1)Disaggregation[英][dis,?gri'gei??n][美][d?s,?gr?'ge??n]解团聚
1.This paper deals with the disaggregation and dispersion of ultrafine diamond (UFD) inaqueous medium and utility of UFD in electroless Ni-P composite deposit.本文首先从理论和实验两个方面对纳米金刚石(ultrafine diamond简称UFD)在水溶液中的分散及解团聚进行了研究。
英文短句/例句
1.De-aggregation of nano-TiO_2 soft agglomeration in aqueous medium水相介质中纳米TiO_2粒子软团聚体的解团聚
2.Deagglomeration and Stable Dispersion of Detonation Nanodiamond Particles;纳米金刚石的解团聚与稳定分散研究
3.Deaggregation Technology and Mechanism of Ag/ZnO Nano Composite Antibacterial AgentAg/ZnO纳米复合抗菌剂解团聚工艺及机制
4.Degradability of Poly(ε-caprolactone) Bearing Pendant Carboxyl Groups含侧羧基官能团的聚(ε-己内酯)降解性能的研究
5.The spectra confirm the formation of the intermolecular excimer of polyelectrolyte SMP, in which the chro-mogenic groups are on the main chains.证实了生色团在主链上的聚电解质SMP分子间激基缔合物的形成.
6.Study on Surface Properties and Adsorption and Desorption of Copper Ion by the Micro-aggegates of a Paddy Soil(Hangnitu);水稻土(黄泥土)微团聚体表面性质及对铜离子吸附与解吸特性研究
7.Synthesis,Characterization and Degradability of P(LA-co-ACL) Copolymer Bearing Pendant N-Substituted Acylamine Group官能团化己内酯与丙交酯无规共聚物的合成与降解性能
8.Adsorption-desorption of Phosphorus on Micro-aggregates of Greenhouse Soil of Long-term Fertilization长期定位施肥设施土壤微团聚体磷素吸附解吸特征性探讨
9.Characteristics of adsorption-desorption of Cu~(2+) by organic matter in bulk earth and its microaggregates有机质对Cu~(2+)在棕壤及其各粒级微团聚体中吸附解吸特性的影响
10.emotional, touching, etc reunions令人感动的、 激动的...团聚
11.lump together all the applicants.把所有的申请者聚成团。
12.To cohere or form a mass.凝聚成一团或形成一堆。
13.To cause(soil)to form lumps or masses.凝聚使(土壤)形成块或团
14.difunctional comonomer二官能[团]共聚单体
15.To form or collect into a rounded mass.使成团,使结块,使聚结使形成或聚集成圆的团块
16.We are not a commercial organization. Attend our regular meeting or refer to the web site of Toastmasters International or Toastmasters in Taiwan.我们是一个非营利团体,想更了解我们吗,来参加我们的聚会吧!免费的哦!
17.Help the employees think from their customers' point of view, improve communication and understanding, encourage team spirit and boost morale. Henceforth increase the cohesion of the enterprise.让员工学会换位思考,增进沟通、相互理解,发扬团队精神,鼓舞员工士气,提升公司凝聚力。
18.INFLUENCES OF CATIONS,ANIONS AND SURFACTANTS ON MOLECULAR COIL DIMENSIONS OF PARTIALLY HYDROLYZED POLYACRYLAIMDE正负离子和表面活性剂对水解聚丙烯酰胺分子线团尺寸的影响及其作用机理
相关短句/例句
coacervation and depolymerization团聚解聚
3)aggregate disintegration团聚体崩解
4)agglomeration[英][?,ɡl?m?'re??n][美][?'glɑm?'re??n]团聚
1.Preparation and agglomeration control of zirconia nano-powder by alcohol-aqueous co-precipitation method;醇水共沉淀法制备氧化锆超细粉末及团聚控制
2.Application of anti-static agents to eliminate ACF flock agglomeration;抗静电剂在消除ACF绒团聚现象上的应用
3.Agglomeration Problems and Anti-agglomeration Measures for the Preparation of Metal Oxide Nanoparticles;纳米金属氧化物粉体制备过程的团聚问题和反团聚措施
5)aggregate[英]['?ɡriɡit][美]['?ɡr?ɡ?t]团聚
1.Parameter optimization of aggregate desulphurization process for high sulphur coal;高硫煤团聚脱硫工艺参数优化
2.Due to the great specific surface and surface energy, there are special domino effects that the powders are very easy to aggregate.但因其具有极大的比表面积和表面能,因而极易团聚,致使其在应用中无法发挥纳米陶瓷的优异性能,但通过对纳米陶瓷表面改性可改善这一状况。
3.Therefore hard aggregate was retarded in α phase transformation process.利用NH4Cl其分解时释放气体的特点控制以碳酸铝铵为前驱体的氧化铝α相变过程中的团聚。
6)agglomerate[英][?'gl?m?,re?t][美][?'ɡlɑm?,ret]团聚
1.The forming mechanism and the control of agglomerate are also concisely discussed.ZrO2是结构陶瓷和功能陶瓷重要的原材料之一,有关纳米ZrO2粉体制备方法的研究有很多,本文介绍了近年来研究较多的液相制备纳米ZrO2粉体的方法,并对制备过程中粉体团聚的形成与控制做了简要论述。
2.A technique of preparing nano Al 2O 3 powder by wet chemical method in supersonic field was studied, the effects of supersonic radiation on the formation and reunite of the grains were discussed, and the influence of different supersonic frequency on the agglomerate of the powder was researched.研究了超声场下湿法制备纳米Al2 O3粉体的工艺 ,探讨了超声对颗粒的形成和团聚的影响 ,讨论了不同超声频率对粉体团聚的影响。
3.The results showed that ultrasonic energy can speed up the nucleation of the precursor, ultrasonic dispersion can control the growth and agglomerate of the crystal nucleus, ultrasonic vibration can also affect the process of the transformation into gel during the process of aging, and was easy .将超声波应用于湿法制备氧化铝纳米粉工艺过程 ,探讨了超声作用机理 ,研究了超声辐射对颗粒的形成和团聚以及干燥过程的影响 研究表明 ,超声能量能加速前驱体的形核 ,超声分散可控制晶核的长大和团聚 ;超声振动还能影响陈化过程中的沉淀向凝胶的转变 ,易得到疏松三维网络状结构 ,这样的凝胶结构有利于最后得到疏松、少 (无 )团聚的纳米粉
延伸阅读
磁团聚分选磁团聚分选magnetic agglomeration separation e一tuonju fenxuan磁团聚分选(magnetie agglomeration sepa-ration)细粒强磁性矿物在低弱磁场中受磁力和剪切力作用,选择性地形成磁团聚体与脉石分离的磁选方法。所用低弱磁场的磁感应强度为5一25mT,比通常预磁磁感应强度50mT和弱磁场磁选机磁感应强度loomT低得多。磁场和剪切力场的作用仅产生磁团聚,团聚体在磁场和重力场综合作用下沉降速度加大,从而提高了与非团聚的脉石的分离效果。磁团聚分选法分选精度高,用于磁铁矿的精选时,能获得超级精矿。 磁团聚分选设备由磁系和切向给水装置或搅拌装置构成(见图)。磁系由内外两组同心筒形磁极组成,可以降低磁场不均匀性。磁极由铁氧体永磁块构成,磁系吸_ -一{,‘ 磁团聚分选设备示意图 l一提升杆;2一给矿箱门一给矿管;4一溢流槽; 5一内磁系.6一外磁系刃一进水管邝一精矿阀沿轴向是断续的,使强磁性矿石在沉降过程中处于团聚一分散一团聚的动态过程,有利于选择性团聚和排除脉石,提高精矿品位及分选效率。沿切向给入上升水流,是为了产生剪切力,加强水力清洗作用。有些设备安有搅拌叶轮,其作用与切向水流相同。根据磁力和流体剪切力的比值及两种力的方向,来控制强磁性矿粒的团聚和分散状态,达到磁团聚的高度选择性。在分选区保持矿浆的适当浓度,以形成床层和发生干涉沉降作用。(参见彩图插页第12页) 〔落多l润、
