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磷含量对具有金刚石结构微晶格的聚合物镍复合材料力学性能的影响。

Effect of phosphorus content on mechanical properties of polymeric nickel composite materials with a diamond-structure microlattice.

作者信息

Zhao Yungang, Wei Fang, Zhao Xinqing, Yang Qinglin, Guo Lin, Jiang Lei

机构信息

School of Chemistry, Beihang University China

School of Material Science and Engineering, Beihang University China

出版信息

RSC Adv. 2018 Sep 24;8(58):33025-33029. doi: 10.1039/c8ra04695f.

Abstract

Periodical and ordered polymer-nickel-coated composite materials with a diamond-structure microlattice and various contents of phosphorus (4.10 wt%, 8.01 wt%, 12.25 wt%, 16.08 wt%, 20.21 wt%) were fabricated electroless nickel-phosphorus (Ni-P) coating onto diamond-structured polymeric templates using a 3D printing stereo lithography apparatus. With the increase in P content, the crystal morphology transfers from crystal to non-crystal. By controlling identical 1.0 μm-thickness of 5 different content coatings onto templates, the properties of 5 different microlattice composites were tested by uniaxial compression. To confirm the thickness and P content, several mathematical models were developed to direct the subsequent experiments and all theoretical predictions are in agreement with factual characterization. The composite with 8.01 wt% phosphorus content and density of 240.4 kg m performs best, with the maximum compressive strength reaches 1.08 MPa, which is 2.1 times higher than that of polymer templates.

摘要

使用三维打印立体光刻设备,在具有金刚石结构微晶格且磷含量各异(4.10 wt%、8.01 wt%、12.25 wt%、16.08 wt%、20.21 wt%)的周期性有序聚合物 - 镀镍复合材料上制备化学镀镍 - 磷(Ni - P)涂层。随着磷含量的增加,晶体形态从晶体转变为非晶体。通过在模板上控制5种不同含量涂层相同的1.0μm厚度,对5种不同微晶格复合材料的性能进行单轴压缩测试。为了确定厚度和磷含量,开发了几个数学模型来指导后续实验,所有理论预测均与实际表征相符。磷含量为8.01 wt%、密度为240.4 kg/m³的复合材料性能最佳,其最大抗压强度达到1.08 MPa,比聚合物模板高出2.1倍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ac1f/9086378/bd46833a0ae2/c8ra04695f-f1.jpg

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