机译:用于激光粉末融合添加剂制造的三维传热建模,基于各种导热率和吸收率的体积热源
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Univ Waterloo Multiscale Addit Mfg Lab 200 Univ Ave Waterloo ON N2L 3G1 Canada;
Additive manufacturing; Laser powder-bed fusion; Heat transfer modeling; Volumetric heat sources; Varied laser absorptivity; Anisotropically enhanced thermal conductivity;
机译:用于激光粉末融合添加剂制造的三维传热建模,基于各种导热率和吸收率的体积热源
机译:基于激光制造过程中的导热性,吸收率和传热系数的测定
机译:基于自适应体积热源的传导模式激光点焊过程基于有限元的传热模型的开发
机译:激光粉末床融合中传热建模中的激光吸收率近似
机译:激光粉末融合添加剂制造工艺多尺度建模
机译:考虑激光功率吸收潜热扫描策略和粉末填充的粉末床增材制造过程中温度的分析模型
机译:基于电弧和集中源的电弧添加剂制造的热传质建模