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Bulk Nanostructured Metals from Severe Plastic Deformation

Ufa State Aviation Technical University ( USATU) celebrated the 70 th anniversary in October 2002 . . Bulk Nanostructured Metals from Severe Plastic Deformation.

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Bulk Nanostructured Metals from Severe Plastic Deformation

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  1. Ufa State Aviation Technical University (USATU) celebrated the 70 th anniversary in October 2002. Bulk Nanostructured Metals from Severe Plastic Deformation Ufa State Aviation Technical University 12, K.Marx str, Ufa, 450000 Bashkortostan RUSSIA Phone/Fax: 7-3472-569693E-mail: root@admin.ugatu.ac.ru

  2. Institute of Physics of Advanced Materials (IPAM) The institute was founded in 1995. The main scientific field includes development and research of nanostructured materials. Our stuff consists of 35 employees. 4 Professors and 5 Ph.Drs are among them. High pressure torsion ECAP die-set TEM

  3. High pressure torsion method a) b) Typical nanostructures of CP Ti (a) and Ti –64 (b).

  4. Equal Channel Angular Pressing ( ECAP) method 350 nm a) b) Typical nanostructures of CP Ti (a) and Ti –64 (b).

  5. 1 st stage – ECAP routes A- without rotation; Bc- clockwise rotation 90°; Ba- counter-clockwise rotation 90°; C- clockwise rotation 180° Image of the samples  20-60 x 100-200 mm

  6. The technological route of cold rolling: (1) - billet; (2) - rolls. 2 nd stage- cold rolling 3 13  16 R 15 11.5-0.2 12 1 2 2 12 1 1 2 2 1 1 The technological route of cold rolling: (1) - billet; (2) - rolls. The technological route of cold rolling: (1) - billet; (2) - rolls.

  7. Production units

  8. N Material Mechanical properties -1, Nf Titanium alloys for structural applications US, MPa YS,MPa , % , % MPa 1 Coarse-grained 460 400 27 60 255 4211 2 Nanostructured 820 800 15 60 400 34504 The important requirement for structural materials is combination of high strength, ductility and fatigue properties. One of the most perspective way here is the fabrication of nanostructures in commercial alloys. High-strength fasteners CP Titanium fatigue limit (-1) and number of cycles to failure (Nf) of fasteners

  9. Material Grain size,m UTS, MPa -1, MPa Nanostructured Titanium for medical applications nano СP Ti 0.15 1010…1040 591 CG Ti-64 10 990…1000 567 Titanium possesses the highest bio-compatibility Problem: to increase strength and fatigue properties Way to achieve: nanostructure formation Compression- distraction apparatus Plate implants Screw implants for traumatology

  10. Cooperation partners of IPAM in the CIS and abroad USA Los Alamos National Laboratory England ARO France Chemical Metallurgy Research Center Germany Institute of Applied Materials Science USA South California University Poland Polytechnical Institute USA Institute of Advanced Treatment Methods USA California University Japan Kyoto University China Institute of Metal Research

  11. Cooperation we are looking for Dr. Vladimir V. Stolyarov                           TEL: +7(3472) 233-422Inst. of Physics of Advanced Materials     FAX: +7(3472) 233-422Ufa State Aviation Technical University12, K. Marx st., Ufa 450000 RUSSIA        E-mail:vlst@mail.rb.ru Potential partners cooperation Industrial partners Industrial application Development of technologies and partnering research work D&R Centers Academic organizations Fundamental investigations

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