Recent Advances in Precision Diamond Wire Sawing Monocrystalline Silicon

Li, Ansheng; Hu, Shunchang; Zhou, Yu; Wang, Hongyan; Zhang, Zhen; Ming, Wuyi

doi:10.3390/mi14081512

Micromachines

2023

DOI: 10.3390/mi14081512

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Recent Advances in Precision Diamond Wire Sawing Monocrystalline Silicon

Ansheng Li

Shunchang Hu

Yu Zhou³

et al.

Abstract: Due to the brittleness of silicon, the use of a diamond wire to cut silicon wafers is a critical stage in solar cell manufacturing. In order to improve the production yield of the cutting process, it is necessary to have a thorough understanding of the phenomena relating to the cutting parameters. This research reviews and summarizes the technology for the precision machining of monocrystalline silicon using diamond wire sawing (DWS). Firstly, mathematical models, molecular dynamics (MD), the finite element me… Show more

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Cited by 11 publications

References 193 publications

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Crystal Damage and Surface Morphology in Industrial Diamond Wire Slicing of 300 mm Monocrystalline Silicon Wafers for Microelectronic Devices

Oberhans,

Heiss,

Pietsch

2024

Adv Materials Technologies

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In the semiconductor industry, thin wafers are cut from a monocrystalline silicon. The most important process step is cutting the monocrystal into a multitude of thin substrate slices, which determines the properties of the resulting wafers. Some time ago, the transition from traditional slurry‐wire‐slicing (S‐MWS) to diamond‐wire‐slicing (D‐MWS), which is more cost‐effective and resource‐efficient, took place. Unlike in the photovoltaic industry and also in the production of smaller wafer diameters of up to 200 mm, it is not possible to create a seamless transition with today's standard wafer diameters of 300 mm due to the waviness that occurs on the wafer surface immediately after the cutting process. This situation considerably limits the achievable component generation (design rule), as the strict requirements of the chip manufacturers cannot be fulfilled. Therefore, a comprehensive understanding of the process is required. A detailed comparison of the surface structure, surface topography, and fracture strength is carried out based on the three relevant crystal orientations Silicon(100), Silicon(110), and Silicon(111). In addition, some wire segments are examined. All microscopic examinations carry out on both the primary and secondary chipping faces do not provide any correlation between the microscopic surface condition and the macroscopic waviness.

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Crystal Damage and Surface Morphology in Industrial Diamond Wire Slicing of 300 mm Monocrystalline Silicon Wafers for Microelectronic Devices

Oberhans,

Heiss,

Pietsch

2024

Adv Materials Technologies

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show abstract

The state of the art of wire sawing-based hybrid cutting technology: a review

Zhang,

Li,

Gao

2024

Int J Adv Manuf Technol

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Study on the effect of diamond wire saw-cutting process parameters on brittle cracks in monocrystalline silicon

Sun,

Wei,

Zhang

et al. 2024

Appl. Phys. A

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Recent Advances in Precision Diamond Wire Sawing Monocrystalline Silicon

Cited by 11 publications

References 193 publications

Crystal Damage and Surface Morphology in Industrial Diamond Wire Slicing of 300 mm Monocrystalline Silicon Wafers for Microelectronic Devices

Crystal Damage and Surface Morphology in Industrial Diamond Wire Slicing of 300 mm Monocrystalline Silicon Wafers for Microelectronic Devices

The state of the art of wire sawing-based hybrid cutting technology: a review

Study on the effect of diamond wire saw-cutting process parameters on brittle cracks in monocrystalline silicon

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