Banks are asked to raise a sum of money; the lead managers take the market's temperature and advise about the yield and maturity investors want.
银行被要求募集一定数额的资金,高层管理人员追踪市场信号,向银行建议那些投资人需要的收益和到期日。
Rising temperature can greatly increase the conversion of propane and then the yield of propene.
升高温度虽然能极大的提高丙烷的转化率从而增加丙烯的收率。
The dominant reaction pathways and the effect of reaction temperature and type of zeolites on the yield and selectivity of benzene formed during catalytic cracking of cumene were investigated.
在催化裂化反应条件下,研究了异丙苯主要裂化反应路径以及反应过程中反应温度和分子筛类型对苯产率和选择性的影响规律。
With increasing temperature, the yield of volatile matter of vitrinite and fusinite increased.
随热解温度升高,镜质组和丝质组的挥发分收率增加。
The influences of catalyst, solvent, temperature and raw material on the yield of TPP are investigated. The yield of TPP increases from 30.0% to 49.5%.
研究了催化剂、溶剂、温度、原料等因素对四苯基卟啉收率的影响,收率由30.0%提高到49.5%。
The yield of both tar and gas is decreased with the decrease of exhausting temperature of liberated matter.
降低挥发物的出口温度,可以降低焦油和气体收率。
The end carbon content and temperature were controlled, and the chromium yield was increased by using the model.
通过该模型可控制终点碳和温度以及提高铬的回收率。
The yield displacement and export force of damper have linear increase with environmental temperature.
阻尼器的屈服位移和输出力随环境温度的升高而线性增加;
The influences of medium alkalinity, solvents, reaction temperature and reaction time on the yield of the product were investigated.
讨论了介质碱性、溶剂、反应温度和反应时间等工艺条件对产物收率的影响。
The effects of microwave radiation time (power), the composition of two reactants and the reaction temperature on the yield and Sm content in the complexes were investigated.
考察了微波辐射时间(功率)、稀土离子和聚合物的配比以及温度等因素对配合物产率及配合物中钐离子含量的影响;
The statistic relation between yield strength and temperature is obtained.
并给出了屈服强度与温度之间的统计关系。
The yield strength and elastic modulus will decrease with the temperature increased.
温度升高,原子热运动加强,屈服强度和弹性模量降低。
Generation depends on three main factors: the presence of organic matter rich enough to yield hydrocarbons, adequate temperature, and sufficient time to bring the source rock to maturity.
生成作用取决于三个主要因素:有机质的存在丰富到足够产生烃类;适宜温度与足够的时间使源岩达到成熟。
The preparation of 2 methyl 6 tert butylphenol was introduced and the effects of catalyst, time and temperature of reaction on yield of product were discussed.
介绍了2 -甲基-6 -特丁基苯酚的制备方法,探讨了催化剂、反应温度和反应时间对产品收率的影响。
Results show that with the increase of cooling rate or decrease of measurement temperature, both the yield stress and yield time increase, but the yield strain decreases.
发现在相同测量方式下,随降温速率的增大或测量温度的降低,屈服应力增大、屈服时间变长、屈服应变减小。
The effects of the ratio, time, temperature on the yield are investigated and the optimum conditions given.
研究了原料配比、反应时间、反应温度等对收率的影响,给出了最佳合成工艺条件。
In the hydrolyzation process of waste polymer the yield is effected by reactive temperature, time and ratio.
在废聚合物水解过程中,其收率主要是受反应温度、反应时间和反应配比的影响。
The effect of molar ratio of reactants and reactive temperature on the yield of product is investigated.
考察了反应物投料摩尔比和反应温度对产物收率的影响。
In the preparation of AD ester, we improve the yield by adjusting the reaction's temperature, make the byproduct fewer and also simplify the product's purification.
在制备阿德福韦酯的实验中,控制反应温度提高了反应产率,在减少了反应副产物的同时也使得产品提纯变得简便。
The conversion of benzaldehyde and yield of benzylidene acetone were influenced by reaction time, temperature and initial water volume.
温度、反应时间和初始水量对反应的转化率和苯丁烯酮的产率有不同的影响。
The maximum attractive force, yield force and rupture force decrease with increasing substrate temperature.
针尖和基体之间的最大引力、屈服力和断裂力随着基体温度的增加而减小。
The influence of temperature on yield and colour of product in bromination of benzene ring as well as the influence of bromine feeding speed on yield of brominated sidechains were investigated.
考察了反应温度对苯环上溴代产物收率和色泽的影响以及溴素滴加速度对侧链光溴代产物收率的影响。
The influences of catalytic temperature on the yield of liquid fuel oils, gasoline, diesel, heavy oils, gas and carbon residue were discussed.
讨论了催化裂解温度对液体产率、汽油馏分产率、柴油馏分产率、重油馏分产率、裂解气产率和残渣产率的影响。
The reaction proceeds at room temperature and the quality and yield of acetylate are comparison with ordinary method.
反应在常温下进行,乙酰化产物的产率和质量与原方法相当。
The process had the advantages of low reaction temperature, high conversion rate, high yield, recycle of solvent, and low waste disposal.
该工艺具有反应温度低、反应完全、转化率高、溶剂可回收利用、三废少的特点。
The process had the advantages of low reaction temperature, high conversion rate, high yield, recycle of solvent, and low waste disposal.
该工艺具有反应温度低、反应完全、转化率高、溶剂可回收利用、三废少的特点。
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