TY - JOUR UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089795642&doi=10.1016%2fj.ijnaoe.2020.07.002&partnerID=40&md5=87503d9d603b88763c9061a976aace4e A1 - Kim, D.K. A1 - Lim, H.L. A1 - Cho, N.-K. JF - International Journal of Naval Architecture and Ocean Engineering VL - 12 Y1 - 2020/// N2 - In this study (Part II), the empirical formulation of corrosion model of a ship's ballast tank was developed to predict nonlinear time-dependent corrosion wastage based on the advanced data processing technique proposed by Part I. The detail on how to propose generalised mathematical formulation of corrosion model was precisely documented in the previous paper (Part I). The statistical scatter of corrosion data at any exposure time was investigated by the refined method and formulated based on a 2-parameter Weibull distribution which selected the best fit PDF. Throughout the nine (9) steps, empirical formulation of the ship's seawater ballast tank was successfully proposed and four (4) key step results were also obtained. The proposed method in Part I was verified and confirmed by this application of seawater ballast tank, thus making it possible to predict accurate behaviours of nonlinear time-dependent corrosion. Developed procedures and obtained corrosion damage model for ship's seawater ballast tank can be used for development of engineering software. © 2020 Society of Naval Architects of Korea KW - Ballast (railroad track); Ballast tanks; Corrosive effects; Data handling; Forecasting; Offshore oil well production; Weibull distribution KW - Advanced data processing; Corrosion damage; Corrosion modeling; Corrosion wastage; Engineering software; Mathematical formulation; Ship's ballast tank; Statistical scatter KW - Seawater corrosion ID - scholars13786 EP - 656 SN - 20926782 PB - Society of Naval Architects of Korea N1 - cited By 16 SP - 645 TI - An advanced technique to predict time-dependent corrosion damage of onshore, offshore, nearshore and ship structures: Part II = Application to the ship's ballast tank AV - none ER -