Wen Wen Zhang scite author profile

Wen Wen Zhang

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Simulation on Ice Slurry Cooling High Integrated Electronic Chip as a Functional Material

Zhang¹,

Zhao

Cui³

et al. 2012

AMR

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Traditional cooling methods for electronic chips cannot fully meet the increasing cooling requirement of chips with high heat flux at present, so finding high-efficiency and low-cost cooling functional materials, and cooling methods with high efficiency has been a hot spot to explore. In this article, using Fluent 6, we construct a grooved channel physical model and analyze cooling effects of ethylene glycol/water ice slurry as a functional material on the chips under conditions that baffle lengths are 60mm, 80mm and 90mm, the mass flow rates are 0.4kg/s, 0.3kg/s and 0.2kg/s, and the ice fractions are 15%, 20%, 25% respectively. The results show that the chip cooling rate is increasing effectively and the temperature uniformity is better as well as the utilization rate of the latent heat is increasing as the length of baffles, the mass flow rate and the ice fraction are increasing, but the pressure loss resulted from the local effects of the inlet and corners cannot be ignored. Considering the cooling effect and the uniformity of temperature field, the length of baffles should be 83%-93% of length of flow path. In practical projects, the temperature difference between inlet and outlet should be reduced and the diameter of pipes should be decreased in order to take full advantage of the huge latent heat of the ice slurry while the ice is completely melted. Therefore, ice slurry as a functional material has a great potential to cool high integrated electronic chips.

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Research on the Stiffness Modeling of the High Precision Positioning Platform under the Thermal Model

Li¹,

Liu²,

Zhang³

et al. 2015

AMM

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The heat of the positioning platform is mainly caused by conduction of each functional unit, when it affected by the influence of internal and external heat source at work, the temperature of units would change, and the condition would make the platform component stiffness change, then lead to positioning platform dynamic characteristics change. In this paper, the finite method analysis platform dynamic connection stiffness with the regularity of temperature change, and by using the grey correlation method to optimize the platform stiffness influence of the four largest temperature sampling point, through the neural network modeling method to establish high precision positioning platform stiffness model, provide theory for the research on platform of dynamic characteristics of the model.

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A Two-Stage Double-Acting Hydraulic Pump Based on Crank Rod in Series with Symmetrical Hinge

Zhang¹,

Sun²,

Cheng³

et al. 2014

AMM

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A new composite drive supercharger based on crank rod in series with symmetrical hinge is introduced. This device utilizes the principle of hinge rod’s force amplification and combines with a two-stage double-acting hydraulic system, it achieves a good booster effect as a result. The two opposed piston-cylinders are excellent for the supplying of the system’s sustainable pressure, it is applied to high power output and green manufacturing. This article carries out a detailed analysis on the operating principle of the system, and the output flow and pressure’s formulas of the low-pressure high flow and high-pressure low flow were given.

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Wen Wen Zhang

Simulation on Ice Slurry Cooling High Integrated Electronic Chip as a Functional Material

Research on the Stiffness Modeling of the High Precision Positioning Platform under the Thermal Model

A Two-Stage Double-Acting Hydraulic Pump Based on Crank Rod in Series with Symmetrical Hinge

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