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材料及資源工程系 / 材料科學與工程研究所
繁體

積層陶瓷電容製程與材料開發

 

積層陶瓷電容(MLCC)是現代3C產業不可或缺的電子元件,利用材料的開發,可以在更小的體積、以更多的層數獲得更高的電容。

Materials and Process Design for MLCC

 

Multi-Layer Ceramic Capacitor (MLCC) is a critical component in 3C electronic products. New materials design makes higher electric capacity possible in a smaller dimension through stacking higher number of ceramic layers. 

Contact Center of EMO Materials and Nanotechnology for details.

 

 

 

 

 

 

 

 

 

巨孔微米球

 

具有良好球體與均勻性的巨孔微米球,得以應用在諸多化學、生醫藥物釋放、能源等領域,台北科大研發團隊獲得多項技術突破與獎項。

Gigaporous Microspheres

 

Gigaporous microspheres Taipei Tech developed demonstrate uniform and excellent sphericity making them applicalbe for chemical, bio-medical, energy applications, etc. Our research team has gained numerous technical improvement and awards. 

Contact Nano-Energy Materials Lab for details.

 

 

 

 

 

 

 

 

 

 

無機聚合技術

 

無機聚合技術係利用鹼性配方液溶出礦物或廢棄物表面之矽、鋁離子,經聚合、脫水、硬化後形成Si-O-Al短程有序、長程無序之三維結構,屬非晶質或半晶質之物質,鍵結以共價鍵為主。 無機聚合技術製程簡單,不需經高溫處理,室溫下即可製備,且聚合過程中不會排放出二氧化碳,因此具減碳效益;此技術製備之材料,同時具防火/隔熱、重金屬穩定化及高早強度等優異之特性,應用層面廣泛,為一深具潛力之工程材料。

Geopolymeric Technology

 

Geopolymeric technology is using alkali solution to dissolve the Si, Al ion from mineral or waste powder’s particle, through polymerization, dehydration, and hardening, it will become a three-dimensional framework aluminosilicate material. The manufacturing process of geopolymeric technology is very simple and it can form under the room temperature. Thus, comparing with cement, it can reduce CO2 emission. Geopolymer materials have superior mechanical and physical properties, such as fire resistant/heat insulation, stabilized the heavy metal, early strength…etc, It is believed that geopolymeric technology has great potential for engineering application. 

Contact Mineral Processing Lab for details.

 

 

 

 

 

 

 

 

 

金屬積層製造及粉末相關製程

 

各類模具鋼材(MS1, 17-4 PH, SUS 304)、鎳合金(IN 718)、鈦與鈦合金(Ti-6Al-4V)之積層製造實心材料(>99.95%緻密)以及多孔材特性(機械性質、物理性質、疲勞性質)研究。應用場域包括:生醫、航太、模具等場域。

 

粉末冶金、積層製造用金屬粉末及其特殊製程開發

Additive Manufacturing (AM) of Metals and Powder-related Processes

 

The AM processes we specialize include both powder bed fusion (PBF) and direct metal laser sintering (DMLS) processes. The metals investigated include: ferrous alloys (MS1, 17-4 PH, SUS 304), nickle alloy (IN 718), Ti and Ti-6Al-4V alloys for >99.95% density and cellular stuctures. We are specialized in the mechanical, physical, and fatigue properties of metals made by AM. The fields of application covers bio-medical, aerospace, and mold materials.

 

Metal powders and powder-related processes including traditional powder metallurgy and AM are all topics of interest.

Contact Applied Metals Processing Lab for details.

 

 

 

 

UA-16670176-17