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991.
Annually, thousands of unprotected pedestrians are killed or suffer serious injuries in accidents with moving vehicles. Numerous
automobile organizations have performed research on pedestrian safety. The European Enhanced Vehicle- Safety Committee (EEVC),
Working Group 17 (WG17) proposed three component subsystem tests to evaluate the friendliness of a vehicle to pedestrians:
the legform to hood test, the upper legform to bonnet leading edge test and the headform to bonnet top test. In assessing
the pedestrian friendliness of a vehicle, the present study adopted the WG17 regulations of the three component subsystem
tests. We herein describe in detail a finite element subsystem model built to analyze the pedestrian friendliness of a vehicle
using LS-DYNA. The first objective of this study was to simulate these three component subsystem impact tests and evaluate
car front aggressiveness. The second objective was to analyze the frontal structures of a vehicle and, based on the simulation
results, identify dangerous areas and provide suggestions for vehicle front design that may decrease pedestrian injuries.
The analysis of these models and the results obtained may be used to help evaluate the pedestrian friendliness of a vehicle
and guide the future development of pedestrian-friendly vehicle technologies. 相似文献
992.
K. -S. Choi S. -H. Jang G. S. Shin H. -M. Kim H. C. Yoon M. E. Forrest P. A. Erickson 《International Journal of Automotive Technology》2010,11(3):429-434
The commercial fuel cell products currently appearing on the market are self-contained fuel cell engines. These engines can
be used for many applications that are presently dominated by internal combustion engines or batteries. Vehicle mounted fuel
cell auxiliary power units have been attracting attention lately. Additionally, there is a market based incentive to use multiple
small fuel cell arrays in place of a single large fuel cell for some applications. Typically, fuel cells are designed to operate
as stand-alone units. This paper investigates the ability of small commercial stacks to operate in common array arrangements.
Although an individual Nexa is able to produce 1500 W, Dual Nexas do not maintain that capability while in array configurations.
With an overall load share ratio of 1.02:1 the series array reliably produced 2900 W of power, while with an overall load
share ratio of 1.09:1 the parallel array reliably produced only 2800 W of power. This study shows that array orientation affects
both system stack net efficiency and individual stack net efficiency. The information gained from this study may be helpful
for fuel cell design and integration. 相似文献
993.
Hydroplaning tires have been frequently simulated using commercial explicit FEM (Finite Element Method) codes. However, these
simulations are slow, and the result of the lift force is so oscillatory that the hydroplaning speed cannot be accurately
determined. Thus, in the author’s previous study, a new methodology using FDM (Finite Difference Method) code and an FE tire
model iteratively was proposed. However, this full iteration method still required a long computation time, especially for
patterned tires. Thus, in this study, the full iteration methodology was modified such that no iteration or only one additional
iteration was needed at each speed. Then, by applying the full iteration method, no iteration method and one iteration method,
the hydroplaning speeds of a straight-grooved tire were determined, and it was noted that the hydroplaning speed obtained
from the one iteration method was almost the same as that obtained from the full iteration method. Moreover, the hydroplaning
speeds of two patterned tires were determined using the one iteration method, and they were compared with the hydroplaning
speeds obtained experimentally. 相似文献
994.
Numerical study of a light-duty diesel engine with a dual-loop EGR system under frequent engine operating conditions using the doe method 总被引:1,自引:0,他引:1
J. Park K. S. Lee S. Song K. M. Chun 《International Journal of Automotive Technology》2010,11(5):617-623
Exhaust gas recirculation (EGR) is an emission control technology that allows for a significant reduction in NOx emissions
from light- and heavy-duty diesel engines. The primary effects of EGR are a lower flame temperature and a lower oxygen concentration
of the working fluid in the combustion chamber. A high pressure loop (HPL) EGR is characterized by a fast response, especially
at lower speeds, but is only applicable if the turbine upstream pressure is sufficiently higher than the boost pressure. On
the contrary, for the low pressure loop (LPL) EGR, a positive differential pressure between the turbine outlet and the compressor
inlet is generally available. However, a LPL EGR is characterized by a slow response, especially at low and moderate speeds.
In this study, of the future types of EGR systems, the dual-loop EGR system (which has the combined features of the high-pressure
loop EGR and the low-pressure loop EGR) was developed and was optimized under five selected operating conditions using a commercial
engine simulation program (GT-POWER) and the DOE method. Finally, significant improvements in the engine exhaust emissions
and performance were obtained by controlling several major variables. 相似文献
995.
A bus rollover is one of the worst vehicle accidents that can occur. Because of the large numbers of passengers, the casualties
in a bus rollover are often high and severe. The compliance with rollover safety standards for buses and coaches is mandated
by law. This paper presents a comparative analysis of the physical meanings of regulation number 66 of the Economic Commission
for Europe (ECE R66) and standard number 220 of the American Federal Motor Vehicle Safety Standards (FMVSS 220). This comparison
was carried out using a LS-DYNA finite-element analysis. After performing a comparative analysis following ECE R66 and FMVSS
220 assessments, the investigation further demonstrated the distortion configuration of the vehicle superstructure through
the absorbed energy and its distribution over the vehicle and in sections of vehicle superstructure as well as the violation
of the passenger compartment under the rollover testing conditions of both ECE R66 and FMVSS 220. Great differences were found
between ECE R66 and FMVSS 220 in distortion configuration, reflecting differences in capability and rollover testing conditions.
These findings provide a means of evaluating bus superstructure strength and provide guidelines useful in the assessment of
regulations applied to the evaluation of bus rollover strength. 相似文献
996.
Design of active suspension and electronic stability program for rollover prevention 总被引:1,自引:0,他引:1
This paper presents a method for the design of a controller for rollover prevention using active suspension and an electronic
stability program (ESP). Active suspension is designed with linear quadratic static output feedback control methodology to
attenuate the effect of lateral acceleration on the roll angle and suspension stroke via control of the suspension stroke
and tire deflection of the vehicle. However, this approach has a drawback in the loss of maneuverability because the active
suspension for rollover prevention produces in vehicles an extreme over-steer characteristic. To overcome this drawback of
the active suspension based method, ESP is designed. Through simulations, the proposed method is shown to be effective in
preventing rollover. 相似文献
997.
The oxidation of unburned hydrocarbons from piston crevices was modeled using a modified one-step reaction equation. This
new one-step oxidation model was developed by modifying the Arrhenius reaction rate coefficients of the conventional one-step
reaction equation. The predictions of the new one-step oxidation model agree well with the results of the detailed chemical
reaction mechanism in terms of the 90% oxidation time of the fuel. The effects of pressure and intermediate species in the
burnt gas on the oxidation rate were also investigated and included as additional multiplying factors in the modification
of the equation. To simulate the oxidation process of unburned hydrocarbons from a piston crevice, a two-dimensional computational
mesh, based on the conventional engine geometry, was constructed with a fine mesh density at the regions of the piston crevice
and cylinder wall. The number of cell layers in the cylinder was controlled according to the piston motion to model the out-flow
of unburned hydrocarbons from the piston crevice during the expansion stroke. The effects of engine operational conditions
on the oxidation rate were examined at several engine speeds and load conditions, and the sensitivity of the oxidation rate
to the piston crevice volume was also evaluated. Finally, the new one-step oxidation model was applied to a three-dimensional
computational mesh that modeled the three-dimensional engine geometry and piston-valve motions to simulate the oxidation of
unburned hydrocarbons in a real engine condition. 相似文献
998.
D. Kim Y. H. Kim S. Gururaja M. Ramulu 《International Journal of Automotive Technology》2010,11(6):849-855
The random direction short Glass Fiber Reinforced Plastics (GFRP) have been prepared by two compression moulding processes,
namely the Preform and Sheet Moulding Compound (SMC) processes. Cutting force analysis and surface characterization are conducted
on the random direction short GFRPs with varying fiber contents (25∼40%). Edge trimming experiments are preformed using carbide
inserts with varing the depth of cut and cutting speed. Machining characteristics of the Preform and SMC processed random
direction short GFRPs are evaluated in terms of cutting forces, surface quality, and tool wear. It is found that composite
primary processing and fiber contents are major contributing factors influencing the cutting force magnitudes and surface
textures. The SMC composites show better surface finish over the Preform composites due to less delamination and fiber pullouts.
Moreover, matrix damage and fiber protrusions at the machined edge are reduced by increasing fiber content in the random direction
short GFRP composites. 相似文献
999.
Z. Gawroński A. Malasiński J. Sawicki 《International Journal of Automotive Technology》2010,11(1):127-131
Recent developments in the aerospace and automotive industries have significantly affected the progress of modern manufacturing technologies, including the heat treatment of gear wheels. This view has been expressed in the works of Gräfen and Edenhofer (1999), Herring and Houghton (1995), Preisser et al. (1998) and Sugiyama et al. (1999). For ecological and economic reasons, however, traditional treatments are still in use. Additionally, the implementation of a new process in the aerospace industry is very difficult due to the safety precautions that are involved in this kind of production. In order to protect the surfaces of components from disadvantageous structural changes related to the hardening process (oxidation, decarburization and carburizing) galvanic copper plating is widely used even though the process is known to be harmful to the environment. On the other hand, as pointed out by Dawes and Cooksey (1965), it is commonly known that the most effective protection of a batch against these undesirable effects is a protective atmosphere applied during the heating. Therefore, the development of a fully controlled and repeatable process of gear wheel heat treatment under a protective atmosphere will reduce the global emission of toxic substances originating from galvanic copper plating and cooper stripping processes, while at the same time providing more effective protection of the parts. 相似文献
1000.
The in-cylinder RGF (residual gas fraction) of internal combustion engines for new combustion concepts, such as CAI (controlled
auto ignition) or HCCI (homogenous charged compression ignition), is a major parameter that affects the combustion characteristics.
Thus, measurement or prediction of the cycle-by-cycle RGF and investigation into the relation between the RGF and the combustion
phenomena are critical issues. However, on-line prediction of the cycle-by-cycle RGF during engine testing is not always practical
due to the requirement of expensive, fast response exhaust-gas analyzers and/or theoretical models that are just too slow
for application. In this study, an on-line model that can predict the RGF of each engine cycle and cylinder during the experiment
in the test cell has been developed. This enhanced model can predict the in-cylinder charge conditions of each engine cycle
during the test in three seconds by using the measured dynamic pressures of the intake, exhaust, and cylinder as the boundary
conditions. A Fortran77 code was generated to solve the 1-D MOC (method of characteristics). This code was linked to Labview
DAQ as a form of DLL (dynamic link library) to obtain three boundary pressures for each cycle. The model was verified at various
speeds and valve timings under the CAI mode by comparing the results with those of the commercial code, GT-Power. 相似文献