副教授
机械 & 航空航天工程

Dipankar Ghosh

757-683-3738
材料先进制造实验室
谷歌学者

241g考夫曼大厅
诺福克 , 23529年

Dr. Dipankar Ghosh joined the faculty of the 机械 and 航空航天工程 at 最靠谱的网赌软件 in 2014. 加入ODU之前,博士. Ghosh was a postdoctoral scholar in the Division of 工程 and Applied Science at California Institute of 技术. He also held a position of postdoctoral associate in the 母亲ials Science and 工程 Department at University of Florida. 他于2009年获得佛罗里达大学机械工程博士学位. 他拥有加尔各答大学化学技术/陶瓷工程学士学位, 印度, 获得印度理工学院材料科学与工程硕士学位, Kharagpur, 印度.

Freezing of ceramic and metallic suspensions and polymer solutions and subsequent phase separation during solidification process has emerged as a novel methodology, 它允许我们复制各种功能,比如分层架构, 我们在天然材料中观察到的孔隙形态和复杂界面, 比如鱼鳞, 珍珠贝壳, 穿山甲规模, 木头和骨头. 一种新兴技术是冷冻铸造(也被称为冰模板)。, 哪一个最初是由海水中发生的自然冻结过程引起的. My group is primarily working on advancing the ice-templating technology for synthesis and design of novel hierarchical ceramics and composites with a multidisciplinary research approach. Ice-templated ceramics and composites have tremendous potential for numerous structural and functional engineering endeavors. 我们专注于开发材料合成和表征的新工具. Our research is oriented in developing the materials and research tools for targeted applications. Other research interests include high-strain behavior of hierarchical materials and additive manufacturing of materials. 除了研究生, my group has strongly emphasized on creating research experience opportunities for undergraduate students, 以及K-12学生和老师.

Ph.D. 佛罗里达大学机械工程专业,(2009)

M.S. in 母亲ials Science and 工程, 印度n Institute of 技术 Kharagpur, (2004)

B.S. 加尔各答大学化学技术,(2002)

研究兴趣

陶瓷悬浮液中粒子操纵的外力
冰模板陶瓷合成中的不均匀颗粒
锂离子电池用冰模板陶瓷的合成
冰模板陶瓷及其复合材料的动力学行为

文章

班达,M. 和高希博士. (2020). 温度和血小板对薄片壁微观结构的影响, 结构稳定性, 以及冰模板陶瓷的抗压强度. 母亲ialia 9 , pp. 1--16.
Akurati,年代.Tennant, N. 和高希博士. (2019). Characterization of dynamic and quasistatic compressive mechanical properties of ice-templated alumina--epoxy composites. 材料研究杂志 34 (6) , pp. 959--971.
Akurati,年代.高希,D.班达,M. D . Terrones. A. (2019). Direct Observation of Failure in Ice-Templated Ceramics Under Dynamic and Quasistatic Compressive Loading Conditions. 材料动力学行为学报 5 (4) , pp. 463--483.
Ghosh D.班达,M.约翰,约翰. E.. D . Terrones. A.. (2018). Dynamic strength enhancement and strain rate sensitivity in ice-templated ceramics processed with and without anisometric particles. Scripta 母亲ialia 154 , pp. 236--240.
班达,M. 和高希博士. (2018). Effects of porosity and strain rate on the uniaxial compressive response of ice-templated sintered macroporous alumina. Acta 母亲ialia 149 , pp. 179--192.
慕克吉D.霍达戈达,M.佩斯奎拉,D.高希,D.琼斯,J. L.慕克吉,P. 和南卡罗来纳州的维塔纳奇. (2017). 外延(Pb La x)(zr0)中铁电极化增强.52 Ti 0.48)低La掺杂的o3薄膜. 体格检查b 95 , pp. 174304--1.
Ghosh D.康,H.班达,M. V .卡马哈. (2017). Influence of anisotropic grains (platelets) on the microstructure and uniaxial compressive response of ice-templated sintered alumina scaffolds. Acta 母亲ialia 125 , pp. 1--14.
Ghosh D.班达,M.Akurati,年代.康,H. Fakharizadeh, V. O.. (2017). On the brittle fracture characteristics of lamella walls of ice-templated sintered alumina scaffolds and effects of platelets. Scripta 母亲ialia 138 , pp. 139--144.
Ghosh D.Kingstedt, O. T.. 和Ravichandran, G. (2017). Plastic Work to Heat Conversion During High-Strain Rate Deformation of Mg and Mg Alloy. 冶金与材料学报 48 , pp. 14--19.
Ghosh D.纽约州达维尔市(Dhavale.班达,M. 康,H. (2016). A comparison of microstructure and uniaxial compressive response of ice-templated alumina scaffolds fabricated from two different particle sizes. 陶瓷国际 42 (14) , pp. 16138--16147.
Ghosh D.,呸,A.,卡门,G. P. 和Ravichandran, G. (2016). An experimental investigation of domain wall motion in polycrystalline Ni during high-rate compressive loading. 智能材料和结构 25.
Ghosh D.班达,M.康,H. 和达维尔,n.n. (2016). Platelets-induced stiffening and strengthening of ice-templated highly porous alumina scaffolds. Scripta 母亲ialia 125 , pp. 29--33.
Ghosh D.A. 康纳,R. D. (2016). Uniaxial quasistatic and dynamic compressive response of foams made from hollow glass microspheres. 欧洲陶瓷学会杂志 36 , pp. 781--789.
罗伯茨,C. C., Lv, P.高希,D.魔爪,T. 林奇,C. S. (2015). PZT 52/48和95/5冲击下的中间应变速率能量收集. 复合材料杂志 49 (15) , pp. 1863--1871.
Ghosh D.坂田,A.卡特,J.托马斯·P. A.汉.尼诺. C. 琼斯,J. L. (2014). Domain wall displacement is the origin of superior permittivity and piezoelectricity in BaTiO3 at intermediate grain sizes. 高级功能材料 24 (7) , pp. 885--896.
Ghosh D.坂田,A.卡特,J.托马斯·P. A.汉.尼诺. C. 琼斯,J. L. (2014). Ferroelectric 母亲ials: Domain Wall Displacement is the Origin of Superior Permittivity and Piezoelectricity in BaTiO3 at Intermediate Grain Sizes (Adv. 功能. 母亲. 7/2014). 高级功能材料 24 (7) , pp. 884--884.
Subhash G.高希,D.Blaber J.郑,J. Q.霍尔斯,V. 马斯特斯,K. (2013). Characterization of the 3-D amorphized zone beneath a Vickers indentation in boron carbide using Raman spectroscopy. Acta materialia 61 (10) , pp. 3888--3896.
汉族,H.高希,D.琼斯,J. L. 尼诺,J。. C. (2013). Colossal Permittivity in Microwave-Sintered Barium Titanate and Effect of Annealing on Dielectric Properties. 美国陶瓷学会杂志 96 (2) , pp. 485--490.
刘,我.Suryanarayana, C.高希,D., Subhash G. 安,L. (2013). 机械合金化法制备Mg—Al2O3纳米复合材料. 合金与化合物杂志 563 , pp. 165--170.
Ghosh D., Subhash G.郑,J. Q. 霍尔斯,V. (2012). Influence of stress state and strain rate on structural amorphization in boron carbide. 应用物理杂志 111 (6) , pp. 063523.
Pramanick,.琼斯,J.图通库,G.高希,D.斯托伊卡,A. An, K. (2012). 铁电单晶中的应变不相容与残余应变. 科学报告 2 , pp. 929.
Ghosh D.汉.尼诺. C., Subhash G. 琼斯,J. L. (2012). 火花等离子烧结制备batio3 -20wt % cofe2o4纳米复合材料. 美国陶瓷学会杂志 95 (8) , pp. 2504--2509.
Blaber J. A.高希,D., Subhash G.麦肯米斯基,E. 泰勒,C. R. (2011). ZrB2陶瓷屈服后硬化响应的测定. Scripta 母亲ialia 65 (11) , pp. 962--965.
Ghosh D., Subhash G. 以及纽约州的奥洛夫斯卡娅. (2010). zrb2基超高温陶瓷的滑移线间距. Scripta 母亲ialia 62 (11) , pp. 839--842.
Maiti,年代.高希,D. Subhash G. (2009). 任意裂纹运动的广义内聚元技术. 有限元分析和设计 45 (8-9) , pp. 501--510.
Ghosh D., Subhash G. 伯恩,G. R. (2009). ZrB2—SiC复合材料在压痕和划痕载荷下的非弹性变形. 欧洲陶瓷学会杂志 29 (14) , pp. 3053--3061.
Ghosh D., Subhash G. 伯恩,G. R. (2009). Room-temperature dislocation activity during mechanical deformation of polycrystalline ultra-high-temperature ceramics. Scripta 母亲ialia 61 (11) , pp. 1075--1078.
Ghosh D., Subhash G. 以及纽约州的奥洛夫斯卡娅. (2009). Scratch-Induced Deformation and Residual Stress in a Zirconium Diboride-Silicon Carbide Composite. 陶瓷二元材料的力学性能及加工, 三元, 和复合系统:陶瓷工程与科学学报, 卷29, 问题2 , pp. 51--63.
Ghosh D., Subhash G. 以及纽约州的奥洛夫斯卡娅. (2008). Measurement of scratch-induced residual stress within SiC grains in ZrB2--SiC composite using micro-Raman spectroscopy. Acta 母亲ialia 56 (18) , pp. 5345--5354.
Subhash G.美国迈提市.格贝尔,P. H. 和高希博士. (2008). Recent advances in dynamic indentation fracture, impact damage and fragmentation of ceramics. 美国陶瓷学会杂志 91 (9) , pp. 2777--2791.
Ghosh D., Subhash G.Radhakrishnan, R. 苏达山,T. S. (2008). Scratch-induced microplasticity and microcracking in zirconium diboride--silicon carbide composite. Acta 母亲ialia 56 (13) , pp. 3011--3022.
Ghosh D., Subhash G.苏达山,T. S.Radhakrishnan, R. 高,X. (2007). 细晶碳化硼的动态压痕响应. 美国陶瓷学会杂志 90 (6) , pp. 1850--1857.
Subhash G.高希,D. 以及南卡罗来纳州的迈提. (2007). 细晶碳化硼的静态和动态压痕响应. Advances in Ceramic Armor III: Ceramic and 工程 Science Proceedings, Volume 28, Issue 5 , pp. 29--44.
Ghosh D., Subhash G.李,C. Huei. Yap, Y. 钦. (2007). Strain-induced formation of carbon and boron clusters in boron carbide during dynamic indentation. 应用物理快报 91 (6) , pp. 061910.
Dhara,年代.普拉丹,M.高希,D. 巴尔加瓦,P. (2005). 自然启发了陶瓷泡沫的新加工路线. 应用陶瓷研究进展 104 (1) , pp. 9--21.
Ghosh D.,达拉,S. 巴尔加瓦,P. (2004). 用卵清蛋白基碳化硅水泥浆制备绿色碳化硅压实剂. 美国陶瓷学会公报 83 , pp. 9101--9106.
Ghosh D.,达拉,S. 巴尔加瓦,P. (2004). 碳化硅陶瓷的简化水凝胶铸造. 印度陶瓷学会会刊 63 (4) , pp. 199--202.

书的章节

Ghosh D. Subhash G. (2013). Zr(Hf)B2基超高温陶瓷研究进展 高级陶瓷手册:材料,应用,加工和性能 (pp. 267- 299)爱思唯尔公司.
Ghosh D. Subhash G. (2010). 富硼轻质超高温陶瓷的划痕研究 富硼固体 (pp. 83—94)斯普林格,多德雷赫特.

会议进行

Subhash G. 和高希博士. (2012). Investigation of Room Temperature Dislocation Mobility in Metal Diborides(ZrB 2) Using Nano and Micro Indentation AIP会议论文集.
  • 2010年:最佳博士.D. Dissertation , Department of 机械 and 航空航天工程, University of Florida
  • 2009: Outstanding 国际 Student Award, College of 工程, University of Florida
  • 2008年:美国陶瓷学会最佳论文奖二等奖

组织结构图