International Journal of Solid State Materials

Open Access  Subscription Access

ABSTRACT
Corrosion and contamination of hard disc in computer is the study about effects of exogenous as well as indigenous contaminations, hydration and reactions by exposure to environment. Corrosion control in electronics concerning various protection methods have been an important field of design. Increase of packaging density of electronics has resulted in an increase in sensitivity to corrosive effects of environment. This has presented evaluation methods for corrosive effect of environment, various types of corrosion mechanisms and protection methods.

Keywords: Alloy, cobalt, computer, digital evidence, electrochemical, garbage collection, hard disc, hydration, magnetics, self-contamination, solid-state drive, thin film

Cite this Article: Goswami B., Dasgupta A., Gupta R.N. Corrosion and Contamination of Hard Disc in Computer. International Journal of Solid State Materials. 2019; 5(1): 15–30p.

Risto Hienonen & Reima Lahtinen; Corrosion and climatic effects in electronics; VTT PUBLICATIONS; Book; 626. ESPOO 2007.

Chao Gao; Corrosion evaluation of cobalt based magnetic films using various techniques; Material Research Innovations; 1 (4) (1998) 238–242.

Graeme B. Bell and Richard Boddington; Solid State Drives: The Beginning of the End for Current Practice in Digital Forensic Recovery?; Journal of Digital Forensics, Security and Law, 5 (3) (2010) 1-20.

Randy Schueller; Creep corrosion on lead free printed circuit boards in high sulpher environments; Published in SMTA Int’l Proceedings, Orlando, FL, [Proc. Conf.]; Oct. 2007.

Norikazu Namiki; Akihiro Komtasu and Keiji Watanabe; Naoki Kagi, Surface corrosion of HDD media and subsidiary particle formation due to SO2 gas adsorption; National Institute of Public Health; Journal of the IEST; 50 (2) (2007) 38-51.

Kunigahalli L. Vasanth; Marcia Golub, Herman Pandana and Romel Gomez; Effect of Vapor Phase Corrosion Inhibitor (VCI) on the Reliability of Thin Film Inductive Magnetic Recording Headshttps: //www.researchgate.net/publication/237304224_Effect_of_Vapor_Phase_Corrosion_Inhibitor_VCI_on_the_Reliability_of_Thin_Film_Inductive_Magnetic_Recording_Heads [accessed Jun 16 2018].

Ryouji Kobayashi; Makoto Isozaki; Kazuhiro Kusakawa; HDI Technology for Perpendicular Magnetic Recording Media; Fuji Electric Device Technology Co., Ltd.; Vol. 57 No. 2;

Seamus Ross and Ann Gow; Digital Archaeology: Rescuing Neglected and Damaged Data Resources; Humanities Advanced Technology and Information Institute (HATII) University of Glasgow; Book; February 1999; http://www.hatii.arts.gla.ac.uk/

B. Tomcika, T. Osipowiczb, J.Y. Leec; Diamond-like ®lm as a corrosion protective layer on the hard disk ; Thin Solid Films; 360 (2000) 173-180.

R. Nagrajan; Survey of cleaning and cleanness measurement in disk drive manufacture, Precision cleaning magazine; February, 1997; 13-22.

Paul Williams; Predicting Archival Life of Removable Hard Disk Drives; ProStor Systems, Inc.; Boulder, CO., USA / David S. H. Rosenthal; Stanford University Libraries; Stanford, CA., USA / Mema Roussopoulos; Institute of Computer Science, FORTH, Greece / Steve Georgis; ProStor Systems, Inc.; Boulder, CO., USA.