新形势下企业文化与思想政治工作的差异与交集

企业文化与思想政治工作是个大的课题,两者之间既有差异,又有交集。从企业文化和思想政治工作的差异与交集,企业文化与思想政治工作需要与时俱进三方面进行阐述思想政治工作优势与企业文化的渗透力在企业生产建设发展中的重要作用。     

利用拉格朗日方法对旋流器分离过程随机特性的实验研究

为了探测旋流器中固体颗粒的随机分离特性,实验采用高速摄像技术并利用拉格朗日方法对粒子运动轨迹进行了测定,所进行的100多种实验工况能充分说明粒子运动和分离特征。统计分析实验中粒子运动轨迹表明其分离过程存在随机特性,且产生短路流的大部分颗粒是由3点注入时产生的,这为进一步进行理论研究和旋流器结构设计提供了可靠的实验依据。     

异丁烯氢甲酰化用介孔MCM-41分子筛负载铑磷络合物催化剂的研究

采用水热合成法制备Si-MCM-41介孔分子筛,并在其上担载HRh(CO)(PPh3)3络合物合成负载型催化剂,考察了该载体Si-MCM-41分子筛的制备条件对异丁烯氢甲酰化反应的影响。实验结果表明分子筛的制备条件中pH值,原料配比,晶化温度对反应性能的影响最显著,在pH=10,n(Si)∶n(CTAB)=1∶0.2和晶化温度为120℃的条件下制备的Si-MCM-41载体对异丁烯氢甲酰化制异戊醛的选择性达最优。采用低温液氮吸附脱附分析(BET)和X射线衍射分析(XRD)技术对载体Si-MCM-41和负载型HRh(CO)(PPh3)3-MCM-41催化剂进行表征,结果表明载体在负载络合物后仍然保持了较好的介孔特征,其较均匀的孔径分布表现出对反应产物较好的择形催化性能。     

Low surface energy self-polishing polymer grafted MWNTs for antibacterial coating and controlled-release property of Cu2O

Marine biofouling had been a headache when engaging in marine activities. The most effective and convenient method for dealing with this problem was to apply antifouling coatings. But now a single anti-fouling system was hard to satisfy the requirement of anti-fouling simultaneously. Therefore, it was particularly important to develop novel multi-system anti-fouling technology. In the work, a novel polymer coatings with polydimethylsiloxane (PDMS) segments in the main chain and hydrolysable side chain was designed and synthesized which showed low surface energy and self-polishing performance, and then we creatively covalently immobilized the polyurethane on the surface of multi-carbon nanotubes (MWNTs) to form multisystem antifouling coating. The results showed that the polymer coating would produce hydrolysable regions in the hydrophobic PDMS segment to endure the polymer coating hydrophobic and hydrolysis properties when contacted with water. In addition, the self-polishing rate and the surface energy could be regulated by varying its copolymerization, and the addition of MWNTs could kill the microorganisms and endowed the polymer coating itself enhanced antibacterial effect. Furthermore, considering the high specific surface area and physicochemical characteristics of MWNTs, it could be combined with antifoulant Cu₂O through a polar or non-polar combination as a carrier to control the release rate of Cu₂O in coatings.     

Preparation and electrochemical application of an AgNW/graphene/SU-8 composite conductive photoresist

Photoresists play an increasingly important role in industrial fields like micro-electro mechanical systems, micromachining, and chip packaging. However, the traditional one-component photoresist is insulated, and additional steps are required to make it conductive, which complicates the process and limits its application. In order to solve the problem, we establish a one-step strategy to build conductive composite photoresist. Herein, graphene (GR) and silver nanowire (AgNW) are doped into SU-8 photoresist to fabricate a photo-patternable conductive composite. The composite photoresist is employed to make micro-patterns on an ITO electrode using photolithography, followed by electrochemical reduction of copper nanoparticles (CuNPs) to produce a nonenzymatic sensing coating. Experimental results prove that the response current of the obtained sensor is linearly related to the concentration of hydrogen peroxide in the range of 1–25 mM. The sensitivity and detection limit of the sensor are 41.8 μA mM⁻¹ cm⁻² and 9 μM, respectively. Moreover, excellent sensing performance including anti-interference, repeatability, and stability demonstrates the potential application of CuNPs/AgNW/GR/SU-8 composite material in electrochemical sensing.     

机械力改性芦苇纤维及其对聚乳酸复合材料的阻燃性能研究

采用机械力化学法对芦苇纤维（RF）进行磷酰化改性,并将改性后的磷酰化芦苇纤维（MPRF）与聚乳酸（PLA）共混制备复合材料,研究了MPRF对复合材料热稳定性、阻燃性、燃烧性能以及力学性能的影响。结果表明,磷元素成功接枝到芦苇纤维表面,800 ℃时的残余质量增加;随着MPRF添加量的提高,PLA复合材料的阻燃性能随着MPRF的加入而逐渐增加,当MPRF添加量为40 %（质量分数,下同）时,其弯曲强度和拉伸强度可达266.9 MPa和44.7 MPa,极限氧指数为24.6 %;最大热释放峰值下降到366.9 kW/m²,与PLA相比下降了39.3 %,有效降低复合材料的火灾危险性。     

128kV双电压式电力变压器的开发设计

采用量化设计方式,应用有限元仿真分析技术确定了串、并联绕组结构布置及开关绝缘水平,开发设计了三相128kV双电压电力变压器。     

探究装配式建筑施工质量因素识别与控制

装配式建筑是近年发展最快的一种是施工项目,且越来越常见,是建筑业的变革与创新的主要方向。相比于传统建筑施工,装配式建筑施工具有更高的安全性、合法性和高效率,以及对建筑质量有更高要求。在装配式建筑施工中加强了对施工过程的控制,采用了新的施工方法和监管方式,并实现了建筑规范性的施工目标。因此,在新时代,有必要针对装配式建筑的施工制定新的质量管理措施,并针对现有的施工质量问题进行识别,以及制定有效的措施,以确保施工质量符合实际要求。     

产业化装配式住宅建筑体系与施工应用技术

住宅产业化是我国当前建筑行业发展的一个重要趋势,也是我国当前建筑行业现代化实现的一个重要体现。相较于传统的建筑手段,住宅产业化的实现可以在很大程度上提升建筑生产的工作效率和工作质量,而且最终的建筑产品的环保性能以及功能性都是相对较强的,这是我国当前建筑行业发展的追求目标。而住宅产业化实现过程中,产业化装配式住宅建筑体系以及相应的施工技术的应用是实现住宅产业化的重要基础。所以就将针对产业化装配式住宅建筑体系与施工应用技术进行深入探究,希望可以推动我国当前住宅产业化的实现,推升我国建筑行业的发现水平。     

一步电沉积镍铁硫化物纳米复合电极

采用一步电沉积法在导电性能优异的碳布上生长二元镍铁硫化物纳米片作为超级电容器的电极,从而进一步提高其电化学性能.由于复合材料纳米结构具有较小的尺寸且表面粗糙多孔,为充放电过程中发生氧化还原反应提供了更加丰富的活性位点.同时,碳布作为基底,也进一步提高了复合材料的导电性.通过比较不同比例Ni-Fe-S/碳布复合材料的电化学性能,得到了性能最优异的比例,并对其进行了进一步的测试.复合材料的比电容在1A/g时可达到770 F/g,并在40 A/g时容量可以保持在672 F/g.在进行10000次循环后,可保持初始值的92.3％.本研究对于二元金属硫化物/碳布复合材料作为超级电容器电极材料的发展具有一定的促进作用.