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Effects of Maturity Stages on the Nutritive Composition and Silage Quality of Whole Crop Wheat
Xie, Z.L.,Zhang, T.F.,Chen, X.Z.,Li, G.D.,Zhang, J.G. Asian Australasian Association of Animal Productio 2012 Animal Bioscience Vol.25 No.10
The changes in yields and nutritive composition of whole crop wheat (Triticum aestivum L.) during maturation and effects of maturity stage and lactic acid bacteria (LAB) inoculants on the fermentation quality and aerobic stability were investigated under laboratory conditions. Whole crop wheat harvested at three maturation stages: flowering stage, milk stage and dough stage. Two strains of LAB (Lactobacillus plantarum: LAB1, Lactobacillus parafarraqinis: LAB2) were inoculated for wheat ensiling at $1.0{\times}10^5$ colony forming units per gram of fresh forage. The results indicated that wheat had higher dry matter yields at the milk and dough stages. The highest water-soluble carbohydrates content, crude protein yields and relative feed value of wheat were obtained at the milk stage, while contents of crude fiber, neutral detergent fiber and acid detergent fiber were the lowest, compared to the flowering and dough stages. Lactic acid contents of wheat silage significantly decreased with maturity. Inoculating homofermentative LAB1 markedly reduced pH values and ammonia-nitrogen ($NH_3$-N) content (p<0.05) of silages at three maturity stages compared with their corresponding controls. Inoculating heterofermentative LAB2 did not significantly influence pH values, whereas it notably lowered lactic acid and $NH_3$-N content (p<0.05) and effectively improved the aerobic stability of silages. In conclusion, considering both yields and nutritive value, whole crop wheat as forage should be harvested at the milk stage. Inoculating LAB1 improved the fermentation quality, while inoculating LAB2 enhanced the aerobic stability of wheat silages at different maturity stages.
Magnetic and Magneto-Optical Properties of Co-Sputtering FePt Films
J. Gao,B. Ma,C.L. Zha,Q.Y. Jin,S.Y. Wang,Z.Z. Zhang 한국물리학회 2006 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.49 No.5I
FePt thin .lms have been prepared at dierent substrate temperatures by DC magnetron co-sputtering. The .lms change from a disordered fcc structure to a L10 fct structure with temperature. The magnetic and the magneto-optical properties of those FePt .lms have been studied. The dependence of spectral changes on the formation of a chemically-ordered L10structure is observed in the polar magneto-optical Kerr rotation. In the spectra, the ultraviolet peak located in the high-energy range (4.0 { 4.5 eV), which is related to electronic transitions on Pt atomic sites, is observed for all samples. On the contrary, the peak related to transitions on Fe atomic sites, which is located in the low-energy range (1.5 { 2.0 eV), is only observed for highly chemically-ordered samples. Compared with the spectra for the L10 structure of FePt .lms pre- pared by using molecular beam epitaxy, the infrared peak related to Fe sites is shifted to low energy.
R&D Status of High-current Accelerators at IFP
J. J. Deng,J. S. Shi,W. P. Xie,L. W. Zhang,K. Z. Zhang,S. P. Feng,J. Li,M. Wang,Y. He,L. S. Xia,Z. Y. Dai,H. T. Li,L. Wen,S. F. Chen,X. Li,Q. G. Lai,M. H. Xia,Y. C. Guan,S. Y. Song,L. Chen 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.61
High-current accelerators have many important applications in Z-pinches, high-power microwaves, and free electron lasers, imploding liners and radiography and so on. Research activities on Zpinches, imploding liners, radiography at the Institute of Fluid Physics (IFP) are introduced. Several main high-current accelerators developed and being developed at IFP are described, such as the Linear Induction Accelerator X-Ray Facility Upgrade (LIAXFU, 12 MeV, 2.5 kA, 90 ns), the Dragon-I linear induction accelerator (20 MeV, 2.5 kA, 60 ns), and the Primary Test Stand for Z-pinch (PTS, 10 MA, 120 ns). The design of Dragon-II linear induction accelerator (20 MeV, 2.5 kA, 3 × 60 ns) to be built will be presented briefly.
Li, C.J.,Xu, Z.H.,Dong, Z.X.,Shi, S.L.,Zhang, J.G. Asian Australasian Association of Animal Productio 2016 Animal Bioscience Vol.29 No.8
Whole-crop wheat (Triticum aestivum L.) as forage has been extensively used in the world. In this study, the effects of N application rates on the yields, nutritive value and silage quality were investigated. The N application rates were 0, 75, 150, 225, and 300 kg/ha. The research results indicated that the dry matter yield of whole-crop wheat increased significantly with increasing N rate up to 150 kg/ha, and then leveled off. The crude protein content and in vitro dry matter digestibility of whole-crop wheat increased significantly with increasing N up to 225 kg/ha, while they no longer increased at N 300 kg/ha. On the contrary, the content of various fibers tended to decrease with the increase of N application. The content of lactic acid, acetic acid and propionic acid in silages increased with the increase of N rate (p<0.05). The ammonia-N content of silages with higher N application rates (${\geq}225kg/ha$) was significantly higher than that with lower N application rates (${\leq}150kg/ha$). Whole-crop wheat applied with high levels of N accumulated more nitrate-N. In conclusion, taking account of yields, nutritive value, silage quality and safety, the optimum N application to whole-crop wheat should be about 150 kg/ha at the present experiment conditions.
The continuous casting of a semisolid aluminum alloy billet with a multiple magnetic field imposed
Z.F. Zhang,Z.F. Tian,L.K. Shi,J. Xu 한양대학교 세라믹연구소 2006 Journal of Ceramic Processing Research Vol.7 No.2
In order to obtain semi-solid aluminum alloy billets of high quality, an investigation was carried out of imposing multiple magnetic fields from the outside of a cold-crucible copper mold in a continuous casting process. AlSi6Mg2 (wt.%) alloy designed for a semi-solid metal (SSM) process was continuously cast through a submerged entry nozzle under various conditions. By means of optimizing the distribution of multiple magnetic fields in the mold, the effect of multiple magnetic fields on both the meniscus motion and billet quality was examined. The experimental results showed that meniscus disturbance could be controlled efficiently and the surface quality of a semi-solid aluminum alloy billet was improved greatly by imposing multiple magnetic fields, and also a uniformly fine, globular microstructure across the transverse section of the billet was achieved by optimizing the distribution of the multiple magnetic field.
THREE-SPEED TRANSMISSION SYSTEM FOR PURELYELECTRIC VEHICLES
Z. ZHANG,C. ZUO,W. HAO,Y. ZUO,X. L. ZHAO,M. ZHANG 한국자동차공학회 2013 International journal of automotive technology Vol.14 No.5
This paper discusses the necessity of using a transmission system to improve the energy efficiency of purelyelectric vehicles (EVs). The energy efficiency of an electric motor varies at different operating points to meet the output powerdemand. The three gear ratios of a transmission system can maintain the motor speed within a stable region with relativelyhigh energy efficiency, while various vehicle speeds are needed. This work is based on a light EV prototype. The optimizedgear ratios of this transmission result in a considerably reduced energy consumption of 9.3% compared with conventional EVswith single-speed reducers under the condition of the Urban Dynamometer Driving Schedule driving cycle. Thus, thetransmission system is necessary to improve the energy efficiency of EVs.
Intelligent hybrid controlled structures with soil-structure interaction
Zhang, X.Z.,Cheng, F.Y.,Lou, M.L. Techno-Press 2004 Structural Engineering and Mechanics, An Int'l Jou Vol.17 No.3
A hybrid control system is presented for seismic-resistant building structures with and without soil-structure interaction (SSI). The hybrid control is a damper-actuator-bracing control system composed of passive and active controllers. An intelligent algorithm is developed for the hybrid system, in which the passive damper is designed for minor and moderate earthquakes and the active control is designed to activate when the structural response is greater than a given threshold quantity. Thus, the external energy for active controller can be optimally utilized. In the control of a multistory building, the controller placement is determined by evaluating the optimal location index (OLI) calculated from six earthquake sources. In the study, the soil-structure interaction is considered both in frequency domain and time domain analyses. It is found that the interaction can significantly affect the control effectiveness. In the hybrid control algorithm with intelligent strategy, the working stages of passive and active controllers can be different for a building with and without considering SSI. Thus SSI is essential to be included in predicting the response history of a controlled structure.
A fractional approach to the time-temperature dependence of dynamic viscoelastic behavior
Z. L. Li,Y. Qin,B. Sun,C. L. Jia,W. J. Zhang,B. J. Yan,Q. L. Shi 대한기계학회 2019 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.33 No.1
Fractional derivative and WLF equation are effective in describing the dynamic behavior and time-temperature effect of viscoelastic damping materials, respectively. These approaches have essentially evolved from the viscoelastic constitutive behavior. Based on such intrinsic relation, a fractional time-temperature superposition principle model (FTTSPM) that integrates the fractional constitutive relation and WLF equation was proposed. The parameters of this model were determined by performing tensile and DMA tests, and the master curves at 5 °C constructed by FTTSPM and WLF equation were compared. The theoretical prediction over the extended frequency span as the master curves was made by using the fractional standard linear solid model (FSLSM) to validate FTTSPM. The numerical results show that FTTSPM conforms to the time-temperature superposition principle. The parameters α and B¢ in this model denote the impact of the material and environment on the shifted factor, respectively. For the storage and loss modulus, the extended frequency obtained by FTTSPM is broader than that obtained by the WLF equation. Moreover, the evaluation of the storage and loss modulus by FTTSPM is much closer to the theoretical prediction compared with that by the WLF equation. Therefore, FTTSPM is a concise and experiment-based approach with a higher precision and greater frequency-extended capacity compared with the WLF equation. However, FTTSPM inevitably faces a vertical shift when non-thermo-rheologically simple materials are considered. The physical mechanism and practical application of FTTSPM will be examined in further research.