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No.193 David C Dunand 教授 学术报告

报告题目:Metal Micro-lattices by Sintering of 3D-Printed Metal Particle Inks

报告人:David C Dunand教授,Northwestern University.

时间:2017年9月13日上午10:00

地点:材料B楼轻合金中心214会议室

联系人:叶兵

报告摘要:

To create metallic scaffolds or lattices with defined sub-millimeter strut architectures, most existing additive manufacturing (AM) methods use laser or electron beams to locally sinter or melt metallic powders, usually under vacuum.  We demonstrate here an alternate method, Extrusion 3D-Printing, consisting of two simple steps. First, metal (or metal oxide)particle suspension (inks)are extruded into linear struts creating self-supporting 3D cellular structures, in air at ambient temperature. Second, these cellular oxide 3D structures sintered, and if in oxide form are reduced to metal via hydrogen reduction.

We describe here micro-lattices made of three metals - iron, nickel and tungsten - created from inks consisting of the respective metal oxides. In all cases, thermochemical reduction and sintering of the 3D-printed oxide scaffolds results in large shrinkages (up to 80% by volume) but without cracking or distortion. For tungsten micro-lattices created from WO3 particle inks, partial sintering creates micro-pores within the struts (advantageous if high surface area is needed), while full sintering of the struts(desirable for mechanical performance) can be achieved through the addition of 0.5 wt% NiO to the slurry, which, once reduced to Ni, accelerates the sintering of the reduced submicron W particles. 

We also demonstrate alloyed micro-lattices made from metallic powder inks with shape-memory properties: (i) a blend of elemental Ni, Mn and Ga, resulting in lattices with microporous Ni-Mn-Ga alloy struts showing twinning and (ii) and a blend of elemental Nb and prealloyed NiTi powders, leading to microporous struts consisting of liquid-phase-sintered NiTi-Nb.

报告人简介:David C Dunand教授,美国MIT博士,美国西北大学James N. & Margie M. Krebs讲席教授。国际著名的金属材料科学家,研究领域包括轻金属、高温合金、粉末冶金、泡沫材料和生物材料等领域,发表论文超过350篇(总引用超过1万次,h-因子50),包括70多篇Acta Mater、1篇Nature Materials和2篇高被引论文。被选为美国金属学会(ASM International)和美国矿物、金属和材料协会(TMS)会士(Fellow),2008年获得TMS杰出工程师奖。

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