materials

摘要： In order to make up for the shortcomings of homogeneous materials and meet the needs of industry development,heterogeneous materials have been increasingly applied in aviation,automobile,bridge and other fields.Heterogeneous materials refer to advanced materials with non-uniform components.By adjusting the structure or composition of heterogeneous materials,their performance may change in a specific direction to adapt to different environments and achieve special functions.To achieve wide applications of homogeneous materials,it is very important to be able to predict the performance and material response of heterogeneous materials.Modeling method is a basic and important method to accomplish this task.Modeling methods for studying heterogeneous materials include finite element method(FEM),molecular dynamics(MD),peridynamics(PD)and so on.

摘要： Piezoelectric(PZ)energy has been paid attention to as conventional renewable energy sources including solar,wind,and geothermal power.To address the dilemma of climatic conditions affecting the energy harvesting using Lead Zirconate Titanate(PZT)in pavement,wafer-boxes were used with embedded PZT sensors,since wafer-boxes have the ability to be embedded in the pavement where sensors are protected from any kind of physical damage.This research project was designed to identify which shaped wafer-box produced the most electric voltage and power.Various forms of wafer-box were developed to identify if there was any potential difference in voltage generation due to the structural shapes of the box.Seven different shapes of prototype wafer-boxes were designed utilizing both a 3D printer and 3D Computer Aided Design(CAD).These wafer-boxes were coupled with embedded PZT sensors which were tested in asphalt pavement analyzer(APA)machine under certain load to produce electric voltage.Collected voltage data from the APA wheel load test(WLT)were analyzed using various statistical methods.The statistical analyses results indicated that out of the seven different shaped wafer-boxes,the right-angled triangular shaped box produced the highest average voltage values where’s square shaped wafer-box produced the lowest amount of voltage.Structural properties of a wafer-box in terms of section modulus,area moment of inertia,extreme points,and radius of gyration were also analyzed,and a regression analysis was conducted to identify the reasons of different amounts of voltage produced.These voltage values could be used to calculate the power using power formulas showing relationship between power and voltage values.The outcome helped to identify which shape is most effective to power generation under certain circumstances.The regression analysis results indicated that out of four properties the section modulus is the most influential structural property affecting voltage production.

摘要： Microbiome Cosmetics R&D by LG Life According to the official website of LG life.com,the microbiome center has been set up in Hokkaido,Japan in order to study and develop cosmetics.LG life has established mature experiment facility which could ferment various kinds of plants beneficial to our skin.Besides,another laboratory used to study the changes of microbiome and isolate the fermented strains with various skin care effects.The reason why we choose Hokkaido is that its natural environment is conducive to fermenting probiotics and it also enjoys regional advantage for studying nutritious plans which benefit our skin.In addition,Hokkaido owns the traditional artisan fermentation techniques handed down from generation to generation and also the basic research facilities including Hokkaido University,becoming the best place for the production and study of the microbiome raw materials.

摘要： In power plants,flue gases can cause severe corrosion damage in metallic parts such as flue ducts,heat exchangers,and boilers.Coating is an effective technique to prevent this damage.A robust fuzzy model of the surface roughness(Ra and Rz)of flue gas ducts coated by protective composite coating from epoxy and nanoparticles was constructed based on the experimental dataset.The proposed model consists of four nanoparticles(ZnO,ZrO2,SiO2,and NiO)with 2%,4%,6%,and 8%,respectively.Response surface methodology(RSM)was used to optimize the process parameters and identify the optimal conditions for minimum surface roughness of this coated duct.To prove the superiority of the proposed fuzzy model,the model results were compared with those obtained by ANOVA,with the coefficient of determination and the root-mean-square error(RMSE)used as metrics.For Ra,for the first output response,using ANOVA,the coefficient-of-determination values were 0.9137 and 0.4037,respectively,for training and prediction.Similarly,for Rz,the second output response,the coefficient-of-determination results were 0.9695 and 0.4037,respectively,for training and prediction.In the fuzzy modeling of Ra,for the first output response,the RMSE values were 0.0 and 0.1455,respectively,for training and testing.The values for the coefficient of determination were 1.00 and 0.9807,respectively,for training and testing.The results prove the superiority of fuzzy modeling.For modeling the second output response Rz,the RMSE values were 0.0 and 0.0421,respectively,for training and testing,and the coefficient-of-determination values were 1.00 and 0.9959,respectively,for training and testing.

摘要： This study evaluates the performance of a model of open-cell metal foams generated by sphere functions.To this end,an electromagnetic shield constructed from the model was inserted between two horn antennas in an electromagnetic wave propagation simulation.The foam-hole diameter in the electromagnetic shield model was varied as d=2.5 and 5.0 mm,and the frequency of the electromagnetic waves was varied from 3 to 13 GHz.In the numerical experiments of shield effectiveness,the shields with foam holes of both diameters attenuated the electromagnetic waves across the studied frequency range.The shield effectiveness was enhanced at low frequencies and in the shield with smaller hole diameter.

摘要： The Meissner effect,magnetic field expulsion,is a hallmark of superconductivity.Associated with it,superconductors exclude applied magnetic fields.Recently,Minkov et al.[Nat.Commun.13,3194(2022)]presented experimental results reportedly showing“definitive evidence of the Meissner effect”in sulfur hydride and lanthanum hydride under high pressure,and Eremets et al.[J.Supercond.Nov.Magn.35,965(2022)]argued that“the arguments against superconductivity(in hydrides)can be either refuted or explained.”Instead,we show here that the evidence presented in those papers does not support the case for superconductivity in these materials.Together with experimental evidence discussed in earlier papers,we argue that this strongly suggests that hydrides under pressure are not high-temperature superconductors.

摘要： The Fermi velocity vF is one of the primary characteristics of any conductor,including any superconductor.For conductors at ambient pressure,several experimental techniques have been developed to measure vF,and,for instance,Zhou et al.[Nature 423,398(2003)]reported that high-Tc cuprates exhibited a universal nodal Fermi velocity vF,univ=(2.7±0.5)×10^(5) m/s.However,there have been no measurements of vF in highly compressed near-room-temperature superconductors(NRTS),owing to experimental challenges.Here,to answer the question of the existence of a universal Fermi velocity in NRTS materials,we analyze the full inventory of data on the ground-state upper critical field Bc2(0)for these materials and find that this class of superconductors exhibits a universal Fermi velocity vF,univ=(1/1.3)×[2Δ(0)/kBTc]×10^(5) m/s,whereΔ(0)is the ground-state amplitude of the energy gap.The ratio 2Δ(0)/kBTc varies within a narrow range 3.2≤2Δ(0)/kBTc≤5,and so vF,univ in NRTS materials lies in the range 2.5×10^(5) m/s≤vF,univ≤3.8×10^(5) m/s,which is similar to the range of values found for the high-Tc cuprate counterparts of these materials.

摘要： Carbon dioxide(CO_(2))as a sustainable resource instead of toxic reagents has attracted considerable attention in synthesis of chemicals and polymeric materials.Herein,a kind of cyclic oligourea was synthesized via polycondensation of CO_(2)with 4,7,10-trioxa-1,13-tridecanediamine(TTD)followed by effective separation and purification processes.We developed an efficient separation strategy in which the linear oligourea molecules were selectively transformed to macromolecular polyurea molecules by a reaction of the–NH_(2)end group with 4,4’-diphenylmethane diisocyanate(MDI),followed by separation from cyclic oligourea using selected solvents.The structure and physicochemical properties were confirmed by MALDI-TOF mass spectra,NMR,Cryo-EM,thermal analysis and solubility measurement.The well-defined cyclic oligourea was produced with a high purity(99.4%)and the average-number molecular weight(Mn)of 1040 Da.It is semi-crystalline in structure with a melting point of 106°Cand glass transition point of-10°C.The cyclic oligourea presented characteristically difference to its linear analogue.This work provides a new member to cyclic polymer family.

摘要： At present,advanced textile engineering materials are gradually replacing traditional materials.Conductive textiles,3D textiles,intelligent textiles,bulletproof textiles,textiles designed for medical applications and various niche technologies are becoming the frontier of textile science and technology development.Textile materials with novel functions and innovations have shown great potential in medical care,national defense,personal protection,personal communication and other application fields.

摘要： The transparency,reflectivity and color for electro-chromic(EC)materials can be changed reversibly under low bias[1].EC materials find wide application in many fields like microelectronics,energy-saving buildings,automobiles,na-tional defense and aerospace industry[2].Compared with inor-ganic EC materials,organic EC materials have advantages like easy modification of molecular structures,rich color changes and fast-switching speed[3].

摘要： A series of the electrode materials (LiCoO2) for Lithium ion batteries were synthesized by radiating the mixture of Lithium oxide and Cobalt oxide in microwave field. The synthesizing conditions including reaction time, output power and reaction temperature were examned. And in the mean time, the structure and properties of LiCoO2 was characterized by using XRD, SEM technology and electrochemical testing method. The results showed that the output power and reaction time had a significant effect on the structure of products and that, the ordering layered structure of LiCoO2 had been obtained. In the tests of charge-discharge, it was found that the discharge capability of the first cycle was as high as 140mAhg-1. In comparison with conventional synthetic method, the microwave method can be energysaving, efficient with specious and clean working environment.

摘要： 本发明特别涉及一种采用Materials Studio软件模拟二氧化硅包覆氟化钙的方法，包括如下步骤：1)利用软件对待计算的初始模型进行构建，得到二氧化硅‑氟化钙分子结构数据文件；2)利用软件中的Forcite模块对初始模型进行结构优化；3)利用软件中的Forcite模块对模型进行分子动力学运算；4)对动力学处理后的模型进行动力学分析；5)对二氧化硅‑氟化钙分子结构的界面距离及能量进行计算，获得距离与能量参数；6)通过计算得到二氧化硅‑氟化钙之间的吸附能。本发明通过计算机对实验过程中工序复杂的二氧化硅包覆氟化钙进行了模拟，且从原子层面进行了详细分析，帮助实验者分析模拟包覆的结果，有效地缩短了试验周期，节约了实验成本，避免了大量实验，保证了实验者的安全性。

摘要： 本发明特别涉及一种在大规模集群中调度MaterialsStudio并行计算的方法。该在大规模集群中调度MaterialsStudio并行计算的方法通过openPBS作业调度软件，openmpi等工具使MaterialsStudio在Linux集群中实现作业的并行计算。本发明通过相关配置，使用openPBS作业调度软件能实现在大规模Linux集群中对MaterialsStudio作业进行统一调度；对用户来说，只需要用qsub命令提交作业，计算和存储都在集群中，方便；对集群管理员，能够达到对使用该软件用户可见可管可控的目的，省心。

摘要： 本发明涉及一种基于materials studio的聚乳酸复合体系玻璃化转变温度预测方法，包括以下步骤：S1）基于蒙特卡洛方法搭建聚乳酸体系无定型晶胞模型；S2）对所构建的无定型晶胞模型进行几何优化和退火模拟，得到能量最低构型；S3）对得到的能量最低构型进行动力学计算，得到聚乳酸体系的降温模拟初始平衡构型；S4）对平衡构型进行降温模拟，得到各个降温温阶下的密度和自由体积分数，线性拟合密度‑温度关系得到玻璃化转变温度预测值，依据自由体积分数分析聚乳酸体系的玻璃化转变温度变化趋势。该方法有利于便捷、准确地预测聚乳酸复合体系的玻璃化转变温度，降低实验成本，缩短研发周期。

摘要： 本发明涉及一种基于materials studio的聚乳酸复合体系玻璃化转变温度预测方法，包括以下步骤：S1）基于蒙特卡洛方法搭建聚乳酸体系无定型晶胞模型；S2）对所构建的无定型晶胞模型进行几何优化和退火模拟，得到能量最低构型；S3）对得到的能量最低构型进行动力学计算，得到聚乳酸体系的降温模拟初始平衡构型；S4）对平衡构型进行降温模拟，得到各个降温温阶下的密度和自由体积分数，线性拟合密度‑温度关系得到玻璃化转变温度预测值，依据自由体积分数分析聚乳酸体系的玻璃化转变温度变化趋势。该方法有利于便捷、准确地预测聚乳酸复合体系的玻璃化转变温度，降低实验成本，缩短研发周期。