A tough, malleable, iron-based alloy containing up to, but no more than, two percent carbon and often other metals. It is used in medicine and dentistry in implants and instrumentation.
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Networked: 35 relevant articles (0 outcomes, 4 trials/studies)

Bio-Agent Context: Research Results


1. Behera, C K: 2 articles (07/2014 - 02/2014)
2. Talha, Mohd: 2 articles (07/2014 - 02/2014)
3. Sinha, O P: 2 articles (07/2014 - 02/2014)
4. Chen, Jie: 1 article (01/2015)
5. Wang, Ling-Ling: 1 article (01/2015)
6. Yang, Li-Ming: 1 article (01/2015)
7. Gu, Yu: 1 article (01/2015)
8. Chen, Bin: 1 article (01/2015)
9. Kumar, Sanjay: 1 article (02/2014)
10. Sun, Yi-Ming: 1 article (01/2014)

Related Diseases

1. Fatigue
2. Allergic Contact Dermatitis
3. Contact Dermatitis (Eczema, Contact)
4. Parkinson Disease (Parkinson's Disease)
5. Dislocations
02/27/2013 - "Cr is a critical alloying element in ferritic steels and its effect on the dislocation core structure of α-Fe is examined computationally using a quantum mechanics/molecular mechanics method. "
11/01/2012 - "The effects of heavy-ion irradiation on dislocation processes in stainless steels were investigated using in situ irradiation and deformation in the transmission electron microscope as well as post mortem electron tomography to retrieve information on the three-dimensional dislocation state. "
11/06/2013 - "Stainless steels found in real-world applications usually have some C content in the base Fe-Cr alloy, resulting in hard and dislocation-pinning carbides-Fe3C (cementite) and Cr23C6-being present in the finished steel product. "
11/02/2010 - "Finally, it is shown that local stresses at a coherent precipitate-matrix interface can activate dislocation motion at low temperatures, thus improving the fracture toughness of bulk alloys such as steels at cryogenic temperatures. "
02/01/2010 - "The concomitant fundamental process of formation of carbohydride-like and other segregation nanostructures at dislocations (with the segregation capacity 1 to 1.5 orders of magnitude greater than in the widely used Cottrell 'atmosphere' model) and grain boundaries is discussed in the context of how these nanostructures affect technological processes (aging, hydrogen embrittlement, stress corrosion damage, and failure) and the physicomechanical properties of the metallic materials (including the technological lifetimes of pipeline steels)."

Related Drugs and Biologics

1. Alloys
2. Nickel
3. Manganese
4. Hydrogen
5. chromium hexavalent ion
6. Stainless Steel (Steel, Stainless)
7. Nitrogen
8. Carbon Monoxide
9. Aluminum
10. Dental Implants (Dental Implant)

Related Therapies and Procedures

1. Electrodes (Electrode)
2. Power Plants