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You searched for +publisher:"Georgia Tech" +contributor:("Das, Suman"). Showing records 1 – 20 of 20 total matches.

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Georgia Tech

1. Zhao, Xiayun. Process planning for thick-film mask projection micro stereolithography.

Degree: MS, Mechanical Engineering, 2009, Georgia Tech

 Mask Projection micro Stereolithography (MPuSLA) is an additive manufacturing process used to build physical components out of a photopolymer resin. Existing MPuSLA technology cut the… (more)

Subjects/Keywords: Mask Projection micro Stereolithography; Process planning; Microtechnology; Photopolymerization; Polymers Additives; Polymerization; Microfabrication; Photopolymerization

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APA (6th Edition):

Zhao, X. (2009). Process planning for thick-film mask projection micro stereolithography. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/28097

Chicago Manual of Style (16th Edition):

Zhao, Xiayun. “Process planning for thick-film mask projection micro stereolithography.” 2009. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/28097.

MLA Handbook (7th Edition):

Zhao, Xiayun. “Process planning for thick-film mask projection micro stereolithography.” 2009. Web. 18 Mar 2019.

Vancouver:

Zhao X. Process planning for thick-film mask projection micro stereolithography. [Internet] [Masters thesis]. Georgia Tech; 2009. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/28097.

Council of Science Editors:

Zhao X. Process planning for thick-film mask projection micro stereolithography. [Masters Thesis]. Georgia Tech; 2009. Available from: http://hdl.handle.net/1853/28097


Georgia Tech

2. Chu, Chun. Development of polymer nanocomposites for automotive applications.

Degree: MS, Mechanical Engineering, 2010, Georgia Tech

 Polymer nanocomposites (PNCs) have gained significant interest because they have outstanding performance that allows cost reduction, weight reduction, and product improvement. This research study focuses… (more)

Subjects/Keywords: XGnP; Automotive; Nanocomposites; Nanocomposites (Materials) Thermomechanical properties; Polypropylene; Percolation; Electric conductivity

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APA (6th Edition):

Chu, C. (2010). Development of polymer nanocomposites for automotive applications. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/37128

Chicago Manual of Style (16th Edition):

Chu, Chun. “Development of polymer nanocomposites for automotive applications.” 2010. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/37128.

MLA Handbook (7th Edition):

Chu, Chun. “Development of polymer nanocomposites for automotive applications.” 2010. Web. 18 Mar 2019.

Vancouver:

Chu C. Development of polymer nanocomposites for automotive applications. [Internet] [Masters thesis]. Georgia Tech; 2010. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/37128.

Council of Science Editors:

Chu C. Development of polymer nanocomposites for automotive applications. [Masters Thesis]. Georgia Tech; 2010. Available from: http://hdl.handle.net/1853/37128


Georgia Tech

3. Alabi, Taiwo Raphael. Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales.

Degree: PhD, Polymer, Textile and Fiber Engineering, 2013, Georgia Tech

 Silicon and silicon-based materials have been investigated for the fabrication of electronic, optoelectronic, solar, and structural/mechanical devices. To enable the continuous use of silicon-based materials… (more)

Subjects/Keywords: Reactive ion etching; Positive tone resist; Silicon nanowires; Block copolymers; Laser interference ablation; Negative tone resist; Silicon compounds; Photoresists; Masks (Electronics); Photopolymerization

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APA (6th Edition):

Alabi, T. R. (2013). Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/51709

Chicago Manual of Style (16th Edition):

Alabi, Taiwo Raphael. “Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales.” 2013. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/51709.

MLA Handbook (7th Edition):

Alabi, Taiwo Raphael. “Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales.” 2013. Web. 18 Mar 2019.

Vancouver:

Alabi TR. Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales. [Internet] [Doctoral dissertation]. Georgia Tech; 2013. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/51709.

Council of Science Editors:

Alabi TR. Design of photomodifiable material systems for maskless patterning of functional ceramic and metallic materials at multiple length scales. [Doctoral Dissertation]. Georgia Tech; 2013. Available from: http://hdl.handle.net/1853/51709


Georgia Tech

4. Yoon, Chan. Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency.

Degree: PhD, Mechanical Engineering, 2010, Georgia Tech

 Electrodes in a solid oxide fuel cell (SOFC) must possess both adequate porosity and electronic conductivity to perform their functions in the cell. They must… (more)

Subjects/Keywords: Performance optimization; Characterization; Modeling; Solid oxide fuel cell; Fabrication; Computational design; Solid oxide fuel cells

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APA (6th Edition):

Yoon, C. (2010). Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/41183

Chicago Manual of Style (16th Edition):

Yoon, Chan. “Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency.” 2010. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/41183.

MLA Handbook (7th Edition):

Yoon, Chan. “Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency.” 2010. Web. 18 Mar 2019.

Vancouver:

Yoon C. Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency. [Internet] [Doctoral dissertation]. Georgia Tech; 2010. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/41183.

Council of Science Editors:

Yoon C. Computational design, fabrication, and characterization of microarchitectured solid oxide fuel cells with improved energy efficiency. [Doctoral Dissertation]. Georgia Tech; 2010. Available from: http://hdl.handle.net/1853/41183


Georgia Tech

5. Basak, Amrita. Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy.

Degree: PhD, Mechanical Engineering, 2017, Georgia Tech

 Nickel-base superalloys are extensively used in the fabrication of gas turbine hot-section components as this class of alloys offers higher yield strength with increase in… (more)

Subjects/Keywords: Nickel-base; Superalloys; Additive manufacturing; Scanning laser epitaxy

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APA (6th Edition):

Basak, A. (2017). Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/59230

Chicago Manual of Style (16th Edition):

Basak, Amrita. “Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy.” 2017. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/59230.

MLA Handbook (7th Edition):

Basak, Amrita. “Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy.” 2017. Web. 18 Mar 2019.

Vancouver:

Basak A. Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy. [Internet] [Doctoral dissertation]. Georgia Tech; 2017. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/59230.

Council of Science Editors:

Basak A. Advanced powder bed fusion-based additive manufacturing with turbine engine hot-section alloys through scanning laser epitaxy. [Doctoral Dissertation]. Georgia Tech; 2017. Available from: http://hdl.handle.net/1853/59230

6. Dunn, Conner. Integrated multi-media platform for hybrid 3D printing.

Degree: MS, Mechanical Engineering, 2017, Georgia Tech

 The advent of Additive Manufacturing, also commonly referred to as 3D Printing, has enabled the rapid production of parts consisting of complex geometries that are… (more)

Subjects/Keywords: 3D Printing; Additive manufacturing

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APA (6th Edition):

Dunn, C. (2017). Integrated multi-media platform for hybrid 3D printing. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/58761

Chicago Manual of Style (16th Edition):

Dunn, Conner. “Integrated multi-media platform for hybrid 3D printing.” 2017. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/58761.

MLA Handbook (7th Edition):

Dunn, Conner. “Integrated multi-media platform for hybrid 3D printing.” 2017. Web. 18 Mar 2019.

Vancouver:

Dunn C. Integrated multi-media platform for hybrid 3D printing. [Internet] [Masters thesis]. Georgia Tech; 2017. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/58761.

Council of Science Editors:

Dunn C. Integrated multi-media platform for hybrid 3D printing. [Masters Thesis]. Georgia Tech; 2017. Available from: http://hdl.handle.net/1853/58761

7. Miller, Christopher W. Set-up and evaluation of laser-driven miniflyer system.

Degree: MS, Mechanical Engineering, 2009, Georgia Tech

 A laser-driven miniflyer system is built in design similar to those at the Los Alamos National Laboratory and Eglin Air Force Base. It is composed… (more)

Subjects/Keywords: PDV; Laser; Miniflyer; Solid state physics; Shock (Mechanics) Measurement; Shock (Mechanics) Measurement Instruments; Solid state physics

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APA (6th Edition):

Miller, C. W. (2009). Set-up and evaluation of laser-driven miniflyer system. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/28184

Chicago Manual of Style (16th Edition):

Miller, Christopher W. “Set-up and evaluation of laser-driven miniflyer system.” 2009. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/28184.

MLA Handbook (7th Edition):

Miller, Christopher W. “Set-up and evaluation of laser-driven miniflyer system.” 2009. Web. 18 Mar 2019.

Vancouver:

Miller CW. Set-up and evaluation of laser-driven miniflyer system. [Internet] [Masters thesis]. Georgia Tech; 2009. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/28184.

Council of Science Editors:

Miller CW. Set-up and evaluation of laser-driven miniflyer system. [Masters Thesis]. Georgia Tech; 2009. Available from: http://hdl.handle.net/1853/28184

8. Gambone, Justin J. Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys.

Degree: MS, Mechanical Engineering, 2012, Georgia Tech

 This thesis involves the development of digital algorithms for the microstructural analysis of metallic deposits produced through the use of Scanning Laser Epitaxy (SLE). SLE… (more)

Subjects/Keywords: Image processing; Design of experiments; Image analysis; Additive manufacturing; SLE; Scanning laser epitaxy; Heat resistant alloys; Epitaxy; Microstructure; Nickel

Georgia Tech, that allows for the creation of three dimensional nickel-based superalloy… 

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APA (6th Edition):

Gambone, J. J. (2012). Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/50134

Chicago Manual of Style (16th Edition):

Gambone, Justin J. “Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys.” 2012. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/50134.

MLA Handbook (7th Edition):

Gambone, Justin J. “Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys.” 2012. Web. 18 Mar 2019.

Vancouver:

Gambone JJ. Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys. [Internet] [Masters thesis]. Georgia Tech; 2012. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/50134.

Council of Science Editors:

Gambone JJ. Quantitative metallography tracking and analysis for the scanning laser epitaxy process applied to CMSX-4 and Rene-80 nickel-based superalloys. [Masters Thesis]. Georgia Tech; 2012. Available from: http://hdl.handle.net/1853/50134

9. Kambly, Kiran. Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP).

Degree: MS, Mechanical Engineering, 2009, Georgia Tech

 Large Area Maskless Photopolymerization (LAMP) is a direct digital manufacturing technology being developed at Georgia Tech to produce ceramic molds for investment casting of turbine… (more)

Subjects/Keywords: Ceramic-filled resin; Photocurable; Fourier transform infrared spectroscopy (FTIR); Large area maskless photopolymerization (LAMP); Polymerization shrinkage; Photopolymerization; Gums and resins Curing; Aerofoils

…is a direct digital manufacturing technology being developed at Georgia Tech to produce… …developed by the direct digital manufacturing (DDM) laboratory at Georgia tech is shown… 

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APA (6th Edition):

Kambly, K. (2009). Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP). (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/31740

Chicago Manual of Style (16th Edition):

Kambly, Kiran. “Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP).” 2009. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/31740.

MLA Handbook (7th Edition):

Kambly, Kiran. “Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP).” 2009. Web. 18 Mar 2019.

Vancouver:

Kambly K. Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP). [Internet] [Masters thesis]. Georgia Tech; 2009. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/31740.

Council of Science Editors:

Kambly K. Characterization of curing kinetics and polymerization shrinkage in ceramic-loaded photocurable resins for large area maskless photopolymerization (LAMP). [Masters Thesis]. Georgia Tech; 2009. Available from: http://hdl.handle.net/1853/31740

10. Conrad, Matthew. Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure.

Degree: MS, Mechanical Engineering, 2011, Georgia Tech

 Large Area Maskless Photopolymerization (LAMP) is a technology being developed to fabricate integrally-cored ceramic molds for the investment casting of turbine airfoils. In LAMP, ultraviolet… (more)

Subjects/Keywords: Screening resolution; Resin sensitivity; Homogenous transition; Stress relief; Critical energy dose; Gums and resins; Photopolymerization; Aerofoils; Precision casting

…the Direct Digital Manufacturing Laboratory at Georgia Tech [4]. 4 Figure 1.4… …Laboratory at Georgia Tech [4]. 4 All components of the maskless optical imaging system… 

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APA (6th Edition):

Conrad, M. (2011). Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/45965

Chicago Manual of Style (16th Edition):

Conrad, Matthew. “Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure.” 2011. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/45965.

MLA Handbook (7th Edition):

Conrad, Matthew. “Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure.” 2011. Web. 18 Mar 2019.

Vancouver:

Conrad M. Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure. [Internet] [Masters thesis]. Georgia Tech; 2011. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/45965.

Council of Science Editors:

Conrad M. Experimental investigations and theoretical modeling of large area maskless photopolymerization with grayscale exposure. [Masters Thesis]. Georgia Tech; 2011. Available from: http://hdl.handle.net/1853/45965


Georgia Tech

11. Rudraraju, Anirudh V. Digital data processing and computational design for large area maskless photopolymerization.

Degree: PhD, Mechanical Engineering, 2013, Georgia Tech

 Large Area Maskless Photopolymerization (LAMP) is a novel additive manufacturing technology currently being developed at Georgia Tech in collaboration with the University of Michigan at… (more)

Subjects/Keywords: Additive manufacturing; Direct digital manufacturing; 3D printing; Rapid prototyping

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APA (6th Edition):

Rudraraju, A. V. (2013). Digital data processing and computational design for large area maskless photopolymerization. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/52930

Chicago Manual of Style (16th Edition):

Rudraraju, Anirudh V. “Digital data processing and computational design for large area maskless photopolymerization.” 2013. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/52930.

MLA Handbook (7th Edition):

Rudraraju, Anirudh V. “Digital data processing and computational design for large area maskless photopolymerization.” 2013. Web. 18 Mar 2019.

Vancouver:

Rudraraju AV. Digital data processing and computational design for large area maskless photopolymerization. [Internet] [Doctoral dissertation]. Georgia Tech; 2013. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/52930.

Council of Science Editors:

Rudraraju AV. Digital data processing and computational design for large area maskless photopolymerization. [Doctoral Dissertation]. Georgia Tech; 2013. Available from: http://hdl.handle.net/1853/52930


Georgia Tech

12. Jariwala, Amit Shashikant. Modeling and process planning for exposure controlled projection lithography.

Degree: PhD, Mechanical Engineering, 2013, Georgia Tech

 A novel approach to microfabrication based on stereolithography was presented. This fabrication process is referred to as, ‘Exposure Controlled Projection Lithography’ (ECPL). In the ECPL… (more)

Subjects/Keywords: Stereolithography; Oxygen inhibition; Microlenses; Process planning; Microfabrication; Microlithography; Microstructure; Rapid prototyping

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APA (6th Edition):

Jariwala, A. S. (2013). Modeling and process planning for exposure controlled projection lithography. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/51929

Chicago Manual of Style (16th Edition):

Jariwala, Amit Shashikant. “Modeling and process planning for exposure controlled projection lithography.” 2013. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/51929.

MLA Handbook (7th Edition):

Jariwala, Amit Shashikant. “Modeling and process planning for exposure controlled projection lithography.” 2013. Web. 18 Mar 2019.

Vancouver:

Jariwala AS. Modeling and process planning for exposure controlled projection lithography. [Internet] [Doctoral dissertation]. Georgia Tech; 2013. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/51929.

Council of Science Editors:

Jariwala AS. Modeling and process planning for exposure controlled projection lithography. [Doctoral Dissertation]. Georgia Tech; 2013. Available from: http://hdl.handle.net/1853/51929

13. Eshraghi, Shaun. Additive manufacture of tissue engineering scaffolds for bone and cartilage.

Degree: PhD, Mechanical Engineering, 2015, Georgia Tech

 Bone and cartilage constructs are often plagued with mechanical failure, poor nutrient transport, poor tissue ingrowth, and necrosis of embedded cells. However, advances in computer… (more)

Subjects/Keywords: Additive manufacturing; 3D printing; Rapid prototyping; Biomaterials; Tissue engineering; Scaffolds; Constructs; Bone; Cartilage

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APA (6th Edition):

Eshraghi, S. (2015). Additive manufacture of tissue engineering scaffolds for bone and cartilage. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/54482

Chicago Manual of Style (16th Edition):

Eshraghi, Shaun. “Additive manufacture of tissue engineering scaffolds for bone and cartilage.” 2015. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/54482.

MLA Handbook (7th Edition):

Eshraghi, Shaun. “Additive manufacture of tissue engineering scaffolds for bone and cartilage.” 2015. Web. 18 Mar 2019.

Vancouver:

Eshraghi S. Additive manufacture of tissue engineering scaffolds for bone and cartilage. [Internet] [Doctoral dissertation]. Georgia Tech; 2015. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/54482.

Council of Science Editors:

Eshraghi S. Additive manufacture of tissue engineering scaffolds for bone and cartilage. [Doctoral Dissertation]. Georgia Tech; 2015. Available from: http://hdl.handle.net/1853/54482

14. Acharya, Ranadip. Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components.

Degree: PhD, Mechanical Engineering, 2014, Georgia Tech

 Scanning Laser Epitaxy (SLE) is a new laser-based layer-by-layer generative manufacturing technology being developed in the Direct Digital Manufacturing Laboratory at Georgia Tech. SLE allows… (more)

Subjects/Keywords: Additive manufacturing; Hot-section gas turbine components; Multi-physics modeling; Superalloy; Multivariate statistics

…Manufacturing Laboratory at Georgia Tech. SLE allows creation of geometrically complex three… 

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APA (6th Edition):

Acharya, R. (2014). Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/54294

Chicago Manual of Style (16th Edition):

Acharya, Ranadip. “Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components.” 2014. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/54294.

MLA Handbook (7th Edition):

Acharya, Ranadip. “Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components.” 2014. Web. 18 Mar 2019.

Vancouver:

Acharya R. Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components. [Internet] [Doctoral dissertation]. Georgia Tech; 2014. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/54294.

Council of Science Editors:

Acharya R. Multiphysics modeling and statistical process optimization of the scanning laser epitaxy process applied to additive manufacturing of turbine engine hot-section superalloy components. [Doctoral Dissertation]. Georgia Tech; 2014. Available from: http://hdl.handle.net/1853/54294

15. Li, Bo. Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA).

Degree: PhD, Materials Science and Engineering, 2015, Georgia Tech

 The use of spontaneous self-assembly as a lithography free means to construct well-ordered, often intriguing structures has received much attention for its ease of producing… (more)

Subjects/Keywords: Self-assembly; Nanomaterials; Evaporation

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APA (6th Edition):

Li, B. (2015). Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA). (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/53538

Chicago Manual of Style (16th Edition):

Li, Bo. “Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA).” 2015. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/53538.

MLA Handbook (7th Edition):

Li, Bo. “Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA).” 2015. Web. 18 Mar 2019.

Vancouver:

Li B. Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA). [Internet] [Doctoral dissertation]. Georgia Tech; 2015. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/53538.

Council of Science Editors:

Li B. Crafting ordered structures of nanomaterials via flow-enabled self-assembly (FESA) and controlled evaporative self-assembly (CESA). [Doctoral Dissertation]. Georgia Tech; 2015. Available from: http://hdl.handle.net/1853/53538

16. Karevan, Mehdi. Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites.

Degree: PhD, Mechanical Engineering, 2013, Georgia Tech

 Current technology of polymer nanocomposites (PNC) emphasizes the need for fundamental understanding of the links between manufacturing method and macro-scale properties in order to engineer… (more)

Subjects/Keywords: Interphase; Polymer nanocomposites; Polyamide12; Graphite; Interface

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APA (6th Edition):

Karevan, M. (2013). Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/52916

Chicago Manual of Style (16th Edition):

Karevan, Mehdi. “Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites.” 2013. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/52916.

MLA Handbook (7th Edition):

Karevan, Mehdi. “Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites.” 2013. Web. 18 Mar 2019.

Vancouver:

Karevan M. Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites. [Internet] [Doctoral dissertation]. Georgia Tech; 2013. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/52916.

Council of Science Editors:

Karevan M. Understanding effects of nano-reinforcement-matrix interphase on the elastic response of polymer nanocomposites. [Doctoral Dissertation]. Georgia Tech; 2013. Available from: http://hdl.handle.net/1853/52916

17. Bansal, Rohan. Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys.

Degree: PhD, Mechanical Engineering, 2013, Georgia Tech

 Scanning Laser Epitaxy (SLE) is a new layer-by-layer additive manufacturing process being developed in the Direct Digital Manufacturing Laboratory at Georgia Tech. SLE allows for… (more)

Subjects/Keywords: René-80; CMSX-4; Nickel-base superalloys; Single crystal; SX; Turbine engine repair; Directionally-solidified; DS; Equiaxed; One-step-ahead adaptive control; Mar-M247; Scanning laser epitaxy; SLE; Welding; Epitaxy; Heat resistant alloys; Nickel alloys; Microstructure

…Digital Manufacturing Laboratory at Georgia Tech. SLE allows for the fabrication of three… …at Georgia Tech that that will allow for: a.) the additive repair of damaged turbine… 

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APA · Chicago · MLA · Vancouver · CSE | Export to Zotero / EndNote / Reference Manager

APA (6th Edition):

Bansal, R. (2013). Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/51714

Chicago Manual of Style (16th Edition):

Bansal, Rohan. “Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys.” 2013. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/51714.

MLA Handbook (7th Edition):

Bansal, Rohan. “Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys.” 2013. Web. 18 Mar 2019.

Vancouver:

Bansal R. Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys. [Internet] [Doctoral dissertation]. Georgia Tech; 2013. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/51714.

Council of Science Editors:

Bansal R. Analysis and feedback control of the scanning laser epitaxy process applied to nickel-base superalloys. [Doctoral Dissertation]. Georgia Tech; 2013. Available from: http://hdl.handle.net/1853/51714

18. Wu, Tao. Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization.

Degree: PhD, Mechanical Engineering, 2014, Georgia Tech

 Large Area Maskless Photopolymerization (LAMP) is a disruptive additive manufacturing technology developed in the Direct Digital Manufacturing Laboratory at Georgia Tech. Due to polymerization shrinkage… (more)

Subjects/Keywords: Large area maskless photopolymerization; Residual stress; Crack; Fracture toughness; Cohesive element model

…Direct Digital Manufacturing Laboratory at Georgia Tech. In LAMP, a programmable UV light… …DDM) laboratory at Georgia Tech in collaboration with the University of Michigan and… 

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APA (6th Edition):

Wu, T. (2014). Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/54274

Chicago Manual of Style (16th Edition):

Wu, Tao. “Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization.” 2014. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/54274.

MLA Handbook (7th Edition):

Wu, Tao. “Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization.” 2014. Web. 18 Mar 2019.

Vancouver:

Wu T. Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization. [Internet] [Doctoral dissertation]. Georgia Tech; 2014. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/54274.

Council of Science Editors:

Wu T. Theoretical modeling and experimental characterization of stress and crack development in parts manufactured through large area maskless photopolymerization. [Doctoral Dissertation]. Georgia Tech; 2014. Available from: http://hdl.handle.net/1853/54274

19. Phaneuf, Christopher. Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device.

Degree: PhD, Mechanical Engineering, 2014, Georgia Tech

 The ability to rapidly, sensitively, and accurately detect the presence of a pathogen is a vital capability for first responders in the assessment and treatment… (more)

Subjects/Keywords: Microfluidics; Diagnostics; Optics; Temperature control

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APA (6th Edition):

Phaneuf, C. (2014). Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device. (Doctoral Dissertation). Georgia Tech. Retrieved from http://hdl.handle.net/1853/53068

Chicago Manual of Style (16th Edition):

Phaneuf, Christopher. “Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device.” 2014. Doctoral Dissertation, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/53068.

MLA Handbook (7th Edition):

Phaneuf, Christopher. “Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device.” 2014. Web. 18 Mar 2019.

Vancouver:

Phaneuf C. Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device. [Internet] [Doctoral dissertation]. Georgia Tech; 2014. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/53068.

Council of Science Editors:

Phaneuf C. Infrared laser-mediated polymerase chain reaction in a polymer microfluidic device. [Doctoral Dissertation]. Georgia Tech; 2014. Available from: http://hdl.handle.net/1853/53068


Georgia Tech

20. Cross, Robert. Processing of vertically aligned carbon nanotubes for heat transfer applications.

Degree: MS, Mechanical Engineering, 2008, Georgia Tech

 The development of wide band gap semiconductors for power and RF electronics as well as high power silicon microelectronics has pushed the need for advanced… (more)

Subjects/Keywords: Thermal interface material; Carbon nanotubes; CNT; Thermal resistance; Heat trasfer; Nanotubes; Thermal interface materials; Thermistors; Heat Transmission

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APA · Chicago · MLA · Vancouver · CSE | Export to Zotero / EndNote / Reference Manager

APA (6th Edition):

Cross, R. (2008). Processing of vertically aligned carbon nanotubes for heat transfer applications. (Masters Thesis). Georgia Tech. Retrieved from http://hdl.handle.net/1853/31828

Chicago Manual of Style (16th Edition):

Cross, Robert. “Processing of vertically aligned carbon nanotubes for heat transfer applications.” 2008. Masters Thesis, Georgia Tech. Accessed March 18, 2019. http://hdl.handle.net/1853/31828.

MLA Handbook (7th Edition):

Cross, Robert. “Processing of vertically aligned carbon nanotubes for heat transfer applications.” 2008. Web. 18 Mar 2019.

Vancouver:

Cross R. Processing of vertically aligned carbon nanotubes for heat transfer applications. [Internet] [Masters thesis]. Georgia Tech; 2008. [cited 2019 Mar 18]. Available from: http://hdl.handle.net/1853/31828.

Council of Science Editors:

Cross R. Processing of vertically aligned carbon nanotubes for heat transfer applications. [Masters Thesis]. Georgia Tech; 2008. Available from: http://hdl.handle.net/1853/31828

.