![](/media/com_spauthorarchive/users/4493-Sharma-Anand.jpg)
Dr. Anand Kumar Sharma
Dr. Sharma studierte an der Universität Delhi, die er mit einem Doktortitel in Chemie verließ. Vormalig renommierter Wissenschaftler am URSC/ISRO, Bangalore, Indien. Er hält 16 Patente und war unter anderem Mitglied des External Advisory Committee of World Association of Nuclear Operators (WANO).
Experience: anukampa2003@yahoo.com
![Magnesium Alloys – Part 3 – Types and Designation](/images/2024/06/18/74ccb32d0688ca468b24884f81a3121b_thumbnail.jpg)
Magnesium Alloys – Part 3 – Types and Designation
Magnesium has a hexagonal close-packed (hcp) crystalline structure; it lacks ductility when worke...
![Magnesium: Resources and Production – Part 2 – Occurrence, extraction, electrolytic process and thermal Reduction](/images/2024/06/18/3578fb717ae342b262e29247dad6bb6e_thumbnail.jpg)
Magnesium: Resources and Production – Part 2 – Occurrence, extraction, electrolytic process and thermal Reduction
Magnesium is the ninth most abundant element in the universe by mass. It is plentifully available...
![Magnesium – a versatile metal – Part 1 – The Lightest Structural Metal](/images/2024/06/18/25e4a2ae922ccb01809c978a586ef39b_thumbnail.jpg)
Magnesium – a versatile metal – Part 1 – The Lightest Structural Metal
Magnesium is the lightest structural metal and therefore a dream material for applications where ...
![Chandrayaan-3 and the importance of surface technology for its success](/images/k2/ac1222805909bc9f150fbc840a5fd0df.jpg)
Chandrayaan-3 and the importance of surface technology for its success
Indias moon mission Chandrayaan-3 was launched on the 14th of July 2023 from Satish Dh...
![Surface Modification of Titanium– Final Part 6 – Plasma Electrolytic Oxidation (PFO): Factors Influencing & Composite Coatings](/images/2024/03/13/d68fc968356638fac078690757ce9914_thumbnail.jpg)
Surface Modification of Titanium– Final Part 6 – Plasma Electrolytic Oxidation (PFO): Factors Influencing & Composite Coatings
Multiple factors both intrinsic and extrinsic, influence the process and the nature and propertie...
![Surface Modification of Titanium – Part 5 – Plasma Electrolytic Oxidation – Mechanism & Microstructure](/images/k2/aee46328ba9d7a14b908d59cb326b324.jpg)
Surface Modification of Titanium – Part 5 – Plasma Electrolytic Oxidation – Mechanism & Microstructure
Plasma electrolytic oxidation (PEO) is also known as micro arc oxidation (MAO), electrolytic plas...
![Surface Modification of Titanium - Part 4- Anodizing in Aqueous, Organic and Deep Eutectic Solvents](/images/k2/9392051d1c6437a4aa44d9c49269a7c6.jpg)
Surface Modification of Titanium - Part 4- Anodizing in Aqueous, Organic and Deep Eutectic Solvents
Anodizing is an electrochemical process that converts the surface of a metallic job into a protec...
![Surface Modification of Titanium – Part 3 – Anodizing: Applications, Mechanism, Morphology](/images/k2/68539e09e9c2f4ce0975080a63c70721.jpg)
Surface Modification of Titanium – Part 3 – Anodizing: Applications, Mechanism, Morphology
Anodizing is an electrochemical process that converts the surface of a metallic job into a protec...
![Surface Modification of Titanium – Part 2 – Acid Etching & Electrochemical Polishing](/images/k2/32862d78d3d84b5e017800492fc994da.jpg)