A Simulation-Based Correlation of the Density and Thermal Conductivity of Objects Produced by Laser Sintering of Polymer Powders

M. Kandis; T. L. Bergman

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A Simulation-Based Correlation of the Density and Thermal Conductivity of Objects Produced by Laser Sintering of Polymer Powders

机译：基于模拟的聚合物粉末激光烧结所产生物体的密度和导热系数的相关性

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Numerical simulation of the laser-induced formation of shapes from polymer powders is achieved using an extension of a previously developed model of nonisothermal powder sintering. The extended model mimics the Selective Laser Sintering process which is used to produce a multiple layer part via laser irradiation. Model predictions of the physical features and effective thermophysical properties (porosity and thermal conductivity) of the object demonstrate sensitivity to several thermal processing parameters. Predicted values of the effective thermal conductivity and average porosity of the processed item are reported and correlated.

机译：使用先前开发的非等温粉末烧结模型的扩展，可以实现由聚合物粉末激光诱导形成形状的数值模拟。扩展模型模仿了选择性激光烧结工艺，该工艺用于通过激光辐照生产多层零件。对物体的物理特征和有效热物理性质（孔隙度和热导率）的模型预测证明了对几个热处理参数的敏感性。报告并关联了加工物的有效导热率和平均孔隙率的预测值。

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《Journal of manufacturing science and engineering: Transactions of the ASME》 |2000年第3期|共6页
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M. Kandis; T. L. Bergman;
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1. A Simulation-Based Correlation of the Density and Thermal Conductivity of Objects Produced by Laser Sintering of Polymer Powders [J] . M. Kandis, T. L. Bergman Journal of manufacturing science and engineering: Transactions of the ASME . 2000,第3期

机译：基于模拟的聚合物粉末激光烧结所产生物体的密度和导热系数的相关性
2. Density improvement of alumina parts produced through selective laser sintering of alumina-polyamide composite powder [J] . Jan Deckers, Jean-Pierre Kruth, Khuram Shahzad, CIRP Annals . 2012,第1期

机译：通过选择性激光烧结氧化铝-聚酰胺复合粉末生产的氧化铝零件的密度提高
3. Computation of Effective Thermal Conductivity of Powders for Selective Laser Sintering Simulations [J] . Daniel Moser, Sreekanth Pannala, Jayathi Murthy Journal of Heat Transfer . 2016,第8期

机译：用于选择性激光烧结模拟的粉末有效导热系数的计算
4. COMPUTATION OF EFFECTIVE THERMAL CONDUCTIVITY OF POWDERS FOR SELECTIVE LASER SINTERING SIMULATIONS [C] . Daniel Moser, Sreekanth Pannala, Jayathi Murthy International Symposium on Advances in Computational Heat Transfer . 2015

机译：用于选择性激光烧结模拟的粉末有效导热系数的计算
5. Observation and modeling of part growth and shape evolution of polymer parts produced by non-isothermal and laser-induced sintering of powders. [D] . Kandis, Mouhyieldin. 1999

机译：粉末的非等温和激光诱导烧结产生的聚合物零件的零件生长和形状演变的观察和建模。
6. Potential use of only Yb2O3 in producing dense Si3N4 ceramics with high thermal conductivity by gas pressure sintering [O] . Xinwen Zhu, You Zhou, Kiyoshi Hirao, 2010

机译：仅通过Yb2O3即可通过气压烧结生产高导热率的致密Si3N4陶瓷
7. Morphology of polymeric powders in Laser Sintering (LS): From Polyamide to new PEEK powders [O] . S. Berretta, O. Ghita, K.E. Evans 2014

机译：激光烧结（LS）中聚合物粉末的形态：从聚酰胺到新的PEEK粉末

A Simulation-Based Correlation of the Density and Thermal Conductivity of Objects Produced by Laser Sintering of Polymer Powders

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