...
机译:计算流体动力学的组织工程气管性能量化
Department of Otolaryngology–Head and Neck SurgeryNationwide Children's HospitalColumbus Ohio;
Department of Otolaryngology–Head and Neck Surgery;
Department of General SurgeryOhio State UniversityColumbus Ohio;
Department of Pediatric SurgeryLoma Linda Children's HospitalLoma Linda California;
Tissue Engineering and Surgical ResearchResearch Institute at Nationwide Children's;
Department of General SurgeryOhio State UniversityColumbus Ohio;
Tissue Engineering and Surgical ResearchResearch Institute at Nationwide Children's;
Department of Otolaryngology–Head and Neck Surgery;
Department of Otolaryngology–Head and Neck SurgeryNationwide Children's HospitalColumbus Ohio;
Tissue Engineering and Surgical ResearchResearch Institute at Nationwide Children's;
Nanofiber Solutions Inc.Hilliard Ohio U.S.A.;
Department of Otolaryngology–Head and Neck SurgeryNationwide Children's HospitalColumbus Ohio;
Tissue‐engineered tracheal graft; tissue engineering; tracheal stenosis; computational fluid dynamics;
机译:计算流体动力学的组织工程气管性能量化
机译:气雾沉积全呼吸循环的计算流体动力学模拟:呼吸频率的影响
机译:气雾沉积全呼吸循环的计算流体动力学模拟:呼吸频率的影响
机译:动态调节的心脏瓣膜组织中流体诱导的应力状态的计算预测
机译:使用计算流体力学量化原型单相中微子探测器的性能
机译:用计算流体力学定量组织工程气管的性能
机译:使用计算流体动力学和实验方法研究骨骼 - 组织工程构建体的体外培养过程