(1) 提出了陶瓷膠態註射成型工藝,獲8項中國發明專利;提出並實現了水基非塑性漿料註射成型的學術思想,該項成果通過教育部和河北省科技廳組織的13項成果鑒定(其中9項排名第壹),達到國際領先水平和國際先進水平。
(2) 提出膠態成型制備避免應力坯體及方法的學術思想。該學術思想指出:膠態原位凝固成型雖然可以獲得密度均勻的坯體,但在液固轉變過程中容易產生內應力,內應力將會在幹燥、排膠、燒結和機加工的過程中發展、遺傳和變異,並且指出克服坯體的內應力將是今後陶瓷膠態成型工藝重要的發展方向,這壹觀點得到國內外同行的普遍認可。同時,授權2項中國發明專利,獲得國家自然科學重點基金1項。
(3) 研制成功國際上第壹臺陶瓷膠態註射成型機和工業化原機,通過教育部組織的2項專家鑒定,獲準2項中國發明專利。至目前為止,建立了9000余平米的產業化基地。
(4) 首次揭示了陶瓷濃懸浮體液固轉變過程中裂紋形成的機制,提出了避免裂紋產生的2種方法,獲準中國發明專利2項。該項成果被瑞士聯邦理工大學Gauckler教授評價為“utmost important result in materials and deepens specifically the basic understanding of colloid chemistry for materials considerably”。
(5) 發明陶瓷懸浮體快速均勻混合可控固化新工藝,獲準中國發明專利1項。此項技術將懸浮體分成兩組或者多組,各組份長期保存而不發生固化。但是,當將各組份在短時間內快速均勻混合,利用不同特性懸浮體之間發生反應並且固化成型,該方法具有普適性,是繼陶瓷膠態註射成型新工藝之後的又壹重大突破,為建立生產線奠定了堅實的基礎。
(6) 發明了高性能陶瓷微珠(0.1-3 mm)普適性的制備方法和裝備,得到863專家組的高度評價和肯定,整條生產線擁有全部自主知識產權,通過教育部和河北省科技廳組織的3項成果鑒定。由於該技術的先進性,2005年該項目被世界500強法國聖戈班收購。獲準中國發明專利1項。
(7) 發明並且自制了凝膠點測試裝置,可以在線測試凝膠反應過程中不同壓力下反應時間和溫度的關系,為研究凝膠反應動力學提供了實驗測試手段,獲準1項中國發明專利,采用該裝置***發表論文10余篇。
(8) 發明了大功率、低電壓啟動新型陶瓷復合介質材料,啟動電壓從8000V降低至1000V,臭氧產量提高10倍以上,制造成本大幅度降低,申請中國發明專利2項。目前,已經成功研制出多臺臭氧發生器設備。獲準中國發明專利2項。
(9) 將氧化鋯陶瓷球珠應用到制筆行業,提高書寫壽命5倍以上,被列為中國制筆行業協會十壹五重點推廣項目,整體提升了我國制筆行業水平。獲準中國發明專利1項。
(10) 通過先進陶瓷制備技術,改造和綜合利用固體廢棄物,研制微米級空心球,在眾多行業中應用廣泛,探索出壹條固體廢棄物綜合利用的新途徑。申請中國發明專利和PCT專利各1項。 (1)J. Yang, J. Xu, N. Wen, Y. Qu, F. Qi, and X. Xi, Direct coagulation casting of alumina suspension via controlled release of high valence counterions from thermo‐sensitive liposomes, J Am Ceram Soc, 96[1] 62-67 (2013). (SCI收錄,IF=2.272)
(2)JL Yang, JL Yu, YY Cui, Y Huang. New laser machining technology of Al2O3 ceramic with complex shape. Ceramics International. 2012, 38(5): 3643-3648. (SCI收錄,IF=1.471)
(3)Jinlong Yang, Juanli Yu, Yong Huang. Recent developments in gelcasting of ceramics. Journal of the European Ceramic Society, 2011, 31: 2569-2591. (SCI收錄,IF=2.574)
(4)J. Yu, J. Yang, Q. Zeng, and Y. Huang, Effect of carboxymethyl cellulose addition on the properties of Si3N4 ceramic foams, Ceram. Int., 39 2775-79 (2013). (SCI收錄,IF=1.751)
(5)W. Liu, J. Yang, H. Xu, Y. Wang, S. Hu, and C. Xue, Effects of chelation reactions between metal alkoxide and acetylacetone on the preparation of MgAl2O4 powders by sol–gel process, Adv. Powder Technol., 24[1] 436-40 (2013). (SCI收錄,IF=1.650)
(6)Juanli Yu, Jinlong Yang, Yong Huang. Review paper-The transformation mechanism from suspension to green body in colloidal forming. Ceramics International, 2011, 37: 1435-1451. (SCI收錄,IF=1.471)
(7)Juanli Yu, Jinlong Yang, Hexin Li. Study on particle-stabilized Si3N4 ceramic foams, Materials Letters, 2011, 65: 1801-1804. (SCI收錄,IF= 2.12)
(8)JL Yu, JL Yang, S Li, HX Li, Y Huang. Preparation of Si3N4 foam ceramics with nest-like cell structure by particle-stabilized foam. Journal of the American Ceramic Society, 2012, 95(4): 1229-1233. (SCI收錄,IF=2.167)
(9)Juanli Yu, Jinlong Yang, Hexin Li, Yong Huang. Pore structure control of Si3N4 ceramics based on particle-stabilized foams. Journal of Porous Materials, 19:883-888 (2012).( EI收錄,IF=0.96)
(10)Yang JL, Lin H, Xi XQ, Zeng K, Porous ceramic from particle stabilized foams by gelcasting, International Journal of Materials Product and Technology, Vol.37, Issue 3/4, pg: 248-256, 2010(EI收錄)
(11)Yang Jinlong, Wang Yali, Su Hengbo, etal. Microstructure and Mechanical Property of Natural Tree Jade, Journal of the Chinese Ceramic Society, Vol.38(7): 1286-1291, 2010(EI收錄)
(12)J.-M. Wu, W.-Z. Lu, X.-H. Wang, P. Fu, M. Ni, J.-L. Yang, C. Wang, and Q.-C. Zeng, Ba0.6Sr0.4TiO3–MgO ceramics from ceramic powders prepared by improved by improved aqueous gelcasting-assisted solid-state method, J. Eur. Ceram. Soc., 33[13-14] 2519-27 (2013). (SCI收錄,IF=2.360)
(13)S. Hu, R. Tian, L. Wu, Q. Zhao, J. Yang, J. Liu, and S. Cao, Chemical regulation of carbon quantum dots from synthesis to photocatalytic activity, Chemistry, an Asian journal, 8[5] 1035-41 (2013). (SCI收錄,IF=4.500)
(14)W. Liu, L. Du, Y. Wang, J. Yang, and H. Xu, Effects of foam composition on the microstructure and piezoelectric properties of macroporous PZT ceramics from ultrastable particle-stabilized foams, Ceram. Int., 39[8] 8781–87 (2013). (SCI收錄,IF=1.751)
(15)L. Du, W. Liu, S. Hu, Y. Wang, and J. Yang, Preparation and photocatalytic properties of macroporous honeycomb alumina ceramics used for water purification, J. Eur. Ceram. Soc., 34[3] 731-38 (2013). (SCI收錄,IF=2.360)
(16)S. Hu, R. Tian, Y. Dong, J. Yang, J. Liu, and S. Cao, Preparation and optical properties of phthalocyanine–carbon dot blends, RSC Advances, 3[44] 21447-52 (2013). (SCI收錄,IF=2.562)
(17)S. Hu, R. Tian, Y. Dong, J. Yang, J. Liu, and Q. Chang, Modulation and effects of surface groups on photoluminescence and photocatalytic activity of carbon dots, Nanoscale, 5[23] 11665-71 (2013). (SCI收錄,IF=6.233)
(18)S. Hu, Q. Zhao, Y. Dong, J. Yang, J. Liu, and Q. Chang, Carbon-dot-loaded alginate gels as recoverable probes: fabrication and mechanism of fluorescent detection, Langmuir, 29[40] 12615-21 (2013). (SCI收錄,IF=4.187)
(19)S. L. Hu, Y. Dong, J. L. Yang, J. Liu, S. Cao. Simultaneous synthesis of luminescent carbon nanoparticles and carbon nanocages by laser ablation of carbon black suspension and their optical limiting properties. Journal of Materials Chemistry 2012, 22: 1957-1961. (SCI收錄, IF=5.968)
(20)S. L. Hu, Y. Guo, Y. Dong, J. L. Yang, J. Liu, S. Cao, Understanding the effects of the structures on the energy gaps in carbon nanoparticles from laser synthesis. Journal of Materials Chemistry 2012, 22:12053-12057. (SCI收錄, IF=5.968) 部分已授權發明專利(20項):
(1)壹種在瓦楞輥表面註滲氮化矽特種陶瓷的方法,專利號:200910084987.9
(2)壹種在瓦楞輥表面註滲氮化硼特種陶瓷的方法,專利號:200910084986.4
(3)壹種溫度控制高價反離子釋放固化陶瓷漿料的方法,專利號:201110291426.3
(4)激光三維加工陶瓷坯體方法與裝置,專利號:200610056794.9
(5)壹種制備β-氮化矽晶須的方法,專利號:201010181986.9
(6)壹種多孔陶瓷及其制備方法,專利號:200910090067.8
(7)壹種制備空心陶瓷微珠的方法與裝置,專利號:200910131051.7
(8)壹種可在常溫下微波加熱的遠紅外陶瓷小球及其制造方法,專利號:200610165339.2
(9)陶瓷懸浮體高效連續固化成型裝置與方法,專利號:200710086861.6
(10)凝膠註模成型陶瓷坯體排膠氣相預處理的新方法,專利號:200410004743.2
(11)凝膠註模成型陶瓷坯體排膠液相預處理方法,專利號:200410039113.9
(12)凝膠註模成型陶瓷漿料真空除氣泡的方法,專利號:200410039112.4
(13)適合臭氧發生器使用的新型電介質材料及其制備方法,專利號:200310103409.8
(14)壹種可控溫度和真空度的新型球磨罐,專利號:200310100369.1
(15)制備氧化鋯空心陶瓷麻將的方法,專利號:200310100370.4
(16)壹種陶瓷漿料快速可控固化膠態成型方法及裝置,專利號:03153699.9
(17)光纖連接器用氧化鋯陶瓷插針的成型方法及裝置,專利號:03145954.4
(18)制備陶瓷小球的方法和裝置,專利號:02125221.1
(19)壹種無裂紋陶瓷坯體的制備方法,專利號:00136867.2
(20)陶瓷膠態註射成型方法及裝置,專利號:00136834.6
部分已申請發明專利(20項):
(1)壹種陶瓷高價反離子直接凝固註模成型的方法,申請號:201410009146.2
(2)壹種采用陶瓷空心球制備多孔陶瓷的方法,申請號:201310430728.3
(3)壹種用於制備新型人造雪的鍶鐵氧體顆粒的表面包覆方法,申請號:201310412873.9
(4)壹種基於鍶鐵氧體的人造雪的制備方法,申請號:201310683733.5
(5)壹種制備泡沫陶瓷漿料的發泡設備,申請號:201310610857.0
(6)壹種基於煤矸石微米級空心球的保水緩釋化肥及其制備方法,申請號:201310526978.7
(7)壹種利用廢玻璃制備微孔泡沫玻璃的方法,申請號:201310529973.X
(8)壹種無機微球快速燒結的方法和裝置,申請號:201310528555.9
(9)壹種基於結冷膠凝膠的陶瓷凝膠註模成型方法,申請號:201310006430.X
(10)壹種微米級蜂窩陶瓷及其孔徑和孔壁尺寸的調控方法,申請號:201310164617.2
(11)壹種利用煤矸石自發泡制備無機泡沫材料的方法,申請號:201310132817.X
(12)運動員力竭運動後快速恢復系統,申請號:201210525897.0
(13)壹種具有三級孔結構的無機保溫材料及其制備方法,申請號:201210592778.7
(14)壹種具有二級閉孔結構的無機保溫材料,申請號:201210282748.6
(15)壹種制備多孔陶瓷微珠的方法與裝置,申請號:201210392799.4
(16)壹種通過緩釋高價反離子實現陶瓷漿料直接凝固成型的方法,申請號:201110140027.7
(17)用廢鋁(合金)制品制備高純鋁醇鹽及氧化鋁粉體,申請號:201110096082.0
(18)壹種輕質、高強、高韌性陶瓷及其制備方法,申請號:201010172392.1
(19)壹種制備空心陶瓷微珠的方法與裝置,國際專利申請號:CT/CN2010/000538
(20)精密球珠高效研磨設備,申請號:200910143459.6