查询词典 in condition
- 与 in condition 相关的网络例句 [注:此内容来源于网络,仅供参考]
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The results show: the strongest bond is the Al-Al bond in the segregated cell without containing vacancy, where the Al atomic covalence radius is greater than that of Li atom in the cell; while the strongest bond is the Al-Li bond in the segregated cell containing vacancy, and the Al atomic covalence radius in the cell is less than that of Li atom. Since the difference of electronagativity between the Al and Li atoms is obvious, it is inclined to formed the Al-Li segregated cell of short range order structure in the condition of vacancy present. The short range order structure containing vacancy is probably the embryo or precursor structure of the metastable phase δ′(Al3Li). Because the strongest covalent bond in the Al-Li-vacancy segregated cell in alloy formed in quenching is the main strength reason for supersaturated solid solution of alloy. The bond net of succeeding precipitation of δ′(Al3Li) has the picture of anisotropic Al-Al bonding and the bond intensity enhanced. Since the δ′(Al3Li) is coherence with matrix, the bond net strength is enhanced by the precipitation of δ′(Al3Li) and so strengthen the alloy.
计算结果表明:不包含空位的偏聚晶胞的键络最强键为Al—Al键,其中Al原子的共价半径较Li原子的共价半径要大;而含空位的偏聚晶胞的最强键为Al—Li键, Al原子的共价半径要比Li原子的共价半径要小;在空位存在的情况下,由于Al原子与Li原子的电负性相差明显,促使Al和Li原子结合,倾向形成Al-Li短程序结构偏聚区,这种含空位的短程序结构很可能就是δ′(Al3Li)亚稳相的前兆结构和生长胚胎;由于Al-Li-空位有序偏聚晶胞的Al—Li键络比基体键络要强许多,因此,淬火过程中合金生成的Al-Li-空位偏聚晶胞对合金过饱和固溶体起主要强化作用;后续析出的δ′(Al3Li)亚稳相键络各项异性显著,键络强度明显提高;由于Al3Li与基体共格,其大量均匀弥散析出起到提升基体整体键络强度,同样对合金产生强化作用。
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The results show: the strongest bond is the Al-Al bond in the segregated cell without containing vacancy, where the Al atomic covalence radius is greater than that of Li atom in the cell; while the strongest bond is the Al-Li bond in the segregated cell containing vacancy, and the Al atomic covalence radius in the cell is less than that of Li atom. Since the difference of electronagativity between the Al and Li atoms is obvious, it is inclined to formed the Al-Li segregated cell of short range order structure in the condition of vacancy present. The short range order structure containing vacancy is probably the embryo or precursor structure of the metastable phase δ'(Al3Li). Because the strongest covalent bond in the Al-Li-vacancy segregated cell in alloy formed in quenching is the main strength reason for supersaturated solid solution of alloy. The bond net of succeeding precipitation of δ'(Al3Li) has the picture of anisotropic Al-Al bonding and the bond intensity enhanced. Since the δ'(Al3Li) is coherence with matrix, the bond net strength is enhanced by the precipitation of δ'(Al3Li) and so strengthen the alloy.
计算结果表明:不包含空位的偏聚晶胞的键络最强键为Al-Al键,其中Al原子的共价半径较Li原子的共价半径要大;而含空位的偏聚晶胞的最强键为Al-Li键,Al原子的共价半径要比Li原子的共价半径要小;在空位存在的情况下,由於Al原子与Li原子的电负性相差明显,促使Al和Li原子结合,倾向形成Al-Li短程序结构偏聚区,这种含空位的短程序结构很可能就是δ'(Al3Li)亚稳相的前兆结构和生长胚胎;由於Al-Li-空位有序偏聚晶胞的Al-Li键络比基体键络要强许多,因此,淬火过程中合金生成的Al-Li-空位偏聚晶胞对合金过饱和固溶体起主要强化作用;后续析出的δ'(Al3Li)亚稳相键络各项异性显著,键络强度明显提高;由於Al3Li与基体共格,其大量均匀弥散析出起到提升基体整体键络强度,同样对合金产生强化作用。
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Wastewater containing titanium pigment was treated by microfiltration membrane, Nanometer titanium can be purified and concentrated by use of microfiltration. Operational conditions were optimized and the model was built. Finally, the amount of wash water was reduced. Based on the above research, the whole set equipment was designed, which can meet the needs in a titanium industry with a capability of 500 ton per year. Backflush and automatic control were used in the equipment, which has been steadily run two years, has been widely adopted in titanium industry. The technology has been widely adopted in titanium industry.In the recent years, whole set equipment of ceramic membrane was increasingly used in the recovery of desired production from fermentation broth in China. A new membrane process integrated with pretreatment of flocculation or coagulation was exploited to recover Inosine. ZrO2 ceramic membrane was used in the work, and the average permeation flux could reach 150L/m2.h under pH value of 3, transmembrane pressure 0.1MPa, CFV 3m/s, and temperature higher than 70C. The recovery ratio of inosine is higher than traditional recovery method, although inosine degraded under acidic and high temperature condition.
实验表明,ZrO_2膜处理肌苷发酵液的合适条件为pH=3、操作压力为0.1MPa、膜面流速3m/s、温度大于70度,此时可以获得平均渗透通量150L/m~2h,但由于酸性条件、高温下肌苷降解,导致肌苷收率有所降低,但仍高于传统肌苷提取方法得到的收率;为进一步提高肌苷得率,缩短提取工序,实验研究了絮凝剂预处理发酵液,解决碱性条件下由于蛋白析出导致膜污染加重的问题,研究表明采用CaCl_2絮凝并调节pH=11,可以获得平均渗透通量为180L/m~2h,肌苷得率大于95%;比较了三种肌苷提取工艺得到的产品质量,采用预处理与陶瓷南京工业大学博士学位论文膜分离结合的除杂工艺得到的粗昔质量与陶瓷膜分离、离子交换及活性炭吸附工艺生产的粗普质量相当,均优于传统的提取工艺;设计了每小时处理12一巧吨肌普发酵液的陶瓷膜成套装置,采用部分内循环的方式降低设备的能耗,简化了肌昔提取方式,提高了产品的收率和得率,由于减少离子交换和活性炭吸附,使得工厂废水排放量降低30一40%,降低酸、碱用量,有利于环境保护。
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For normal mouse, Yi Shen Granule could prolong the swimming time of mouse, the survival in Yi Shen Granule groups was more than that in model control group in same cold condition. For low-immune mouse, The eliminated rate of carbon granule in Yi Shen Granule groups rats was faster than that in model control group rats, it showed that phagocytosis was boosted up, the absorbency of upside liquid in Yi Shen Granule groups rats was more than that in model control group rats in hemolysin mensurated test, it indicated that more antibody was come into being by giving Yi Shen Granule.
益肾颗粒可以延长小鼠游泳时间;增加在同一寒冷条件下,相同时间内小鼠的存活数;对免疫力低下小鼠,给药组动物的碳粒廓清指数增大,反映吞噬功能增强;在血清溶血素含量测定试验中,给药组动物的上清液吸收值增大,说明机体产生的抗体较多。
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A significant residual deficit was present in 29 of 138 patients (21.0%) at the final follow-up and included proptosis in 7 patients, ptosis in 6 patients, ocular motility restriction in 3 patients, diplopia in 2 patients, strabismus in 2 patients, and a combination of the above in 9 patients. CONCLUSIONS: Orbital cysticercosis is a common clinical condition in the developing world.
在最后随访期间,138名患者(21.0%)中的29名出现明显的缺陷后遗症,其中包括7名患者眼球突出,6名患者眼睑下垂,2名患者眼球能动性受限,3名患者斜视,2名患者复视,9名患者出现上述综合缺陷。
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In the present paper,the goal applies in the development in the mixed style battery cocurrent of motor driver design in the electrically operated bicycle,the use lead-acid battery and the LiFePO4 battery takes the main actuation power to originate,the iron phosphate lithium battery has the life to be long,the electric discharge power is big and the transformation power suits the high electric current product good the characteristic;The lead-acid battery is in a market condition the quite mature battery product has the high security in the thermostable characteristic,and designs a driving circuit to actuate the cocurrent to have brushes the motor to lead the bicycle advance,comes in the enfilade non-ascent road section use LiFePO4 battery as the actuation electric power to originate,in had the ascent road section use lead-acid battery to come as the actuation electric power to originate, has promoted bicycle's endurance and reduces accumulator cell's energy loss.
本论文中,目的在研制应用於混合式电池於电动自行车之直流马达驱动器设计,使用铅酸电池与磷酸铁锂电池来作为主要驱动动力来源,磷酸铁锂电池具有寿命长、放电功率大及转换功率佳适合高电流产品的特点;铅酸电池为一市面上相当成熟的电池产品具有高度的安全性於耐高温的特性,并设计一驱动电路来驱动直流有刷马达来带动自行车前进,於直路无斜度路段使用磷酸铁锂电池来作为驱动电力来源,於有斜度路段使用铅酸电池来作为驱动电力来源,提升了自行车的续航力和降低蓄电池的能量损耗。
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Dependent on the past research in seaice, in Bohai Sea, in 2003-2004 winter and 2004-2005 winter with level ice for the target we open the field experiments to study the essential spectrum characteristic of ice, removing by testing means various nonessential factor for sea water in the fixing big ice plate, building up 170 growth conditions to look like under the natural condition, the growth expect different sample series; in 2004-2005 winter and 2005-2006 winter continue two pass to break thorough Bohai Sea in the ship to collect 59 sea ice sample that have the non-essential ice factors in winter, open the influence research that the field hangs sand to contribute to the spectrum of the ice body; in 2005-2006 winter, fast ice to open the field spectrum curves to coast and analytical research.
总结前人的研究成果和开展一系列的室内实验,在渤海—北半球纬度最低的结冰海域,于2003/2004、2004/2005 连续两个冬季以单层平整冰为目标开展实验研究一年生海冰的冰体本质光谱特征,在固定冰盘上以实验手段摒除各种光谱干扰因素,在自然条件下建立170 个生长条件近似、生长期不同的样本系列;于 2004/2005、2005/2006 连续两个冬季通过破冰船深入渤海采集59 个具有非冰体本质因素的海冰样本,开展悬沙对冰体反射光谱的影响研究;于2005/2006 冬季,针对沿岸固定冰开展光谱测量和分析研究。
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The Underwriter may terminate its commitment under the Underwriting Agreement at any time prior to the Latest Time for Termination if: there shall develop, occur, exist or come into effect: any new law or regulation or any change in existing laws or regulations or any change in the interpretation or application thereof by any court or other competent authority in Hong Kong or any other place in which any member of the Group conducts or carries on business; or any event or series of events resulting or likely to result in any change in local, national or international financial, political, military, industrial, economic or market conditions; or any change in the conditions of local, national or international securities markets (including but without limitation, the imposition of any moratorium, suspension or restriction on trading in securities generally on the Stock Exchange due to exceptional financial circumstances or otherwise); or any change or development involving a prospective change in Hong Kong taxation or exchange control which will or may affect the Group or a proportion of the existing Shareholders of the Company in their capacity as such, which, in the reasonable opinion of the Underwriter:(1) is or will or is likely to have a material adverse effect on the business or financial condition of the Group as a whole or the Rights Issue; or (2) has or will have or is likely to have a material adverse effect on the success of the Rights Issue or the level of Rights Shares taken up; or (3) makes it inadvisable or inexpedient for the Company to proceed with the Rights Issue; or there comes to the notice of the Underwriter: any matter or event showing any of the representations, warranties and undertakings made by PIL and the Company was, when given, untrue or misleading or as having been breached in any respect; or any breach by any of the other parties to the Underwriting Agreement of any of their respective obligations or undertakings under the Underwriting Agreement or under any of the PIL Letter of Undertaking, Option Undertakings or the Sub-underwriting Letter, then and in any such case the Underwriter may, upon giving notice to the Company and PIL, terminate the Underwriting Agreement with immediate effect.
倘发生下列事件,包销商可于最后终止时间前任何时间终止其根据包销协议之责任:以下情况将会出现、发生、存在或生效:香港或本集团任何成员公司经营或从事业务所在任何其他地方之法院或其他主管机关颁布任何新法律或法规,或更改现行法律或法规,或有关法律或法规之诠释或应用有变;或发生任何事件或连串事件导致或可能导致本地、国家或国际金融、政治、军事、工业、经济或市况有变;或本地、国家或国际证券市场之状况有变(包括但不限于因特殊金融状况或其他原因而暂时禁止、暂停或限制港交所之整体证券交易);或香港税务或外汇管制有变或出现可能导致变动之事态发展,而将会或可能对本集团或本公司部份现有股东产生影响,而包销商合理认为上述情况:(1)会或将会或可能会对本集团整体之业务或财务状况或供股有重大不利影响;或(2)经已或将会或可能会对供股之成功或供股股份之认购数量有重大不利影响;或(3)令本公司进行供股变得不智或不宜时;或包销商得悉:任何事情或事件显示太平船务及本公司所作出之任何陈述、保证及承诺于作出时在任何方面属失实或构成误导或遭违反;或包销协议之任何其他订约方违反彼等各自根据包销协议或任何太平船务承诺函、购股权承诺或分包销函件之任何责任或承诺,而在此情况下,包销商可向本公司及太平船务发出通知即时终止包销协议。
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A novel numerical boundary condition is presented in the paper, which is compared with the method of measured equation of invariance on computational time and memory requirement. It is demonstrated that the new boundary condition is of benefit both on the time and memory, therefore is an efficient method for computation of electrically large dimension objects.
本文给出了一种新的吸收边界条件,并与不变性测试方程法、矩量法在计算时间、存贮空间方面进行比较,结果表明运用这个条件在计算时间和存贮空间上都具有优点,是计算电大尺寸媒质柱体电磁散射特性的一种有效手段。
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He moved on to his condition and the derby: 'I think I am in the condition to play against Anderlecht.
话题转移到他的状况以及德比大战:我想的状态很良好,参加对安德莱赫特的比赛没有问题。
- 相关中文对照歌词
- I'm In No Condition
- What Condition Am I In?
- Just Dropped In (To See What Condition My Condition Was In)
- Just Dropped In (To See What Condition My Condition Was In)
- 推荐网络例句
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It has been put forward that there exists single Ball point and double Ball points on the symmetrical connecting-rod curves of equilateral mechanisms.
从鲍尔点的形成原理出发,分析对称连杆曲线上鲍尔点的产生条件,提出等边机构的对称连杆曲线上有单鲍尔点和双鲍尔点。
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The factory affiliated to the Group primarily manufactures multiple-purpose pincers, baking kits, knives, scissors, kitchenware, gardening tools and beauty care kits as well as other hardware tools, the annual production value of which reaches US$ 30 million dollars.
集团所属工厂主要生产多用钳、烤具、刀具、剪刀、厨具、花园工具、美容套等五金产品,年生产总值3000万美元,产品价廉物美、选料上乘、质量保证,深受国内外客户的青睐
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The eˉtiology of hemospermia is complicate,but almost of hemospermia are benign.
血精的原因很,以良性病变为主。