1)heat dissipation performance散热性能
1.Study on heat dissipation performance of tread pattern of TBR tire;全钢载重子午线轮胎胎面花纹散热性能探讨
2.The result indicated that its heat dissipation performance satisfied totally the 115 W CPU s heat dispel request,and indicated that only improving the motor fan s rotate speed can t increase the exchanger and the system performance efficiently.对一种台式机所用的热管式CPU散热器的散热性能进行了试验研究和数值模拟。
3.In this study presented, the heat dissipation performance of CPU radiator under forced convection is investigated based on experimental methods, the flow field and temperature field are investigated based on numerical simulation.CPU散热器是流体力学和传热学领域的重要研究对象之一,本文主要对CPU风冷散热器在空气强制对流条件下的散热性能进行实验研究,并对散热器的流场及温度场进行数值模拟。
英文短句/例句
1.Experimental Testing of Heat Dissipation Peformance of CPU Air Cooling RadiatorCPU风冷散热器散热性能的实验测试
2.The Performance Study of the CuproBraze~(?) Splitter Fins Radiator;铜硬钎焊双波浪带散热器散热性能研究
3.Design of the Vehicles Radiator s Heat Transfer Performances Testing System Based on Industry Computer;汽车散热器散热性能计算机测试系统研究
4.Effect of Nonmetallic Thermal Conductive Materials on Thermolysis Property of HPLED非金属基导热材料对HPLED散热性能影响
5.Test Investigation of Heat Transfer Performance of Heat-tube Charged with Nanofluid of R600a and Nano-Aluminium以R600a-纳米铝为工质的热管散热性能试验研究
6.Heat Dissipation Analysis of High Power LED Based on Thermoelectric Cooler基于热电制冷的大功率LED散热性能分析
7.Investigation of Calculation Method of Fuel-Oil Radiator Performance Curve Cluster航空发动机燃-滑油散热器散热性能曲线簇计算方法研究
8.Heat Dissipation Analysis and Design of Ultra-light Cellular Materials and Electronic Equipment;超轻多孔材料及电子设备散热性能分析与设计
9.The Analysis to the Engineering Heat Raditor Performance of the Mobile Passenger Boarding Bridge;移动登机桥散热器工程传热性能分析
10.EXPERIMENTAL RESEARCH AND NUMERICAL SIMULATION ON THERMAL PERFORMANCE OF A HEATPIPE-TYPE HEAT SINK热管型散热器换热性能的实验研究及数值模拟
11.The heater can give off much warmth.加热器能散发出热能。
12.Design and Realization of Performance Test-bed for Construction Vehicle Cooling System;工程车辆散热系统性能试验台的研制
13.THE ERFORMANCE RESEARCH OF THE TUBE AND CORRUGATED FIN FADIATOR OF THE AUTOMOTIVE ENGINE;车用发动机管带式散热器性能的研究
14.Study on performance of MEA prepared by heated-spray method for direct methanol fuel cell加热喷雾法制备DMFC扩散层的性能研究
15.Experimental and numerical study on the performances of mini-channel heat sinks微细槽道散热器性能实验和数值研究
16.Design and Performance Test of Steel Shape Tube Radiator钢质异型管散热器的设计与性能测试
17.Heat-Transfer Analysis of Metal Foam and Optimization Design of Heat Dissipation Structure金属泡沫传热性能分析与散热结构优化设计
18.Research in heat transfer performance and flow resistance of corrugated automobile radiator管带式散热器流动阻力与传热性能分析
相关短句/例句
Heat dissipation散热性能
1.Thick diamond films were synthesized on Al 2O 3 rod using a microwave plasma chemical vapor deposition technique,which can be taken over the traditional BeO rod and used in the wide band high power TWT to improve the heat dissipation greatly.采用微波等离子体化学气相沉积法在行波管Al2 O3 夹持杆上沉积金刚石厚膜 ,取代传统有毒的氧化铍陶瓷杆 ,用于宽带大功率行波管改善其散热性能 。
2.The result indicated that the bigger the thermal conductivity of the chip bonding layer material,the smaller the thermal resistance of the component,and the better the heat dissipation,and that selecting the chip bonding material has significant influence to the thermal properties of the component.分析了功率型LED热阻系统的构成,通过Flotherm软件对不同材料的芯片键合层的功率型LED进行热分析,结果表明,芯片键合层材料的导热系数越大,器件的热阻越小,散热性能越好,选用芯片键合材料对功率LED器件的热性能有着重大的影响。
3.By using the method,employing the variation in resistance of helix with temperature,the heat dissipation capability of the helix traveling-wave tube slow-wave structure(SWS) made by several helix assembling methods have been tested.利用电阻温度系数法对几种方法制备的慢波组件散热性能进行了实验研究,结果表明石墨热挤压法、磁控溅射覆膜法及压力扩散焊接法和无变形热挤压法比冷弹压法和传统的缠钼带热挤压法制备的慢波组件散热性能强许多。
3)heat transfer performance散热性能
1.The heat transfer performance which effected by the main geometrical parameters such as the height of circular pin,the base height o.分析钉柱高度、基座高度、钉柱个数和钉柱直径等几何参数对叉指式散热器综合散热性能的影响。
4)Heat dissipation capability散热性能
1.The effect of the thermal resistance at two interfaces on heat dissipation capability of the SWS is analyzed.分析了两个接触处的界面热阻率对慢波结构散热性能的不同影响。
5)radiator performance散热器性能
6)heat rejection efficiency散热效能
1.Effect of heat transfer performance of heat pipe on heat rejection efficiency of the miniature heat pipe heat exchanger;热管传热性能对小型热管换热器散热效能影响
2.The experimental design and multivariate analysis of heat rejection efficiency of miniature heat pipe heat exchanger小热管换热器散热效能试验设计与多因素分析
延伸阅读
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
