为了提高蓄电池的使用寿命,保证其可靠运行,需要经常对蓄电池参数进行严格测量,以确保蓄电池组处于最佳的工作状况。
It is necessary to measure batteries' parameters accurately and frequently in order to enhance their lives, run them reliably and ensure the batteries in the optimal working states.
它的使用可以有效地去除毛刺,降低表面粗糙度值,棱边倒圆,改善表面残余应力状况,提高表面硬度,大幅度减少微观缺陷。
It may be used effectively in deburring, reducing the value of surface roughness, chamfering. improving conditions of surface residual stress and surface hardness and reducing greatly microdefects.
无伸缩缝桥梁具有节省桥梁养护费用、改善行车状况、减少车辆的冲击和提高桥梁使用寿命的优点,因此无伸缩缝桥梁有着广阔的运用前景。
Jointless bridge has a bright future because it has much merit, such as low cost of bridge maintenance, improved traveling environment, reduced vehicle impact to bridge and extended usage of bridge.
随着公路等级的提高和路面质量的改善,以及交通量的增长和行车速度的提高,沥青路面使用技术状况的平整度特性越来越引起了人们的重视。
With the improvement of highway grade and pavement quality, and the increasing of traffic and improvement of traveling speed, the smoothness of bitumen pavement is paid more and more attention.
并对实验结果、试件表面磨损状况以及各种因素的影响进行了分析并得出相应结论,为提高轴承的使用寿命提供了实验依据。
The thesis also analyses the surface wear condition of the test sample as well as the influence of different factors, providing a experimental basis to enhance the life of bearings.
VMM允许使用者评估井下钻进的振动剧烈程度,以此来提高钻进效率,还能警告作业者注意振动状况,包括粘卡及涡动等可能损坏MWD和其它井下仪器的现象。
VMM allows users to assess the severity of downhole drilling to improve drilling efficiency and alert them to vibration conditions that could damage MWD and other downhole tools.
试验结果表明,使用LB - 20lf可提高涂膜的光泽和膜厚均匀性、改善了工件袋部的涂覆状况,可全面提高车体电泳涂层的质量。
Experimental results show that applying LB-20LF can obtain a uniform film with a high polish and improve the quality of electrophoretic coatings.
用户的界面将随着时间的推移而改变,从而与使用状况相适应,以提高交互的质量。
User interfaces that change over time, in response to how they are used, to improve the quality of the interaction.
本文主要从炉衬的使用状况方面的原因并结合前二方面原因对破损炉衬残块的损坏机理进行分析,以便确定炉衬损坏的模式,从而消除引起炉衬损坏因素,提高炉衬使用寿命。
Damage mechanism has been analysed mainly based on operational situation combined with other two factors so as to determine damage mode for elimination of damage factors and improvement of campaign.
本文主要从炉衬的使用状况方面的原因并结合前二方面原因对破损炉衬残块的损坏机理进行分析,以便确定炉衬损坏的模式,从而消除引起炉衬损坏因素,提高炉衬使用寿命。
Damage mechanism has been analysed mainly based on operational situation combined with other two factors so as to determine damage mode for elimination of damage factors and improvement of campaign.
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