Advanced Materials Research
Vols. 488-489
Vols. 488-489
Advanced Materials Research
Vol. 487
Vol. 487
Advanced Materials Research
Vol. 486
Vol. 486
Advanced Materials Research
Vol. 485
Vol. 485
Advanced Materials Research
Vols. 482-484
Vols. 482-484
Advanced Materials Research
Vols. 479-481
Vols. 479-481
Advanced Materials Research
Vols. 476-478
Vols. 476-478
Advanced Materials Research
Vols. 472-475
Vols. 472-475
Advanced Materials Research
Vols. 468-471
Vols. 468-471
Advanced Materials Research
Vols. 466-467
Vols. 466-467
Advanced Materials Research
Vol. 465
Vol. 465
Advanced Materials Research
Vols. 463-464
Vols. 463-464
Advanced Materials Research
Vol. 462
Vol. 462
Advanced Materials Research Vols. 476-478
Paper Title Page
Abstract: Once edible fungi are picked, metabolism and inoculating microbes affect the quality of the products badly. This article expounds on mushroom freshness-keeping mechanism and on research progress regarding maturity, after-picking treatment technology, temperatures, and packaging materials that can influence edible fungi storage quality which can serve as a guide to edible fungus freshness-keeping technology research and production practices.
614
Abstract: Product design requires a large amount of standard parts, But standard parts sort is various, In order to avoid duplication of work and Improve the efficiency of design, The establishment of standard parts library is very necessary, it Can reduce the repeated work and the cost. Using the expression and the function of part family, In the basis of searching a lot of material at home and abroad about establishment of standard parts library, combining with knowledge reuse technology, Based on the structural characteristics of the hex nut and assembly requirements, to standard parts matching, parameter-driven, fast assembly in-depth study, establish the standard parts library using parametric feature-based modeling approach, and provide fast assembly tool set, achieving standard parts intelligent assembly.
620
Abstract: Aiming at the disadvantages of traditional process of achieving the RMS requirements, which the less of monitoring points, hardly controlling this process and easily leading to the iterative design, etc. are included. A methodology, Process of Requirement Integrated & Dynamic Espial (PRIDE), for the achievement of equipment RMS requirements was proposed at first, and its framework was given subsequently. Then a set of elements structure of PRIDE, based on the monitoring space model of the overall system, overall process and overall properties (three-A), was built, which lay the foundation for the realization of the PRIDE in achieving equipment RMS requirements. Finally, a certain type of aircraft was taken as the case to verify the feasibility of the monitoring elements structure.
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Abstract: The mechanism of hydrothermal ageing was investigated for T700/ BMI 5428 and T300/QY8911 by studying its glass transition temperature, tensile/compressive properties, changes of surface morphology absorbed in water with 100°C temperature. Results show that the glass transition temperature getting lower with the rate of water absorption. The tensile/compressive strength of composite decreased in the humid and heat environments, although with the identical failure mode.
632
Abstract: γγψγRadiation-Induced grafting of high energy γ-rays onto proton conducting polymer electrolyte membranes (PEMs)-based poly(vinylidene flouride) (PVDF) immersed in 1-Vinylimidazole (VIm) solution have been studied. The different concentrations of VIm from 0.5 to 3.0 M in 1,4-dioxane were prepared. The samples were then exposed to γ-rays from 20 to 100 kGy. The properties of the membranes were characterized based on degree of grafting, spectroscopic study, surface morphology, and X-ray diffraction (XRD) measurement. The degree of grafting (DoG) increased in the PVDF membrane associated with absorbed dose. The results showed that the surface morphology of the membrane observed homogenous when grafting with VIm the after irradiation that compliment with XRD study.
636
Abstract: In this paper a model based on transport equations is proposed to study the weldability of low alloy ferritic steels T/P23 and T/P24. The model was numerically implemented by using the finite volume method (FVM) in an open source computational code to simulate the influence of the heat input, base metal thickness and preheating temperature on the thermal evolution and the cooling rate during the welding process. Meanwhile, it was possible to evaluate qualitatively the microstructure at the heat affected zone (HAZ) of these steels when a single weld bead was deposited on their surface and calculate the maximum hardness reached at this region. A double-ellipsoid heat source model for power density distribution was used in order to obtain a good estimate of the cooling rate and evolution of the fusion zone (FZ). The results are discussed and good agreement between experimental and simulated results was obtained for temperature distribution
642
Abstract: Because the output voltage and current of wind and solar power generation system are nonlinear, PID control has its control of energy storage system to reach the best results. This paper presents a fuzzy control system, which intelligent controlling its energy storage system, and details fuzzy control design process, using Infineon’s XC164 microcontroller for the control of the company's core, designing a wind and solar energy storage system, for fast charging, reliable intelligent control system.
650
Abstract: This paper analyzes failures at diffusion equipments in a solar cell manufacturing. The history was gathered and analyze. This paper starts with prioritizing the frequent failures through Pareto Analysis and starts to discuss potential method to reduce its failure. The Root Cause Analysis with probability ratio was created by the team and they had identified potential Condition Monitoring. This diffusion equipment stores most parameter and process readings that makes the automatic Condition Monitoring possible. The Condition Monitoring on one of the parameter readings was implemented and it has shown a high reduction in that equipment failures.
655
Abstract: The environment-friendly silicone-modified acrylate is made through the emulsion of the polymerization. Research shows that time of organic silicon prepolymerization, quantity of organic silicon graft copolymerization, catalysts and its dosage, dosage of the coupling agent have significantly effect on the acrylate adhesives polymerization process and performance of product. The polysiloxane can resistant to heat and is hydrophobic, breathe freely and feels soft smooth. It can improve the water resistance of the film, and stanning resistance, softness and significant flexibility and wet rubbing fastness and so on.
661
Abstract: In this paper, a type of nanoporous polyhedral oligomeric silisesquioxanes (POSS) containing eight functional groups have been synthesized and mixed with diglycidyl ether of bisphenol A (DGEBA) to form epoxy resin networks with nanostructures. The cured octa(aminophenyl) silsesquioxane (1c-POSS) and DGEBA system inherently possesses higher thermal stability and higher char yield than the control epoxy resins. Furthermore, the dielectric constant of the 1c-POSS/DGEBA material (4.36) is substantially lower than that of the neat epoxy resins (4.64) as a consequence the presence of nanoporous POSS cubes in the epoxy matrix.
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