, and the optimization results were verified by experiments. The research results demonstrate that the predicted results are generally better than the experimental results, and the maximum and average deviations of the experimental results are within the acceptable range (maximum deviation <20%, average deviation <15%). The effectiveness of the optimization algorithm was proved, which was helpful in improving the performance of EDM, reducing energy consumption and emissions, and improving the sustainability of EDM. • The mechanism of renewable dielectrics on EDM performances is explored. • The experimental design and analysis of EDM were carried out by using RSM. • ELM-IBCS to optimize the EDM processing (maximum error <20%, average error <15%). [ABSTRACT FROM AUTHOR]

Published

2023

2. Progress in optical adhesive and lamination process of touch screen in 3C products

Author

Ming, Wuyi, Xie, Zhuobin, Jiang, Zhiwen, Chen, Yanyan, Zhang, Guojun, Xu, Yingjie, and He, Wenbin

Abstract

Compared with the traditional keyboard and mouse input method, touch screen technique has high convenience for users. With the development of technology, touch screen is widely application in various electronic products because of their high transmittance, clear images, and convenient operation. This review mainly introduces the optical clear adhesive (OCA), liquid optical clear adhesive (LOCA), and the most commonly used LOCA ultra violet (UV)‐curable adhesives. Preparation and performance of UV‐curable adhesives are deeply explored. The structure of touch screen, such as one glass solution (OGS), on‐cell and in‐cell is discussed. Moreover, lamination process includes full lamination and non‐full lamination is also discussed. This review introduces the alignment technique comprise mechanical alignment technique and non‐mechanical alignment technique (such as machine vision) and laminating equipment. The recent development and existing problems with the touch screen lamination process are discussed. Furthermore, this review describes the latest developments in the adhesive of touch screen lamination process and predicts possible future development trends, which could provide references for subsequent research work. This review mainly introduces optical clear adhesive (OCA), liquid optical clear adhesive (LOCA), and ultraviolet (UV)‐curable adhesives and further explores the preparation and properties of these adhesives. The structure of touch screen, lamination process, alignment technique, recent development, and existing problems with the touch screen lamination process is discussed. Furthermore, the development trends of touch screen lamination process are predicted.

Published

2022

3. Critical review on sustainable techniques in electrical discharge machining

Author

Ming, Wuyi, Xie, Zhuobin, Ma, Jun, Du, Jinguang, Zhang, Guojun, Cao, Chen, and Zhang, Yong

Abstract

Electric discharge machining (EDM) can be used to cut complex parts and hard materials, making it one of the most popular machining processes today. However, the energy efficiency of EDM is low compared with conventional methods such as turning, milling and grinding. In addition, the gas and noise emissions of the EDM process affect the environment and the health of operators. This paper reviews the research trends in the latest sustainable techniques in EDM. First, a detailed review of existing EDM techniques for enhancing energy efficiency conducted. The review considers three aspects: energy distribution, the relationship between process parameters and specific discharge energy, and the effects of external field assistance. Second, the dry-EDM process-a clean manufacturing technique is introduced and its environmental impact is discussed. The machining performance indicators of dry-EDM, such as the material removal rate, tool wear ratio, surface topography, and microstructures, are compared with those of conventional EDM. Next, the indicators of gas and noise emissions in EDM are proposed to evaluate the sustainable manufacturing process. The relationship between the process parameters and emission indicators is reviewed, and multi-optimization considering machining noise is discussed. Finally, the impact of sustainable techniques in EDM on the environment, society, and economy are discussed, as well as the application costs of these techniques. Some directions for future research are also proposed.

Published

2021

4. Green manufacturing: a comparative study of renewable dielectrics in the EDM process

Author

Ming, Wuyi, Cao, Chen, Xie, Zhuobin, Liu, Xuewen, Xu, Yingjie, Jiang, Zhiwen, Li, Xiaoke, Liu, Kun, Guo, Xudong, Yuan, Jie, and Li, Liwei

Abstract

Electrical discharge machining (EDM) is a nontraditional processing technology that can be used to process materials with a high melting point, high strength, high hardness and low brittleness. Kerosene, as a common dielectric, produces aerosol and toxic gas at high temperatures, which seriously affects the health of operators and air quality. In this study, edible vegetable oils such as sunflower oil, rapeseed oil and peanut oil were used as dielectric to improve the sustainability of EDM. The Taguchi method was used to design experiments, and the effects of vegetable oils with different viscosities on machinability during EDM were discussed from the perspective of mechanism. The machinability was evaluated with the material removal rate (MRR), energy efficiency per unit volume (EEV) and surface roughness (Ra). In addition, the debris diameters of different vegetable oils after processing were studied by using a super depth-of-field optical microscope. The results showed that the MRR of rapeseed oil was 28.9% higher than that of sunflower oil and 25% higher than that of peanut oil. In terms of the MRR, Ra and EEV, rapeseed oil also had obvious advantages because of its high viscosity. In addition, because of the high viscosity of rapeseed oil, the distribution proportion of large fragments was obviously larger than that of the other two oils. The proportion of debris larger than 35 μm in rapeseed oil was 8.21% and that of sunflower oil was only 2.79%. Therefore, vegetable oils can be used instead of a kerosene dielectric to improve the sustainability of EDM and to realize green manufacturing.

Published

2022