Your search keyword '"Zhi-Peng Chen"' showing total 3 results

1. High-strength Ti-Al-V-Zr cast alloys designed using α and β cluster formulas.

Author

Zhi-hao Zhu, Yu-han Liu, Zhi-peng Chen, Tian-yu Liu, Shuang Zhang, Dan-dan Dong, and Chuang Dong

Subjects

TITANIUM alloys, ALLOYS, TENSILE strength, CHROMIUM-cobalt-nickel-molybdenum alloys

Abstract

Ti-Al-V-Zr quaternary titanium alloys were designed following α-{[Al-Ti12](AlTi2)}17-n+β-{[Al-Ti12Zr2](V3)}n, where n=1-7 (the number of β units), on the basis of the dual-cluster formula of popular Ti-6Al-4V alloy. Such an alloying strategy aims at strengthening the alloy via Zr and V co-alloying in the β-Ti unit, based on the original β formula [Al-Ti14](V2Ti) of Ti-6Al-4V alloy. The microstructures of the as-cast alloys by copper-mold suction-casting change from pure α (n=1) to α+α' martensite (n=7). When n is 6, Ti-5.6Al-6.8V-8.1Zr alloy reaches the highest ultimate tensile strength of 1,293 MPa and yield strength of 1,097 MPa, at the expense of a low elongation of 2%, mainly due to the presence of a large amount of acicular α' martensite. Its specific strength far exceeds that of Ti-6Al-4V alloy by 35%. [ABSTRACT FROM AUTHOR]

Published

2023

2. The study of integrated LED-backlight plate fabricated by micromachining technique.

Author

Chao-Heng Chien and Zhi-Peng Chen

Subjects

*LED backlighting, *THIN film transistors, *OPTICAL fibers, *MICROMACHINING, *MICROSTRUCTURE, *CELL phones

Abstract

Abstract  Generally, a backlight unit (BLU) is considered for the light module of a thin film transistor (TFT) LCD. A typical BLU is comprised of a light guide plate (LGP) and some optical sheets, such as two diffusion sheets, two prism sheets and a reflection sheet. To make the traditional BLU thinner and brighter, we develop an integrated LED-backlight plate (BLP) on microstructures-based, which combine several functions of optical sheets to save the space and fabrication process. The microstructures and the reflective thin film are constructed on the BLP by using micromachining and hot-embossing techniques in the research. From the results of luminous measurements, the luminous uniformity of 86.1% of our fabricated BLP has achieved a demand of a general panel. In future, the micromachining BLP could make the LED-backlight thinner, brighter and lighter for mobile phone applications. [ABSTRACT FROM AUTHOR]

Published

2009

3. Design and fabrication of the concentric circle light guiding plate for LED-backlight module by MEMS technique.

Author

Chao-Heng Chien and Zhi-Peng Chen

Subjects

*LED backlighting, *MICROELECTROMECHANICAL systems, *EMBOSSING (Metalwork), *SOLID freeform fabrication

Abstract

Abstract  Generally, injection molding technique is applied to fabricate the traditional light guiding plate (LGP). MEMS and hot-embossing techniques applied to fabricate the concentric circle light guiding plate (CCLGP) in this research. The concentric circle v-groove structure and the micro-pyramid structure are constructed on the CCLGP. Therefore, the new backlight module could be simplified to use on only one integrated LGP with any optical components. The CCLGP can eliminate four optical components including the two diffusive sheets and two prism sheets in backlight module, so the space and the fabricated cost of the backlight unit are saved. From the test results, the CCLGP is demonstrated successfully of guide light function and the 82% of illuminative uniformity of the CCLGP is better than the other LGP. [ABSTRACT FROM AUTHOR]

Published

2007