This study discusses results of an experimental program to determine dust cloud combustion characteristics of 2LiBH(4) + MgH2 binary system in air. The determined parameters of hydrided and partially-dehydrided states of this system include: maximum deflagration pressure rise (P-MAX), maximum rate of pressure rise (dP/dt)(MAX), minimum ignition temperature (T-C), minimum explosible concentration (MEC), minimum ignition energy (MIE), and explosion severity index (K-St). Impact of dust particle size on the measured parameters is evaluated for the partially-dehydrided state. For dust of same mean particle size, results show the hydrided state to be more explosible in air compared to its partially-dehydrided state. Moreover, MIE of the partially-dehydrided mixture is identified in the test with lowest ignition delay time (IDT) and highest dust cloud concentration (DC). Taguchi's mixed-levels design of experiments (DoE) methodology is employed to calculate dust's MIE response surface as a function of DC and IDT. The one-at-a-time effect and interaction effect between DC and IDT on dust MIE are determined. The core insights of this contribution are useful for quantifying risks in mobile and stationary H-2 storage applications, informing H-2 safety standards, and augmenting property databases of H-2 storage materials. Copyright (C) 2014, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.