Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301Implementation of "MSG-3" for Crack Growth Analysis of Aircraft SSI ComponentsImplementation of "MSG-3" for Crack Growth Analysis of Aircraft SSI Components51624ENعلیرضا نکوییJournal Article20151206The main goal of this article is to implement the MSG-3 process in structure field for an SSI component of b747 aircraft. This process is expected toincrease the ease of aircraft maintenance and its safety level. MSG-3 logic took a top-down or consequence of failure approachmeaning that MSG-3 reduces the maintenance cost and upgrades safety. Moreover, it cansignificantly help saving thetime and providing financial benefits for the design approach and the developmentof maintenance programing. In this study, in correspondence with the SLD of MSG-3,an SSI component is selected and itsfatigue crack growth analysis is investigated. The approach of this study is to use the FEM and fractography for the purpose of exploring the loading.Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301Rotor Sizing of Helicopters Using Statistical ApproachRotor Sizing of Helicopters Using Statistical Approach51625ENفرید شاهمیریJournal Article20151206This paper is concerned with the statistical model development issues, necessary for rapid estimation of the rotor sizing for single main rotor helicopters at the preliminary design stage. However, Central Composite Design (CCD) method, simulation-based data collection, linear regression analysis, mathematical modelsdevelopmentand validations through the analysis of variance (ANOVA) were performed as central themes in this approach. The CCD enforced the use of replicated central points and some star points, added to the basic factorial design space, required for constructing the test plan matrix. This matrixwas used to developed mathematical models in the form of quadratic polynomials (second-order), that represented the physical size of rotor as functions of the helicopter gross weight, maximum forward flight speed, main and tail rotor blade number and their interactions.The validations were examined by ANOVA and comparing against data for a general single rotor configuration. Using this approach, improvements in physical sizing of both main and tail rotor of the single rotor were obtained using minimum number of data, provided by CCD test plan.The obtained results of this work support the ongoing researches for the development of rapid prototyping, especially, main and tail rotor sizing of helicopters.Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301Extracting Dynamics Matrix of Alignment Process for a Gimbaled Inertial Navigation System Using Heuristic Dynamic Programming MethodExtracting Dynamics Matrix of Alignment Process for a Gimbaled Inertial Navigation System Using Heuristic Dynamic Programming Method51626ENامیرعلی نیکخواهJournal Article20151206In this paper, with the aim of estimating internal dynamics matrix of a gimbaled Inertial Navigation system (as a discrete Linear system), the discretetime Hamilton-Jacobi-Bellman (HJB) equation for optimal control has been extracted. Heuristic Dynamic Programming algorithm (HDP) for solving equation has been presented and then a neural network approximation for cost function and control input has been extracted to simplify the sloution of HJB. Design process of the optimal controller shows that we do not need to know the system matrix. This important isuue and convergence of the HDP algorithm to the optimal control policy makes possible the estimation of the internal dynamics matrix.Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301Simulation of Pitching and Heaving Airfoil with Oscillation of Flow Boundary ConditionSimulation of Pitching and Heaving Airfoil with Oscillation of Flow Boundary Condition51627ENM.H DjavareshkianA.M. FaghihiJournal Article20151208A pressure based implicit procedure to solve the Euler and Navier-Stokes equation is developed to predict transonic viscous and inviscid flows around the pitching and heaving airfoils with a high reslution scheme. In this process, nonorthogonal and non moving mesh with collocated finite volume formulation are used. In order to simulate pitching or heaving airfoil, oscillation of flow boundary condition is applied. The boundedness criteria for this procedure are determined from Normalized Variable Diagram (NVD) scheme. The procedure incorporates the K-E eddy- viscosity turbulence model. This process is tested for inviscid and turbulent transoinc aerodynamic flows around oscillation airfoil. The results are compared with other existing numerical solutions and with the experimental data. The comparisons show that the resolution quality of the developed algorithm is significant.Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301A Three Stage Terminal Fuzzy Guidance Law for Reentry VehiclesA Three Stage Terminal Fuzzy Guidance Law for Reentry Vehicles51628ENJ. KarimiM. ShadoudJournal Article20151208An advanced guidance law is developed for reentry phase of a reentry vehicle. It can achieve small miss distance and desired impact attitude angle, simultanceously. To meet this requirment a guidance law based on the fuzzy logic approach is developed. It is partitioned into three stages. This guidance law does not require linearization of missile engagement model. Line-of-sight and flight path angle are used to constitute the rule antecedent of the guidance law to shape an appropriate flight trajectory for engagement. Numerical simulation results and comparsion with an existing algorithm demonstrated that the proposed guidance law offers satisfactory and robustness, fulfilling its design goals.Iranian Aerospace SocietyJournal of Aerospace Science and Technology1735-213410120130301Nonlinear Dynamic Modeling and Hysteresis Analysis of Aerospace Hydro - dynamical Control ValvesNonlinear Dynamic Modeling and Hysteresis Analysis of Aerospace Hydro - dynamical Control Valves51629ENعلی جعفرقلیحسن کریمی مزرعه شاهیJournal Article20151208A new procedure for deriving nonlinear mathematical modeling for a specific class of aerospace hydro - mechanical control valves is presented. The effects of friction on the dynamic behavior of these types of valves along with the experimental verifictions are also given. The modeling approach is based on the combination of the following three tasks: decomposition of the valve into simple specific subsystems; derivation of the governing equations of each subsystem; and determination of the unknown parameters and coefficients using dynamic and static tests. Dynamic analysis shows that the presence of friction causes the hysteresis phenomenon in these valves and friction force increment causes an increase in the tracking error. On the other hand, excessive reduction of the friction force causes an instable performance. Therefore, a trade-off between the amount of tracking error and stability margins must be considered.