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01
Advances in Additive Manufacturing of Polymer-Fused Deposition Modeling on Textiles: From 3D Printing to Innovative 4D Printing—A Review
纺织品聚合物熔融沉积成型增材制造的进展:从3D打印到创新4D打印——综述
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Franco Urquiza, E.A. Advances in Additive Manufacturing of Polymer-Fused Deposition Modeling on Textiles: From 3D Printing to Innovative 4D Printing—A Review. Polymers 2024, 16, 700.
02
Forefront Research of Foaming Strategies on Biodegradable Polymers and Their Composites by Thermal or Melt-Based Processing Technologies: Advances and Perspectives
基于热或熔融加工技术的可生物降解聚合物及其复合材料发泡策略前沿研究:进展与展望
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Gonçalves, L.F.F.F.; Reis, R.L.; Fernandes, E.M. Forefront Research of Foaming Strategies on Biodegradable Polymers and Their Composites by Thermal or Melt-Based Processing Technologies: Advances and Perspectives. Polymers 2024, 16, 1286.
03
Development of Flexible and Partly Water-Soluble Binder Systems for Metal Fused Filament Fabrication (MF3) of Ti-6Al-4V Parts
用于Ti-6Al-4V部件金属熔丝制造 (MF3) 的柔性和部分水溶性粘合剂系统的开发
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Eickhoff, R.; Antusch, S.; Nötzel, D.; Probst, M.; Hanemann, T. Development of Flexible and Partly Water-Soluble Binder Systems for Metal Fused Filament Fabrication (MF3) of Ti-6Al-4V Parts. Polymers 2024, 16, 2548.
04
Biomedical Composites of Polycaprolactone/Hydroxyapatite for Bioplotting: Comprehensive Interpretation of the Reinforcement Course
聚己内酯/羟基磷灰石生物医学复合材料在生物打印的应用:强化过程全面解读
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Petousis, M.; Michailidis, N.; Korlos, A.; Papadakis, V.; David, C.; Sagris, D.; Mountakis, N.; Argyros, A.; Valsamos, J.; Vidakis, N. Biomedical Composites of Polycaprolactone/Hydroxyapatite for Bioplotting: Comprehensive Interpretation of the Reinforcement Course. Polymers 2024, 16, 2400.
05
Tailoring the Mass Density of 3D Printing Materials for Accurate X-ray Imaging Simulation by Controlled Underfilling for Radiographic Phantoms
通过控制射线模型底部填充来调整3D打印材料的质量密度,以实现精确的X射线成像模拟
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Ahmed, A.M.M.; Buschmann, M.; Breyer, L.; Kuntner, C.; Homolka, P. Tailoring the Mass Density of 3D Printing Materials for Accurate X-ray Imaging Simulation by Controlled Underfilling for Radiographic Phantoms. Polymers 2024, 16, 1116.
06
Performance of Fabrics with 3D-Printed Photosensitive Acrylic Resin on the Surface
表面涂覆3D打印感光丙烯酸树脂的织物性能
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Becker, P.; Ciesielska-Wrόbel, I. Performance of Fabrics with 3D-Printed Photosensitive Acrylic Resin on the Surface. Polymers 2024, 16, 486.
07
Development of Innovative Thermoplastic Foam Materials Using Two Additive Manufacturing Technologies for Application in Evaporative Cooling Systems
利用两种增材制造技术开发创新型热塑性泡沫材料,用于蒸发冷却系统
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Castillo-González, J.; Comino, F.; Caruana, R.; Guilizzoni, M.; Conrat, P.; Ruiz de Adana, M.; Navas-Martos, F.J. Development of Innovative Thermoplastic Foam Materials Using Two Additive Manufacturing Technologies for Application in Evaporative Cooling Systems. Polymers 2024, 16, 3190.
08
The Use of Additive Manufacturing Techniques in the Development of Polymeric Molds: A Review
增材制造技术在聚合物模具开发中的应用:综述
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Pelin, G.; Sonmez, M.; Pelin, C.-E. The Use of Additive Manufacturing Techniques in the Development of Polymeric Molds: A Review. Polymers 2024, 16, 1055.
09
Optimization Course of Titanium Nitride Nanofiller Loading in High-Density Polyethylene: Interpretation of Reinforcement Effects and Performance in Material Extrusion 3D Printing
氮化钛纳米填料在高密度聚乙烯中的填充优化过程:材料挤出3D打印中增强效果及性能解读
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Petousis, M.; Sagris, D.; Papadakis, V.; Moutsopoulou, A.; Argyros, A.; David, C.; Valsamos, J.; Spiridaki, M.; Michailidis, N.; Vidakis, N. Optimization Course of Titanium Nitride Nanofiller Loading in High-Density Polyethylene: Interpretation of Reinforcement Effects and Performance in Material Extrusion 3D Printing. Polymers 2024, 16, 1702.
10
Rice Husk with PLA: 3D Filament Making and Additive Manufacturing of Samples for Potential Structural Applications
稻壳与PLA:3D长丝制造和增材制造样品,用于潜在的结构应用
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Barreto, G.; Restrepo, S.; Vieira, C.M.; Monteiro, S.N.; Colorado, H.A. Rice Husk with PLA: 3D Filament Making and Additive Manufacturing of Samples for Potential Structural Applications. Polymers 2024, 16, 245.
11
Detecting Multi-Scale Defects in Material Extrusion Additive Manufacturing of Fiber-Reinforced Thermoplastic Composites: A Review of Challenges and Advanced Non-Destructive Testing Techniques
检测纤维增强热塑性复合材料材料挤出增材制造中的多尺度缺陷:挑战和先进无损检测技术综述
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Ashebir, D.A.; Hendlmeier, A.; Dunn, M.; Arablouei, R.; Lomov, S.V.; Di Pietro, A.; Nikzad, M. Detecting Multi-Scale Defects in Material Extrusion Additive Manufacturing of Fiber-Reinforced Thermoplastic Composites: A Review of Challenges and Advanced Non-Destructive Testing Techniques. Polymers 2024, 16, 2986.
12
Thermally Conductive and Electrically Insulating Polymer-Based Composites Heat Sinks Fabricated by Fusion Deposition Modeling
采用熔融沉积成型技术制造的导热和电绝缘聚合物基复合散热器
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Bagatella, S.; Cereti, A.; Manarini, F.; Cavallaro, M.; Suriano, R.; Levi, M. Thermally Conductive and Electrically Insulating Polymer-Based Composites Heat Sinks Fabricated by Fusion Deposition Modeling. Polymers 2024, 16, 432.
13
Tuning the Topography of Dynamic 3D Scaffolds through Functional Protein Wrinkled Coatings
通过功能性蛋白质皱纹涂层调整动态三维支架的形貌
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Oguntade, E.; Fougnier, D.; Meyer, S.; O’Grady, K.; Kudlack, A.; Henderson, J.H. Tuning the Topography of Dynamic 3D Scaffolds through Functional Protein Wrinkled Coatings. Polymers 2024, 16, 609.
14
Integrative Modeling and Experimental Insights into 3D and 4D Printing Technologies
3D和4D打印技术的综合建模和实验见解
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Pereira, A.C.; Nayak, V.V.; Coelho, P.G.; Witek, L. Integrative Modeling and Experimental Insights into 3D and 4D Printing Technologies. Polymers 2024, 16, 2686.
15
Multi-Material 3D Printing of Biobased Epoxy Resins
生物基环氧树脂的多材料3D打印
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Bergoglio, M.; Rossegger, E.; Schlögl, S.; Griesser, T.; Waly, C.; Arbeiter, F.; Sangermano, M. Multi-Material 3D Printing of Biobased Epoxy Resins. Polymers 2024, 16, 1510.
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太原理工大学贾里副教授团队“用于烟气中汞去除的新型复合材料UiO−66−Br@MBC:制备与机理 | MDPI Polymers
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