Effect of deuteron density distribution on the deduction of screening potential from the D(d,p)T reaction in Be metals

Huiyi, Lu; Wang, Tieshan; Han, Yun-Cheng; Fang, Kan; Meng, Xuan; He, Q.; Guan, Xin; Lan, Ming-Cong

doi:10.1088/1674-1137/35/1/006

Cited by 2 publications

(1 citation statement)

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“…The project entitled "the fundamental research of ultra light and functional porous metals and structures" (2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015) supported by "973" -National Key Fundamental Research Plan of China, led by Professor T. Lu as a principal scientist was well carried on and some great achievements related to basic theory and their engineering applications of porous metals were obtained. Based on the frontier interdisciplinary among materials science, mechanics, computational mathematics, thermology, electromagnetics and acoustics, combining with analysis of macro-and microstructure and with theory and application, they established the relationships among composition, microstructure and characterization of ultra-light porous metals [1,2]. According to pore structure of porous metals, they are classified by open-cell, close-cell and blind-cell structures.…”

Section: Introductionmentioning

confidence: 99%

The Introduction of Thin Open-Cell Metal Foams and their Wider Engineering Applications

Shi¹,

Szpunar

2018

MSF

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Metal foams, having a great of specific surface areas and three-dimensional open cell structures, can be used for electromagnetic shielding and thermal management in electronics, battery electrodes in new energy, catalyst carriers in chemical engineering and lightweight structure in aerospace. The key performance indicators of these open cell metal foams are how to effectively control their pore structures such as pore diameter distribution and porosity and how to make it thinner that can meet different requirements for the component preparation. Summarized about three manufacturing processes are usually used to build metal foams. The first is well-known as physical process. The second is chemical or electrochemical method. The third is a combined process between physical and chemical processes. No matter what kind of process is selected to manufacture open cell metal foam, the specific surface area directly related to the microstructure of the foam is an important parameter in a material selection and design for its application.This paper will introduce a special powder composite plus manufacture process that is developed by Jiangsu Green Materials Hi-Tech. Co. Ltd. The leading manufacture process is a new one that is combined by powder metallurgy, casting, deformation and physical-chemical synthesis. It is environmentally friendly and recyclable from raw material selection, manufacturing process to thermal-mechanical treatment. This paper will also focus on the introduction of the microstructure characterization of open-cell metal foams such as copper, nickel, iron, silver and their alloying foams that we manufactured and give some examples to demonstrate their potential applications in the field of new energy, such as being an electrode for lithium-ion battery, membranes for fuel cell and super-capacitor, in the field of electronic engineering such as thermal management and electromagnetic shielding, in the field of chemical engineering such as separation and catalysts. These examples show their lead roles of these open-cell metal foams and different applications by our developed process.

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Section: Introductionmentioning

confidence: 99%