Zhi Lan Ren scite author profile

Zhi Lan Ren

3Publications

1Citation Statement Received

2Citation Statements Given

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Affiliations

Hunan Institute of Technology

Publications

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Silver bonding wire for BSOB(Bond-Stitch-on-Ball)/BBOS(Bonding-Ball-on-Stitch)

Ren¹

2016

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With gradually adopted silver alloy wire bonding in IC and LED Packaging, BSOB becomes a common practice for die stacking in IC packaging and Multi-die Serial Bonding in LED,BBOS is adopted only in LED field.This paper identify a kind of texture of silver alloy bonding wire via Electron Backscatter Diffraction (EBSD) analysis for more consistent BSOB/BBOS bonding with lower MTBA (Mean Time Between Assistant). the key factor is believed to be the anisotropy of the silver bonding wire. Fine tune in Silver alloy doping, adjustment of wire drawing and annealing parameters should be made to achieve this silver alloy bonding wire of high anisotropy nature.

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Effect of High-Energy Shot-Peening on H13 Tool Steel Ion-Nitriding

Ren

Wang

2011

AMR

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High-energy shot-peening on H13 steel after quenched. The samples with or without high-energy shot-peening were ion-nitrided at 520°C for 3h．The Microstructure，nitriding depth, hardness gradient, surface phase and Corrosion resistance of the nitride layers were compared between the high-energy shot-peening samples and the original samples using optical microscope, micro-hardness tester, X-ray diffraction and CH1660A electrochemical test. Results show that the high-energy shot-peening greatly speeds up the nitriding on the H13 steel at 520°C for 3h.. The depth of ion-nitriding layer after shot peening is from 0.11mm to 0.16mm, micro-hardness of the surface layer is from 998HV0.5 to 1105HV0.5, The hardness gradient is slightly flat . Phase structure and content of the surface is different by Powerful shot-peening and not. Corrosion resistance of the samples by high-energy shot-peening is significantly improved because it is easier to form a stable passive film.

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Effects of Tempering Temperature on the Microstructure and Mechanical Properties of Low Alloy Ultra-High Strength 45CrNiSiMnMoVA Steel

Tang

Ren

et al. 2021

MSF

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The effects of different tempering temperatures on the microstructure evolution and mechanical properties of the new low-alloy ultra-high-strength 45CrNiSiMnMoVA steel after quenching were investigated by mechanical property tests, SEM and TEM. The results show that a complex phase organization consisting of martensite/ lower bainite of the tested steel after treated at 920°C×1h+(320~380)°C×4h was obtained, and the partition interface of the lath martensite bundle became blurred from clear with the increase of tempering temperature; In the proposed tempering temperature range, the toughness of the alloy has become better while maintain the strength without decreasing basically, and when the tempering temperature is 350°C, the alloy has the optimal comprehensive mechanical properties of strength, plasticity and toughness together. The analysis concluded that the strong toughening of the tested steel was mainly attributed to the coupling effect of the alloying elements in the steel and the composite toughening of the nano-precipitated phases, among other aspects.

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Zhi Lan Ren

Silver bonding wire for BSOB(Bond-Stitch-on-Ball)/BBOS(Bonding-Ball-on-Stitch)

Effect of High-Energy Shot-Peening on H13 Tool Steel Ion-Nitriding

Effects of Tempering Temperature on the Microstructure and Mechanical Properties of Low Alloy Ultra-High Strength 45CrNiSiMnMoVA Steel

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