prof Hans-Jörg Fecht

e-mail:
fax: +49-731-5025488
web:
interest(s):

Affiliation:


Ulm University, Institute of Micro and Nanomaterials

address: Albert-Einstein-Allee 47, Ulm, 89081, Germany
phone: +49-731-5025491
fax: +49-731-5025488
web: http://www.uni-ulm.de/in/mnm

Participant:


High Pressure School 1999 (3rd)

began: 1999-09-13
ended: 1999-09-17
Presented:

Participant:


E-MRS Fall Meeting 2003

began: 2003-09-15
ended: 2003-09-11
Presented:

E-MRS Fall Meeting 2003

High Performance Nanoscale Materials and Bulk Metallic Glass

Participant:


Nano2business workshop

began: 2007-02-07
ended: 2007-02-09
Presented:

Nano2business workshop

Materials Development and Examples of TechTransfer

Participant:


E-MRS Fall Meeting 2007

began: 2007-09-17
ended: 2007-11-30
Presented:

Participant:


Warsaw and Karlsruhe Nanotechnology Day

began: 2011-09-22
ended: 2011-09-22
Presented:

Warsaw and Karlsruhe Nanotechnology Day

Mechanical properties of nanomaterials

Participant:


Nano PL 2014

began: 2014-10-15
ended: 2014-10-18
Presented:

Publications:


  1. Diamond- an emerging material for medical and technical applications
  2. High Performance Nanoscale Materials and Bulk Metallic Glass
  3. Markets and Economical Aspects of Nano- and Microtechnology Related Products
  4. Materials Development and Examples of TechTransfer
  5. Mechanical properties of nanomaterials
  6. Mechanical property of nano-TiO2 dispersed Al65Cu20Ti15 amorphous/nanocrystalline matrix bulk composite prepared by mechanical alloying and high pressure sintering
  7. Microstructure of Surface Layers of Raiways After Heavy Exploatation
  8. Obtaining Amorphous and Nanocrystalline Materials by Plastic Deformation and Mechanical Alloying
  9. Petri Dish Generation III
  10. Kinetic and thermodynamic factors leading to dissolution of cementite in pearlitic steel subjected to severe plastic deformation under pressure

  11. Microstructural Evolution in Mechanical Alloying and Hot Pressing of Aluminium and 316 Stainless Steel Powder Blend

  12. Phase transformations in pearlitic steels induced by severe plastic deformation.




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