Machining processes for sapphire wafers: a literature review

Li, Z C; Pei, Zhijian; Funkenbusch, Paul D.

doi:10.1177/2041297510393667

Cited by 65 publications

(31 citation statements)

References 45 publications

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“…Furthermore, it is widely used in other fields, such as laser diodes and laser sources for storage and optical media [4][5][6][7][8][9], due to its combination of high chemical resistance and mechanical characteristics as well as its transparency [10][11][12]. Generally, abrasion processing of sapphire material is composed of slicing, lapping, and surface finishing, which follows the fabrication of the substrate after the growth of the ingot [13], as shown in Fig. 1 [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

“…Generally, abrasion processing of sapphire material is composed of slicing, lapping, and surface finishing, which follows the fabrication of the substrate after the growth of the ingot [13], as shown in Fig. 1 [13][14][15].…”

Section: Introductionmentioning

confidence: 99%

“…Machining process flow for sapphire wafers[13][14][15]. (a) Slicing (b) Edge profiling (c) Flattening (lapping) and (d) Surface finishing Fig.…”

mentioning

confidence: 99%

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Comparison between sapphire lapping processes using 2-body and 3-body modes as a function of diamond abrasive size

Kim

Park

Seo

et al. 2015

Wear

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Comparison between sapphire lapping processes using 2-body and 3-body modes as a function of diamond abrasive size

Kim

Park

Seo

et al. 2015

Wear

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“…However, it's difficult to machine sapphire due to the fact that its Mohs hardness is as high as 9. Although sapphire is able to be cut by diamond wire 3 , the diamond wire is abraded during machining. In contrast, laser micromachining is noncontact, flexible and precise 4 .…”

Section: Introductionmentioning

confidence: 99%

Propagation of focused ultrashort pulse laser during micromachining of sapphire

Wang

Zhao

Qian

et al. 2015

Pacific Rim Laser Damage 2015: Optical Materials for High-Power Lasers

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Scattering effect has great effect on machining morphology in sapphire processed by ultrashort pulse laser. On one hand, scattering leads to saturation of machining length despite the increase of pulse energy. On the other hand, scattering results in undamaged core in the elliptical damaged shell. When the laser intensity is above half the damage threshold, the electric field is scattered to 0 and doesn't contribute to the laser intensity at latter position. The physical model which combines scattering effect, linear and nonlinear optical effects matches well with machining morphology of sapphire at different laser parameters, including pulse energies, focus positions, focal length and pulse duration. At first laser with lower pulse energy, for instance 25 μJ, processes the inner part of sapphire. During micromachining of sapphire, the focus positions move from the bottom to the top. At last the laser with higher pulse energy, 150 μJ for example, fabricates the surface. The objective lens with the focal length of 20 mm is suitable for machining sapphire and the optimal pulse duration is 950 fs.

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“…Sapphire is used in the manufacture of LEDs substrates or optical components for liquid crystal projectors because it has outstanding mechanical characteristics, optical characteristics, and thermal resistance (Ambacher, 1998;Duboz, 1999;Park and Chan, 2002;Li et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Mirror surface grinding of sapphire by coarse grain size diamond wheels

Kasuga

Ohmori

Mizutani

et al. 2014

IJNM

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This paper discusses the grinding of sapphire for mirror surfaces by coarse grain size diamond wheels. Sapphire is a hard-to-machine material because it has excellent mechanical properties and indentation hardness. Since it is effective for hard materials to use metal-bonded diamond wheels, the authors had two experiments to investigate mirror surface grinding by coarse grain size diamond wheels. The 1st experiment was investigating appropriate grinding conditions, and the 2nd experiment was investigating protrusion height of abrasive grains. Although the conventional methods could not acquire mirror surface, the results of the experiments show that mirror surface (Ra: 5 nm <) were obtained by the #270 and #325 mesh size wheels. These results indicate the possibility of decreasing grinding processes by coarse grain size diamond wheels.

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Machining processes for sapphire wafers: a literature review

Cited by 65 publications

References 45 publications

Comparison between sapphire lapping processes using 2-body and 3-body modes as a function of diamond abrasive size

Comparison between sapphire lapping processes using 2-body and 3-body modes as a function of diamond abrasive size

Propagation of focused ultrashort pulse laser during micromachining of sapphire

Mirror surface grinding of sapphire by coarse grain size diamond wheels

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