Prediction of the effect of vacuum sintering conditions on porosity and hardness of porous NiTi shape memory alloy using ANFIS

Khalifehzadeh R; Forouzan S; Arami H; Sadrnezhaad SK

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Prediction of the effect of vacuum sintering conditions on porosity and hardness of porous NiTi shape memory alloy using ANFIS

机译：利用ANFIS预测真空烧结条件对多孔NiTi形状记忆合金的孔隙率和硬度的影响

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A neuro-fuzzy model was utilized to predict the hardness and porosity of NiTi shape memory alloy produced by vacuum sintering of powder mixture. Compaction pressure, sintering time and sintering temperature were chosen as input nodes. This procedure allowed successful prediction of porosity and hardness of the NiTi SMA samples. Absolute relative errors were at most 6.3% for hardness and 4.8% for porosity. Mean relative values were 3.4% for hardness and 3.3% for porosity. Results showed that the increasing of the values of input parameters affected outputs, linearly. The most significant parameters influencing the porosity content and the hardness of the under-vacuum combustion-synthesized NiTi specimens were sintering temperature and compaction pressure. (C) 2007 Published by Elsevier B.V.

机译：利用神经模糊模型预测粉末混合物的真空烧结生产的NiTi形状记忆合金的硬度和孔隙率。选择压实压力，烧结时间和烧结温度作为输入节点。该程序可以成功预测NiTi SMA样品的孔隙率和硬度。硬度的绝对相对误差最大为6.3％，孔隙度的绝对相对误差最大为4.8％。硬度的平均相对值为3.4％，孔隙率的平均相对值为3.3％。结果表明，输入参数值的增加线性影响输出。影响真空燃烧合成的NiTi试样的孔隙率和硬度的最重要参数是烧结温度和压制压力。（C）2007由Elsevier B.V.发布

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《Computational Materials Science》 |2007年第3期|共7页
作者
Khalifehzadeh R; Forouzan S; Arami H; Sadrnezhaad SK;
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正文语种 eng
中图分类工程材料学;
关键词
fuzzy clustering; ANFIS method; powder metallurgy; combustion synthesis; sintering; NiTi; SMA; POWDER METALLURGICAL FABRICATION; NEURAL-NETWORK; ELEMENTAL POWDERS; NICKEL-TITANIUM; HEAT-TREATMENT; BEHAVIOR; DEFORMATION; TINI; TRANSFORMATIONS; MICROSTRUCTURE;

机译：模糊聚类;ANFIS方法;粉末冶金;燃烧合成;烧结;NiTi;SMA;粉末冶金;神经网络;元素粉末;镍钛合金;热处理;性能;形变;TINI;转变;显微结构;

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1. Prediction of the effect of vacuum sintering conditions on porosity and hardness of porous NiTi shape memory alloy using ANFIS [J] . Khalifehzadeh R, Forouzan S, Arami H, Computational Materials Science . 2007,第3期

机译：利用ANFIS预测真空烧结条件对多孔NiTi形状记忆合金的孔隙率和硬度的影响
2. Control of porosity and superelasticity of porous NiTi shape memory alloys prepared by hot isostatic pressing [J] . Yuan B, Chung CY, Zhang XP, Smart Materials & Structures . 2005,第5期

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3. Influences of solution treatment on compressive properties of porous NiTi shape memory alloy with the porosity of 53.4 vol% fabricated by combustion synthesis [J] . C. L. Chu, C. Y. Chung, P. H. Lin Journal of Materials Science . 2004,第15期

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4. Porous CuAlMn shape-memory alloys with controlling porosity and Pores' structural parameter produced by Sintering-evaporation Process [C] . Shen Gong, Zi An Xiao, Zhou Li International Conference on Multi-Functional Materials and Structures . 2010

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Prediction of the effect of vacuum sintering conditions on porosity and hardness of porous NiTi shape memory alloy using ANFIS

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