TY  - JOUR
Y1  - 2018///
VL  - 68
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055050047&doi=10.12989%2fsem.2018.68.2.237&partnerID=40&md5=1a007df8cd7a6c4c4ada9ac26681ef16
A1  - Kim, D.K.
A1  - Ng, W.C.K.
A1  - Hwang, O.
JF  - Structural Engineering and Mechanics
KW  - Deformation; Explosions; Forecasting; Offshore oil well production; Regression analysis; Strain rate
KW  -  Blast walls; Corrugation angles; Design parameters; Early design stages; Empirical formulation; Geometric properties; LS-DYNA simulation; Strain rate effect
KW  -  Structural design
ID  - scholars9869
N2  - This study proposes an empirical formulation to predict the maximum deformation of offshore blast wall structure that is subjected to impact loading caused by hydrocarbon explosion. The blast wall model is assumed to be supported by a simply-supported boundary condition and corrugated panel is modelled. In total, 1,620 cases of LS-DYNA simulations were conducted to predict the maximum deformation of blast wall, and they were then used as input data for the development of the empirical formulation by regression analysis. Stainless steel was employed as materials and the strain rate effect was also taken into account. For the development of empirical formulation, a wide range of parametric studies were conducted by considering the main design parameters for corrugated panel, such as geometric properties (corrugation angle, breadth, height and thickness) and load profiles (peak pressure and time). In the case of the blast profile, idealised triangular shape is assumed. It is expected that the obtained empirical formulation will be useful for structural designers to predict maximum deformation of blast wall installed in offshore topside structures in the early design stage. Copyright © 2018 Techno-Press, Ltd.
IS  - 2
SN  - 12254568
PB  - Techno-Press
EP  - 245
AV  - none
SP  - 237
TI  - An empirical formulation to predict maximum deformation of blast wall under explosion
N1  - cited By 13
ER  -