说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 深循环性能
1)  deep-cycling performance
深循环性能
1.
The effects of novel positive electrode additives and manufacture technology on the deep-cycling performance of 6-DZM-10(12V-10Ah/2hr) and 6-DZM-20(12V-20Ah/2hr) VRLA batteries for electric bicycles were studied by cycle charge-dicharge test.
采用循环充放试验法研究了正极添加剂和电池的制造工艺对电动自行车用6-DZM-10(12V-10Ah/2hr)和6-DZM-20(12V-20Ah-2hr)VRLA电池深循环性能的影响。
2)  Cycle performance
循环性能
1.
Study on improvement of cycle performance of spinel LiMn_2O_4;
提高尖晶石LiMn_2O_4循环性能的研究
2.
Effect of degree of crystallization on the cycle performance of spinel LiMn_2O_4
结晶度对尖晶石LiMn_2O_4循环性能的影响
3.
The content of conductive additive also has an influence on the cycle performance.
此外,混料前对导电剂进行一些表面处理也能明显改善电池的循环性能。
3)  cyclic performance
循环性能
1.
Thermal stability and cyclic performance of LiCoO_2;
LiCoO_2的热稳定性与循环性能
2.
The effect of the irreversibility of mass transfer on the cyclic performance is taken into account,and the relationship between the optimal coefficient of performance and the rate of energy pumping is derived.
建立了一类化学泵循环模型 ,考虑质量传递不可逆性对循环性能的影响 ,导出循环的泵能率与性能系数间的优化关系 。
3.
At the same time,the electrochemical behavior of nanometer ZnO had been studied,our experimental results showed that nanometer ZnO has better cyclic performance,but cyclic capacit.
结果表明,与常规颗粒的氧化锌相比较,纳米氧化锌具有较高的初始容量和循环性能,但是它的初始容量衰减很快。
4)  cycling performance
循环性能
1.
LiMn_2O_4 as cathode material for lithium ion batt eries——Effect of LiCoO_2 coating on cycling performance of LiMn_2O_4;
锂离子蓄电池正极材料LiMn_2O_4——包覆LiCoO_2对LiMn_2O_4循环性能的影响
2.
Though the specific capacitance decreases slightly,the cycling performances are improved remarkably,and the self-discharge reduced evidently.
结果表明,热处理后活性炭的比表面积和表面含氧量降低,比电容略有减小,但循环性能显著改善,自放电明显下降;800℃热处理后具有较佳的综合性能,比电容为131 F/g,1 000次循环充放电后容量保持率由87。
3.
The cycling performance of the electrode materials was studied.
研究了共沉积Co3O4-石墨负极材料在锂离子电池中的循环性能。
5)  performance [英][pə'fɔ:məns]  [美][pɚ'fɔrməns]
循环性能
1.
Optimization on performances of heat pump for freeze-dryer;
热泵冷冻干燥系统的循环性能优化
2.
The performance of moist air cycle refrigerator used in air conditioning system was investigated.
针对用于空调系统中的湿空气循环制冷机性能进行了数值模拟研究,对循环中各部件建立了热力学计算模型,分析了循环压比、空气湿度、设计参数、部件效率等相关因素对循环性能和送风温湿度的影响,指出了湿空气循环制冷机的特性和提高效率的途径。
3.
To reduce the energy consumption and improve economic performance of freeze-drying, a cascade system and a two-stage compression heat pump system for freeze-dryers, in which R600a/R290 and R290 served as work fluids respectively, have been investigated.
对2种热泵干燥系统的构建方法和循环性能进行了分析和计算,并讨论了中间温度、加热温度和冷阱温度变化对系统循环特性的影响。
6)  cycle performances
循环性能
1.
Discussions were made on the fairness issue in exper im entally assessing the cycle performances of various working fluids for refrigera tion, air-conditioning, and heat pump systems with an experimental apparatus of a constant-speed compressor and fixed area heat exchangers.
以制冷空调热泵系统中CFCs、HCFCs工质替代研究为背景, 对客观比较不同工质循环性能的实验评价方法进行了探讨。
2.
In this paper, theoretical experimental and simulated methods of evaluating the cycle performances of working fluids were investigated, and some new working fluids with good theoretical cycle performances were proposed, further more the researches of their experimental and simulated cycle perf.
论文围绕工质的循环性能理论与实验研究方法、冷凝温度为80-110oC工况范围内新型适用工质的提出及其理论与实验循环性能,开展了研究。
3.
In this paper, some new working fluids were proposed, and the researches of their theoretical and experimental cycle performances were carried out at condensing temperature from 60 to 140 oC.
中高温热泵技术研究的关键问题之一,就是寻找臭氧破坏势为0、温室效应势较低、热力参数适宜、循环性能优良的新型适用工质。
补充资料:不锈钢的物理性能、力学性能和耐热性能
不锈钢的物理性能


不锈钢和碳钢的物理性能数据对比,碳钢的密度略高于铁素体和马氏体型不锈钢,而略低于奥氏体型不锈钢;电阻率按碳钢、铁素体型、马氏体型和奥氏体型不锈钢排序递增;线膨胀系数大小的排序也类似,奥氏体型不锈钢最高而碳钢最小;碳钢、铁素体型和马氏体型不锈钢有磁性,奥氏体型不锈钢无磁性,但其冷加工硬化生成成氏体相变时将会产生磁性,可用热处理方法来消除这种马氏体组织而恢复其无磁性。

奥氏体型不锈钢与碳钢相比,具有下列特点:

1)高的电阴率,约为碳钢的5倍。

2)大的线膨胀系数,比碳钢大40%,并随着温度的升高,线膨胀系数的数值也相应地提高。

3)低的热导率,约为碳钢的1/3。

不锈钢的力学性

不论不锈钢板还是耐热钢板,奥氏体型的钢板的综合性能最好,既有足够的强度,又有极好的塑性同时硬度也不高,这也是它们被广泛采用的原因之一。奥氏体型不锈钢同绝大多数的其它金属材料相似,其抗拉强度、屈服强度和硬度,随着温度的降低而提高;塑性则随着温度降低而减小。其抗拉强度在温度15~80°C范围内增长是较为均匀的。更重要的是:随着温度的降低,其冲击韧度减少缓慢,并不存在脆性转变温度。所以不锈钢在低温时能保持足够的塑性和韧性。

不锈钢的耐热性能

耐热性能是指高温下,既有抗氧化或耐气体介质腐蚀的性能即热稳定性,同时在高温时双有足够的强度即热强性。

不锈钢国际标准标准

标准 标准名


GB 中华人民共和国国家标准(国家技术监督局)

KS 韩国工业标准协会规格Korean Standard

AISI 美国钢铁协会规格America Iron and Steel Institute

SAE 美国汽车技术者协会规格Society of Automative Engineers

ASTM 美国材料试验协会规格American Society for Testing and Material

AWS 美国焊接协会规格American Welding Society

ASME 美国机械技术者协会规格American Society of Mechanical Engineers

BS 英国标准规格British Standard

DIN 德国标准规格Deutsch Industria Normen

CAS 加拿大标准规格Canadian Standard Associatoin

API 美国石油协会规格American Petroleum Association

KR 韩国船舶协会规格Korean Resister of Shipping

NK 日本省事协会规格Hihon Kanji Koki

LR 英国船舶协会规格Llouds Register of Shipping
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条