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Mechanical Development

Location:
Saginaw, MI
Posted:
June 14, 2015

Contact this candidate

Resume:

Dong-Kyu Kim

Home address : **** ********** ******, *******, **, 48642

Phone : 217-***-****, E-mail address : *********@*****.***

VISA STATUS : Have Permanent Residency in the USA

QUALFICATION: Certified Six Sigma Green Belt Project Leader

EDUCATION

UNIVERSITY OF ILLINOIS Urbana-Champaign, IL

Postdoctor, May 2002 – March 2008

UNIVERSITY OF ILLINOIS Urbana-Champaign, IL

Ph.D. in Materials Science in Ceramic Division, May 2002

KOREA ADVANCED INSTITUTE OF SCIENCE &TECHNOLOGY Seoul, Korea

Master of Materials Science and Engineering, Feb.1991

PUSAN NATIONAL UNIVERSITY Pusan, Korea

Bachelor of Ceramic Science and Engineering, Feb.1987

EXPERIENCES

THE DOW CHEMICAL COMPANUY (Core R& D) Midland, MI

Research Scientist (June 2010 – Present)

Synthesis of nano-sized metal sulfides/oxides catalysts by hdyro(solvo) thermal

synthesis method using mixed solvents

Development of high yield and high brightness phosphor material for LED

application

Synthesis of SiO2 (25 nm) coated nano-sized TiO2 particles(_250 nm) for next

generation high-hiding power pigment application

Development and optimization of attrition resistant SiO2-MgO catalysis support after

incorporation of Al2O3 needle, prism, and platelets synthesized from solution route

Development of fire resistant geopolymer – wood chip composite for fire resistant

ceiling tile application

Development of acicular mullite composite for an application as diesel particular

filter

Development of high-insulating polyurethane – geopolymer composite

GEMESIS CORPORATION Sarasota, FL

Ceramic Research Scientist (April 2008 – May 2010)

High-pressure (5-6GPa) / high-temperature synthesis of gem quality yellow diamond

Optimization of ceramic parts in core components for high-pressure diamond growth

In-house fabrication and property improvement of ceramic components

KEANNE TECH. LLC Champaign, IL

Research Scientist (May 2002 - March 2008)

Fabrication of porous geopolymeric composites using water as a foaming agent for

an application as a building insulation material

Fabrication and characterization of geopolymer and geopolymeric composites

Development and optimization of factory-scale, continuous, micron- and nano-sized,

oxide, ceramic powder fabrication facility

Development of transparent ceramic armor using as-fabricated spinel (MgAl2O4)

powder by hot pressing technique

Development of fuel cell membrane using geopolymeric materials

UNIVERSITY OF ILLINOIS Urbana-Champaign, IL

Research Assistant, Teaching Assistant, and Post Doctor (1996-2008)

Nano-scaled ceramic coating[LAP/LaP : Pr, or YEO/LaP:Pr] onto micron-sized

ceramic powder [(LAP : Ce, Tb) or YEO (Y2O3 : Eu)] by solution-based process

Nano-scaled ceramic oxide powder synthsis by organic, steric entrapment method

and characterization : Al2O3, 3Al2O3 2SiO2, AlPO4, KAlSi2O6, NiAl2O4, Y3Al5O12,

CeO2, ZrO2, Al2O3-MgAl2O4, Al2O3-mullite, Al2O3-ZrO2-Y3Al2O4, Ca4P2O9…..

Development of high strength, toughness, and hardness multi-phase oxide and

nonoxide ceramic composites by hot pressing/sintering process

Fabrication of laminated ceramic composite with strong matrix and weak interphase

by tape casting : Al2O3/AlPO4, mullite/AlPO4, 3Y-TZP/AlPO4, Al2O3/alumina

platelets, 50% alumina-50% YAG in situ composite/alumina platelets

Design of oxide fibrous monolithic composite by extrusion : mullite/AlPO4,

50% alumina-50% YAG in situ composite/alumina platelets, Al2O3/AlPO4

Synthesis and characterization of 50% alumina-50% YAG in situ composite made

by solution-polymerization method

Synthesis of calcium phosphate materials and development of bio-resolvable fibrous

monolithic textured ceramic composites for the application of bone replacements

Synthesis and characterization of bioceramics : Hydroxyapatite (HA), Tricalcium

phosphate (TCP), Dicalcium phosphate (DCP), and Tetracalcium phosphate (TetCP)

for bone paste and medulary pin application.

Stabilization of high temperature phase form at room temperature for the material

which experiences phase transformation during heating or cooling the material

AGENCY FOR DEFENSE DEVELOPMENT Taejon, Korea

Processing and Development Researcher (1991-1995)

Fabrication of carbon fiber reinforced carbon composite by prepreg, filament

winding, chemical vapor deposition (CVD), and liquid impregnation method for the

application of aircraft brake disks, rocket nozzle, and nose cone

Characterization of wear, mechanical (room temperature and high temperature), and

acetylene torch, thermal ablation properties of carbon/carbon composite

Field testing (small scale or large scale, 1 min large scale testing costs $100,000) of

actual size of rocket nozzle made with carbon/carbon composite

Characterization of the carbon fibers and oxidized PAN fibers (single filament

tensile testing, thermal conductivity, oxidation resistance, SEM, Optical microscopy)

Design and development of ultra high temperature (=3000oC) mechanical testing

machine with graphite heating elements

KOREA ADVANCED INSTITUTE OF SCIENCE & TECHNOLOGY Seoul, Korea

Research Assistant (1989-1991)

Thesis project : “A study on the wear properties of carbon/carbon composite prepared

by CVD (chemical vapor deposition)”

Design and building a low pressure CVD system with Propane as a carbon source

Testing of the wear properties of carbon/carbon composite by pin-on-disk method

TECHNICAL SKILLS

Synthesis of nano structured materials by hydrothermal (solvothermal) synthesis method using mixed solvent

Synthesis of different nano-sized metal sulfides and nano-sized SiO2 coated TiO2

structures by using hydrothermal (solvothermal) method

Effective size reduction of LED applicable phosphor materials by using different techniques to produce higher yield and higher brightness

Usage of different size reduction methods to produce phosphor materials with higher

yield and higher brightness

Fabrication of highly insulating and highly fire resistant geopolymer composites

Fabrication of fire resistant ceiling tile and high thermal insulation composites

Fabrication of acicular mullite composite for diesel particular application

Fabrication of porous, acicular mullite structure from gas phase reaction

Design and improvements of ceramic parts for high-pressure and high-temperature diamond synthesis / Synthesis of gem quality yellow diamond

Understanding and improvement of whole processing of gem-quality diamond

synthesis by high-pressure and high-temperature process

Fabrication and improvement of ceramic parts for diamond synthesis

Fabrication of porous geopolymeric composite using water as a foaming agent for an application as a building insulation material

Fabrication of flyash-based, porous geopolymeric composite

Strengthening of porous geopolymeric composite by addition of polyethylene glycol

or chopped carbon fibers

Characterization of porous geopolymeric composite : SEM, XRD, Density, Porosity,

Compressive strength

Fabricaiton of thin, strong, disc shape geopolymeric composite for a fuel cell

application

Making of fibrous monolithic composite by co-extrusion technique

Design of extrusion formulation, Brabender mixing, viscosity control, molding,

pressing, co-extrusion, CIP, sintering, bending strength, SEM, Optical microscopy

Nano-scaled oxide ceramic powder synthesis by organic, steric entrapment method

Synthesis of single, 2-, 3- and multi-phase ceramic powder by using PVA as an

entrapment agent : Al2O3, mullite, NiAl2O4, Al2O3-MgAl2O4, Al2O3-mullite, Al2O3-

ZrO2-Y3Al2O4, Ca4P2O9…..

Attrition milling, density, XRD, FTIR, specific surface area (BET), particle size

distribution, SEM

Nano-scaled coating on micron-sized powders

Nano-scaled ceramic coating on micron-sized ceramic powder by chemical process

Making of high toughness/strength/hardness multi-phase oxide or nonoxide ceramic composites by Hot pressing technique

Selection of chemically compatible high strength materials, hot pressing, sintering,

mechanical testing, SEM(SE, BSE, EDS), TEM(BF/DF)

Making of laminated composites by Tape Casting method

Design of tape casting formulation, ball milling, de-airing, casting, binder burn-out,

CIP, sintering, bending strength, optical microscopy, SEM(SE, BSE, EDS), TEM

(BF/DF), DTA, TGA, XRD, dilatometry

Fabrication of in situ composite by organic, steric entrapment method

Composite powder synthesis, attrition milling, pressing, CIP, sintering, mechanical

testing, microstructure characterization (XRD, SEM, TEM)

Fabrication of fiber reinforced composite

CVD, liquid phase impregnation, pin-on-disk test, ablation test, tensile strength and

electrical conductivity of single filament fiber, compressive and bending strength

Fabrication of bio-resolvable ceramic composites for the application as bone replacements

Synthesis of calcium phosphate-based biomaterials

Synthesis, characterization, and in vitro testing of porous ceramic composites

FELLOWSHIP AND HONORS

Korean government overseas scholarship (1996-1999)

Korean government scholarship (1989-1991)

PROJECTS INVOLVED

Development of nano-sized metal sulfide catalysis material (1) – Synthesis of high yield/brightness phosphor material (2) – Synthesis of nano-sized SiO2 coated TiO2 pigment particles (3) – Development fire resistant ceiling tile (4) – Development low thermal conductivity polyurethane-geopolymer composite (5) – Development of acicular mulllite composite (6) - Development of aesthetic 3-D insulation panel (7) – Development of attrition resistant catalysis supports (8) : The Dow Chemical Company

“Developments and improvements of ceramic parts in core components for high-

pressure and high-temperature diamond synthesis” “Synthesis of gem quality yellow

diamond” (2008-Present) : Gemesis Cooperation

“Nano-scaled coating on micro-scaled ceramic powders” (2004-2006) : U. of Illinois

at Urbana-Champaign and General Electric

“Development of high strength, hardness, and toughness cutting tool material” (2002-

2004) : U. of Illinois at Urbana-Champaign and Kennametal Inc..

“Development of sintered fibrous monolithic composites”, DOE project (1998-2000)

: U. of Illinois at Urbana-Champaign, Argonne National Laboratory, UC at Santa-

Barbara, U. of Missouri, U. of Texas at Austin

“Development of carbon/carbon composite brake disks for F-16 Aircraft”,

ADD project (1991-1995) : ADD KAIST, RIST, DAEWOO, Hanyang University

PUBLICATIONS

A. Theses

[1] Ph.D. thesis, Advisor : Prof. W. M. Kriven

- Title : Design of Sintered, Tough, Oxide Laminate and Fibrous Monolithic

Composites

- Date : 05/12/2002.

- University : University of Illinois at Urbana-Champaign

[2] Master thesis, Advisor : Prof. Jae-Young Lee

- Title : A Study on the Wear Properties of Carbon/Carbon Composite Prepared by

CVD (Chemical Vapor Deposition)

- Date : 02/23/1991

- University : Korea Advanced Institute of Science and Technology

B. Papers

[1] P. Sarin, P. E. Driemeyer, R. P. Haggerty, D. K. Kim, J. L. Bell, Z. D. Apostolov, and W. M. Kriven, “In-situ Studies of Oxidation of ZrB2 and ZrB2-SiC Composite at High Temperature,” submitted to J. Eur. Ceram. Soc., (Nov/2009)

[2] D. K. Kim and W. M. Kriven, “Processing and Characterization of Multi-Phase Ceramic Composites, Part I : Duplex Composites Formed In-Situ,” J. Am. Ceram. Soc., 91 [3] 784 - 792 (2008)

[3] D. K. Kim and W. M. Kriven, “Processing and Characterization of Multi-Phase Ceramic Composites, Part II : Triplex Composites with A Wide Sintering Temperature Range,” J. Am. Ceram. Soc., 91 [3] 793 - 798 (2008)

[4] D. K. Kim and W. M. Kriven, “Processing and Characterization of Multi-Phase Ceramic Composites, Part III : Strong, Hard and Tough, High Temperature Stable, Quadruplex and Quintuplex Composites,” J. Am. Ceram. Soc., 91 [3] 799 - 805 (2008)

[5] R. P. Dillon, D. K. Kim, J. E. Trujillo, W. M. Kriven, and M. L. Mecartney, “Creep Characteristics of Alumina, Nickel Aluminate Spinel, and Zirconia Composites,” J. Mater. Res., 23 [2] 556-564 (2008)

[6] D. K. Kim, N. Smith, L. Lee, J. Farner, and W. M. Kriven, “Fibrous Monolithic, Calcium Phosphate Composite for Controlled Bone Growth,” submitted to J. Am. Ceram. Soc.

[7] D. Jia, D. K. Kim, and W. M. Kriven, “Sintering Behavior of Gehlenite Part I : Self-Forming, Macro-/Mesoporous Gehlenite – Pore-Forming Mechanism, Microstructure, Mechanical Properties,” J. Am. Ceram. Soc., 90 [14] 1760 - 1773 (2007)

[8] D. K. Kim and W. M. Kriven, "Oxide Laminated Composites with Aluminum Phosphate (AlPO4) and Alumina Platelets as Crack Deflecting Materials", Composites Part B : Engineering,” 37 [6] 509-514 (2006).

[9] D. K. Kim and W. M. Kriven, "Mullite (3Al2O3 2SiO2) - Aluminum Phosphate (AlPO4), Oxide, Fibrous Monolithic Composites", J. Am. Ceram. Soc., 87 [5] 794 - 803 (2004).

[10] D. K. Kim and W. M. Kriven, "Oxide fibrous monoliths of mullite - AlPO4 and alumina/YAG - alumina platelets", J. Mat. Sci. & Eng. A 380 [1-2] 237 - 244 (2004).

[11] D. K. Kim and W. M. Kriven, "Mullite-Aluminum Phosphate Laminated Composite Fabricated by Tape Casting", J. Am. Ceram. Soc., 86 [11] 1962-64 (2003).

[12] D. K. Kim, P. Sarin, M. Muholla, H. Neon, and W. M. Kriven, “Cerium Phosphate (CePO4) for an Application as a Weak Interphase Material,” in preparation,

[13] D. K. Kim and W. M. Kriven, “Nano-sized Ceramic Particle Coating onto Micron- sized Powders by the Organic, Steric Entrapment Powder Synthesis Method,” in preparation

[14] D. K. Kim, D. Parsons, M. Gordon, and W. M. Kriven, “Alumina coated TiB2 Platelet Composites for the Application of Armor Materials,” in preparation

[15] A. Castillo, D. K. Kim, and W. M. Kriven, “Synthesis of Strong Al2O3-ZrO2 In Situ Composites by the Organic, Steric Entrapment Powder Synthesis Method,” in preparation,

[16] J. Noga, P. Sarin, D. K. Kim, and W. M. Kriven, “Synthesis and Phase Transformation Studies by the High Temperature Synchrotron X-Ray Experiment on the DyVO4,” in preparation.

[17] D. K. Kim, D.W. Keon, and J. Y. Lee, "The Wear Properties of C /C Composites Prepared by Chemical Vapor Deposition", J. of Mater. Sci. Lett., 12 8-10 (1993).

[18] Y. S. Lim, D. K. Kim, I. S. Park, and B. I. Yoon, "Study on the Ablation Structures of Carbon/Phenolic Composites used PAN-based Carbon Fiber", Korean Journal of Materials Research, 4 [3] 339-348 (1994).

[19] D. K. Kim, H. S. Ha, I. S. Park, and B. I. Yoon, "A study on the Effects of High Temperature Heat Treatment on the Physical and Mechanical Properties of Carbon Fiber and Carbon Composites", Korean Journal of Materials Research, 4 [3] 287-294 (1994).

[20] H. S. Ha, D. K. Kim, and B. I. Yoon, "Effects of Carbon Fiber Precursors on the Fabrication and Wear Properties of Carbon/Carbon Composites", Journal of the Korean Society for Composite Materials, 6 [2] 1-9 (1993).

[21] H. S. Ha, D. K. Kim, I. S. Park, Y. S. Lim, and B. I. Yoon, "Effects of the Length of Carbon Fiber on the Wear Properties of Carbon/Carbon Composites", Korean Journal of Materials Research, 3 [3] 292-299 (1993).

[22] J. Y. Lee, D. H. Cho, D. K. Kim, I. S. Park, H. S. Ha, and B. I. Yoon, "A Study on the Carbonization of Oxidized PAN Fiber/Phenolic Composites", Polymer (Korea), 17 [1] 59-66 (1993).

[23] B. I. Yoon, D. H. Cho, H. S. Ha, J. Y. Lee, I. S. Park, and D. K. Kim, "Effect of Geometrical Types of Carbon Fibers on Microstructures, Physical Properties and Wear Behaviors of Carbon/Carbon Composites", Journal of the Korean Society for Composite Materials, 5 [3] 73-83 (1992).

C. Proceedings

[1] D. K. Kim, J. Bell, D. Jia, W. M. Kriven, and V. Kelsey, “Concepts for Energy Absorption and Dissipation in Ceramic Armor,” Ceram. Eng. and Sci. Proc., In Press, (2007).

[2] R. Jassen, S. Nagel-Heyer, C. Goepfert, R. Pörtner, D. Toykan, O. Krummhauer, M. Morlock, P. Adamietz, N. M. Meenen, W. M. Kriven, D. K. Kim, A. Tampieri, and G. Gelotti, “Calcium Phosphate Ceramics as Substrate for Cartilage Cultivation,” Ceram. Eng. and Sci. Proc., 25 [4] 523 – 528 (2004).

[3] D. K. Kim, J. L. Shull, and W. M. Kriven, "The preparation and characterization of alumina-leucite composites", Ceramic Transaction, 103 63-73 (2000).

[4] W. M. Kriven, S. J. Lee, M. A. Gulgun, M. H. Ngugen, and D. K. Kim,"Synthesis of oxide powders via polymeric steric entrapment (invited review paper)", Ceramic Transaction, 108 99-110 (2000).

[5] D. K. Kim, Y. S. Lim, H. S. Ha, and B. I. Yoon, "A Study of the effects of high temp. heat treatment on the properties of OXI-PAN fiber", Proceeding of Autumn of the Korean Society for Composite Materials, pp. 74-76, November, 1994.

[6] I. S. Park, D. K. Kim, Y. S. Lim, and B. I. Yoon, "The effect of multidirectional carbon/carbon composites on the ablation property", Proceeding of Autumn of the Korean Society for Composite Materials, pp. 77-81, November, 1994.

[7] I. S. Park, D. K. Kim, and B. I. Yoon, "A study on the effects of high temp. heat treatment on the physical and mechanical properties of carbon composites", Proceeding of Spring of the Korean Society for Composite Materials, pp. 40-42, May, 1993.

[8] D. K. Kim, I. S. Park, Y. S. Lim, and B. I. Yoon, "The changes of friction and wear properties of carbon/carbon composites by the length and heat treatment of carbon fiber", Proceeding of Spring of the Korean Society for Composite Materials, pp. 36-39, May, 1993.

[9] H. S. Ha, D. K. Kim, and B. I. Yoon, "A study on the effects of carbon fibers on the wear properties of carbon/carbon composites", Proceeding of Autumn of the Korean Society for Composite Materials, pp. 28-33, November, 1992.

[10] I. S. Park, D. K. Kim, D. H. Cho, and B. I. Yoon, "The effect of the orientation of carbon fiber on the friction and wear properties of carbon/carbon composites", Proceeding of Spring of the Korean Society for Composite Materials, pp. 87-88, May, 1992.

[11] J. Y. Lee, D. K. Kim, D. H. Cho, and B. I. Yoon, "A Study on the co-carbonization of OXI-PAN/phenolic composites", Proceeding of Autumn of the Korean Society for Composite Materials, November, 1991.

[12] H. S. Ha, D. K. Kim, and B. I. Yoon, "The effects of geometrical types of carbon fibers on the physical properties and microstructure of carbon/carbon composites", Proceeding of Autumn of the Korean Society for Composite Materials, November, 1991.

D. Patents : 6 patents were filed or published

[1] 3 patents were filed from the Dow Chemical Company

[2] 1 patent is filing from the Keanne Tech. LLC

[3] H. S. Ha, D. K. Kim, I. S. Park, B. I. Yoon, "The fabrication method of chopped fiber molding compound for carbon/carbon composites", No. 93-24656.

[4] D. K. Kim, H. S. Ha, I. S. Park, J. Y. Lee, Y. S. Lim, D. H. Cho, and B. I. Yoon, "The fabrication method of carbon fiber composties", No. 92-12008.

E. Presentations

[1] D. K. Kim and W. M. Kriven, “High Hardness, Strength, and Toughness, Multicomponent Ceramic Composite,” Presented at 30th International cocoa Beach Conference on Advanced Ceramics and Composites, held at Cocoa Beach, Florida, on Jan 22rd – 27th, 2006.

[2] M Gordon, D. K. Kim, D. S. Parsons, W. M. Kriven, “Hot Pressed Al2O3-TiB2 Ceramic Armor Composite made from Al2O3 Coated TiB2 Platelets,” Presented at 30th International cocoa Beach Conference on Advanced Ceramics and Composites, held at Cocoa Beach, Florida, on Jan 22rd – 27th, 2006.

[3] A. Castillo, W. M. Kriven, and D. K. Kim, “Synthesis of Multi-Component Ceramic Composites via Organic-Inorganic Solution Method,” Presented at 30th International cocoa Beach Conference on Advanced Ceramics and Composites, held at Cocoa Beach, Florida, on Jan 22rd – 27th, 2006.

[4] M. Gordon, P. Sarin, D. K. Kim, and W. M. Kriven, “In Situ High Temperature Synthrotron X-Ray Diffraction Studies of Pollucite (CsAlSiO6) and Pollucite-Based Compounds,” Presented at 30th International cocoa Beach Conference on Advanced Ceramics and Composites, held at Cocoa Beach, Florida, on Jan 22rd – 27th, 2006.

[5] D. K. Kim and W. M. Kriven, “Multicomponent, Strong Ceramic Composites made by Hot Pressing,” Presented at 29th International cocoa Beach Conference on Advanced Ceramics and Composites, held at Cocoa Beach, Florida, on Jan 23rd – 28th, 2005.

[6] W. M. Kriven and D. K. Kim, “Composites of duplex, triplex, and quadruplex microstructures (Invited talk),” Presented at 106th Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 19th-22th, 2004.

[7] D. K. Kim and W. M. Kriven, “Synthesis and characterization of oxide, 3- and 4-component ceramic composites,” Presented at 106th Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 19th-22th, 2004.

[8] R. Jassen, S. Nagel-Heyer, C. Goepfert, R. Pörtner, D. Toykan, O. Krummhauer, M. Morlock, P. Adamietz, N. M. Meenen, W. M. Kriven, D. K. Kim, A. Tampieri, and G. Gelotti, “Calcium Phosphate Ceramics as Substrate for Cartilage Cultivation,” Presented at 28th Int. Cocoa Beach Conf. And Expo, Cocoa Beach Florida, Jan 26th – 30th 2004.

[9]D. K. Kim and W. M. Kriven, "Toughened, in situ and fibrous monolithic, calcium phosphate bio-ceramic composites", Poster presentation at 105th Annual Meeting and Exposition of the American Ceramic Society, Nashville, Tennessee, April 27th -30th, 2003.

[10] D. K. Kim and W. M. Kriven, "Fibrous monoliths of alumina mullite in situ composite matrix - aluminum phosphate interphase", Presented at 27th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 26th-31st, 2003.

[11] L. F. Siah, D. K. Kim, and W. M. Kriven, "In situ, high temperature phase transformation in YNbO4", Presented at 27th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 26th-31st, 2003.

[12]D. K. Kim and W. M. Kriven, "Fabrication of bioresorbable bone implants with fibrous monolithic texture", Presented at 27th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 26th-31st, 2003.

[13] D. K. Kim and W. M. Kriven, "Functional oxide fibrous monolithic composites made by a co-extrusion technique", Presented at 104th Annual Meeting and Exposition of the American Ceramic Society, St. Lewis, Missouri, April 28th-May 1st, 2002.

[14] S. J. Kim, D. K. Kim, and W. M. Kriven, "Fabrication of bioresorbable bone implants with the fibrous monolithic texture", Presented at 104th Annual Meeting and Exposition of the American Ceramic Society, St. Lewis, Missouri, April 28th-May 1st, 2002.

[15] D. K. Kim and W. M. Kriven, "Alumina-mullite in situ composites made by the steric entrapment method", Presented at 27th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 13th-18th, 2002.

[16] D. K. Kim and W. M. Kriven, "Effects of microstructural architecture on the properties of oxide fibrous monolithic composites", Presented at 103rd Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 22th-25th, 2001.

[17] W. M. Kriven and D. K. Kim, "Design of oxide laminates and fibrous monolithic composites (Invited talk)", Presented at 103rd Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 22th-25th, 2001.

[18] D. K. Kim and W. M. Kriven, "Oxide fibrous monolithic composites with aluminum phosphate and alumina platelet interphases", Presented at 25th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 21st-26th, 2001.

[19] D. K. Kim and W. M. Kriven, "The design of tough fibrous monolithic composites", Presented at 102nd Annual Meeting and Exposition of the American Ceramic Society, St. Lewis, Missouri, April 30th-May 3rd, 2000.

[20] D. K. Kim and W. M. Kriven, "Oxide laminates with weak and porous aluminum phosphate-based interphases", Presented at 24th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 23rd-28th, 2000.

[21] W. M. Kriven, S. J. Lee, and D. K. Kim, "Oxide fibrous monoliths based on porous alumina-platelet interphase", Presented at 24th Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 23rd-28th, 2000.

[22] D. K. Kim, J. L. Shull, and W. M. Kriven, "An alumina-leucite composite for fibrous monoliths", Presented at 101st Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 25th-28th, 1999.

[23] W. M. Kriven, S, J, Lee, M. A. Gulgun, M. Nguyen, and D. K. Kim, "Synthesis of oxide powders via polymeric steric entrapment (Invited talk)", Presented at 101st Annual Meeting and Exposition of the American Ceramic Society, Indianapolis, Indiana, April 25th-28th, 1999.

[24] D. K. Kim, J. L. Shull, and W. M. Kriven"An alumina-leucite composite for fibrous monoliths", Presented at 23rd Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, Cocoa Beach, Florida, Jan 24th-29th, 1999.

F. Agency for Defense Development Internal Reports

[1] D. K. Kim, I. S. Park, H. S. Ha, and B. I. Yoon, "A study on the changes of material properties of OXI-PAN with high temp. heat treatment", ATRC-411-940965, 4th team 3rd DMMR ATRC, December, 1994.

[2] H. S. Ha, D. K. Kim, and B. I. Yoon, "A development of new matrix precursor for carbon/carbon composites (I)", ATRC-411-940966, 4th team 3rd DMMR ATRC, December, 1994.

[3] I. S. Park, D. K. Kim, Y. S. Lim, and B. I. Yoon, "A development of light weight hybrid ballistic composies (I)", ATRC-411-940967, 4th team 3rd DMMR ATRC, December, 1994.

[4] D. K. Kim, Y. S. Lim, and B. I. Yoon, "A study on the effects of fillers on the mechanical and physical properties of carbon composites", ATRC-411-93987, 4th team 3rd DMMR ATRC, December, 1993.

[5] Y. S. Lim, D. K. Kim, I. S. Park, and B. I. Yoon, "A study on the thermal conductivity of carbon/carbon composites", ATRC-411-93989, 4th team 3rd DMMR ATRC, December, 1993.

[6] I. S. Park, D. K. Kim, Y. S. Lim, and B. I. Yoon, "State of the art of the design of solid rocket motor nozzles", ATRC-411-93990, 4th team 3rd DMMR ATRC, December, 1993.

[7] Y. S. Lim, D. K. Kim, I. S. Park, and B. I. Yoon, "Crystallinity changes of carbon fibers by graphitization for carbon/carbon composites", ATRC-411-93984, 4th team 3rd DMMR ATRC, August, 1993.

[8] Y. S. Lim, I. S. Park, D. K. Kim and B. I. Yoon, "Manufacturing processes of advanced carbon/carbon composites for solid rocket motor", ATRC-511-93173, 4th team 3rd DMMR ATRC, March, 1993.

[9] H. S. Ha, D. K. Kim, D. H. Cho, and B. I. Yoon, "Development of carbon/carbon brake disk (I) - A study on the domestic raw materials", ATRC-411-92712, 4th team 3rd DMMR ATRC, December, 1992.

[10] D. K. Kim, H. S. Ha, Y. S. Lim, and B. I. Yoon, "A study on the mechanical properties of carbon fibers and carbon/carbon composites", ATRC-411-92716, 4th team 3rd DMMR ATRC, December, 1992.

[11] B. I. Yoon, D. H. Cho, Y. S. Lim, D. K. Kim, H. S. Ha, J. Y. Lee, and I. S. Park, "The State of the Art of Research and Development of Carbon/Carbon Composites and Their Applications(II)", ATRC-411-92437, 4th team 3rd DMMR ATRC, December, 1992.

[12] D. K. Kim, I. S. Park, J. Y. Lee, H. S. Ha, D. H. Cho, and B. I. Yoon, "The localization of the materials for carbon/carbon composites (I)", MRDD-411-91622, 4th Div. MARD, December, 1991.

[13] B. I. Yoon, D. H. Cho, H. S. Ha, J. Y. Lee, I. S. Park, and D. K. Kim, "The state of the art of research and development of carbon/carbon composites and their applications (I)", MRDD-411-91621, 4th Div. MARD, December, 1991.

[14] I. S. Park, D. K. Kim, J. Y. Lee, H. S. Ha, D. H. Cho, and B. I. Yoon, "Studies on the friction/wear properties of aircraft brake disks", MRDD-411-91623, 4th Div. MARD, December, 1991.



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