Blending an elemental approach to volume titanium manufacture

Faller, 2001, “The Use of Titanium in Family Automobiles: Current Trends”, JOM, 27, 10.1007/s11837-001-0143-3

Froes, 2004, “Titanium Powder Metallurgy – Automotive and More”, 2004 International Conference on Powder Metallurgy & Particulate Materials, Chicago, 178

Froes, 2004, The Technologies of Titanium Powder Metallurgy, JOM, 46, 10.1007/s11837-004-0252-x

F H (Sam) Froes, V S Moxson, C F Yolton and V A Duz, “Titanium Powder Metallurgy in Aerospace and Automotive Components”, Presented at 2003 International Conference on Powder Metallurgy and Particulate Materials”, Mandalay Bay – Las Vegas, June 8–12, 2003

V S Moxson, V A Duz, F Sun, and F H (Sam) Froes, Optimising Fatigue Performance in Titanium Automotive Components, Presented at 2003 International Conference on Automotive Fatigue Design & Applications, Novi-Michigan, October 28–29, 2003

Moxson, 1992, “Ti-6Al-4V Properties Achieved via Extra Low Chlorine Titanium Powder”, Non-Ferrous Materials Advances in Powder Metallurgy and Particulate Material, 6, 125

Moxson, 1998, “Production and Application of Low Cost Titanium Powder Products”, International Journal of Powder Metallurgy, 34, 45

Metals Handbook, Ninth Edition, Volume 7, Powder Metallurgy 1984

Abkowitz, 1986, Superior Fatigue Properties for Blended Elemental P/M Ti-6Al-4V, JOM, 36, 10.1007/BF03257786

Froes, 1985, Titanium Technology: Present Status and Future Trends, 49

Abkowitz, 1993, PM in Aerospace, Defense and Demanding Applications, 241

Vlad A Duz, V S Moxson, “The Direct Powder Rolling Process for Producing Titanium and Titanium Alloy Foils, Sheets, and Plates”, Presented at Materials Science & Technology 2005 Conference and Exhibition, Pittsburgh, PA September 25–28, 2005

Jane W Adams, Walter N Roy, Vlad A Duz, and V S Moxson, “Low Cost Titanium Components for Armor and Structural Applications”, Presented at 2005 International Titanium Conference and Exhibition, Scottsdale, AR, September 25–27, 2005

Clyne, 1993

Cottrel, 1995, Material Science Technology, v11, 97, 10.1179/mst.1995.11.2.97

1971

Pearson, 1964

Yakusawa, 1999, Journal Japan Institute of Metals, 63, 822, 10.2320/jinstmet1952.63.7_822

Shaffer, 1991, 4

Gu, 1995, Metallurgical Material Transactions, 26A, 1595, 10.1007/BF02647610

Sherif, 2000, Journal of Alloys Compounds, 305, 225, 10.1016/S0925-8388(00)00692-7

US Patent 5,722,037, “Process For Producing Ti/TiC Composite by Hydrocarbon Gas and Ti Powder Reaction, Hyung-Sik Chung, et al., Feb. 24, 1998.

Kaba, et al US Patent 5,534,353, 07/1996

Fully-Dense Discontinuously-Reinforced Titanium Matrix Composites and Method For Manufacturing the Same, Filed on 12/29/2003, Application # 10/748,619

Kolachev, 1992, 349

US Patent 4,731,115, “Titanium Carbide/Titanium Alloy Composite and Process For Powder Metal Cladding”, Stanley Abkowitz, et al, Mar. 15, 1988.

US Patent 4,852,531, “Titanium Poppet Valve”, Stanley Abkowitz, et al, Apr. 1989

US Patent 4,906,430, “Titanium Diboride/Titanium Alloy Metal Matrix Microcomposite Material and Process for Powder Metal Cladding”, Stanley Abkowitz, et al, March 6, 1990

US Patent 4,968,348, “Titanium Diboride/Titanium Alloy Metal Matrix Microcomposite Material and Process for Powder Metal Cladding”, Stanley Abkowitz, et al, November 6, 1990

US Patent 4,987,033, “Impact Resistant Clad Composite Armor And Method For Forming Such Armor”, Stanley Abkowitz, et al, Jan. 22, 1991

US Patent 5,102,451, “Titanium Aluminide/Titanium Alloy Microcomposite Material”, Stanley Abkowitz, et al, Apr. 7, 1992

US Patent 5,897,830, PM Titanium Composite Casting, Stanley Abkowitz, et al, Apr. 27, 1999

US Patent 6,635,098 B2, “Low Cost Feedstock For Titanium Casting, Extrusion and Forging”, Stanley Abkowitz, et al, Oct. 21, 2003

de Castro, 2002, “Discontinuously Reinforced Titanium Matrix Composites for Fusion Applications”, Journal of Nuclear Materials 307–311, 691, 10.1016/S0022-3115(02)00944-3

Fusheng Sun, et al, “Microstructure Analysis of ADMA Ti-6Al-4V Composite Samples”, Reported to ADMA Products, Inc in April 2003

Ivasishin, 2005, “Production of Titanium Alloys and Components by Economic Method of Powder Metallurgy for Wide Industrial Applications”, Science and Innovations, Publication of Ukrainian Academy of Science of Ukraine, 1, 32

D G Savvakin, I S Bielov, V S Moxson, V A Duz, R Davies, C Lavender; Microstructure and properties of titanium alloys synthesized from hydrogenated titanium powders/Science and Technology of Powder Materials: Synthesis, Consolidation and Properties, TMS 2005, (Eds. L Shaw, E Olevsky et al) pp 151–158

Eremenko, 1961, Chromium and chromium carbide solubility in titanium carbide in solid state, Poroshkovaya Metallurgiya, 4, 31