1)expansion property膨胀性能
1.Study of the expansion property of API L80 casing;APIL80套管的膨胀性能试验研究
2.Carbide formation law of Fe-38Ni-Mo-V-C series alloy has been studied with physical methods of magnetic and expansion property testing.采用磁性能和膨胀性能测试的物理方法,研究了Fe-38Ni-Mo-V-C系合金的碳化物 形成规律。
英文短句/例句
1.Effect of fly ash on expansion of MgO expansive cement and its mechanism粉煤灰对氧化镁微膨胀水泥膨胀性能的影响及机制
2.Experimental research on expansive ability and limit bearing capacity of expansible concrete-filled steel tube微膨胀钢管混凝土膨胀性能与极限承载力试验研究
3.Influence of NbC Precipitation on Thermal Expansion Properties of Niobium Super-Invar AlloyNbC析出对超因瓦合金膨胀性能影响
4.INFLUENCE OF AGGREGATE SIZE ON THERMAL EXPANSION PROPERTY OF CONCRETE骨料粒径对混凝土热膨胀性能的影响
5.Study on Expansion and Intercalation Properties of Muscovite白云母的化学膨胀性及插层性能研究
6.Study on Properties of Epoxy Resin Modified by ZrW_2O_8 with Negative Thermal Expansion负热膨胀ZrW_2O_8改性环氧树脂性能研究
7.Effect of Modification of the Expanded Graphite on Adsorptive Properties to Formaldehyde膨胀石墨改性对甲醛吸附性能的影响
8.coefficient of linear thermal expansion线性热(膨)胀系数
9.Study on In Situ Synthesis of Polyaniline/Exfoliated Graphite Composites and Electric Property原位聚合-热膨胀制备聚苯胺/膨胀石墨复合物及导电性能研究
10.A Study on Properties of Low Thermal Expansion High Nickel Cast Iron Containing 2%Cr含2%铬的高镍低膨胀铸铁性能的研究
11.Pilot Study the Microstructure and Properties of Expansion Alloy 4J43;膨胀合金4J43组织和性能的初步研究
12.Synthesis and Study on Catalysis Performance of the Expandable Graphite;可膨胀石墨的合成及其催化性能研究
13.Single Expansion Ramp Nozzle Design and Performance Analysis;非对称大膨胀比喷管设计及性能分析
14.Research of Expansive Admixture s Effectiveness in High Performance Concrete;高性能混凝土膨胀剂效用的试验研究
15.The Characteristics and Functions of Expansins in Wheat Coleoptiles;小麦胚芽鞘膨胀素的性质与功能分析
16.Research on Preparation and Properties of Intumescent Flame Retarded LLDPE/EVA Material膨胀阻燃LLDPE/EVA材料的制备及性能研究
17.Formation and properties of low expansive and heat-resistant aluminum alloy with high silicon content耐热低膨胀高硅铝合金的成形与性能
18.Effect of Overdose SO_4~(2-) of Expansive Agent on Concrete Property膨胀剂中过量SO_4~(2-)对混凝土性能影响
相关短句/例句
thermal expansion property热膨胀性能
1.The thermal expansion property testing indicated that the CTEs of the composites were increased non-linearly with the temperature; When SiC volume fraction was a certain, the CTEs of the composite decreased with the SiC particle si.以电子封装基片为应用背景,采用挤压铸造方法制备了体积分数为55%,不同颗粒粒径增强的SiCp/Cu复合材料,并分析测试了颗粒粒径和热处理状态对材料热膨胀性能的影响规律。
2.The AH36 and Q345 steels were chosen for their measurement of thermal expansion property, and the change law for thermal expansion property of cast slab between the processes of heating and cooling at different temperature change rate was studied.选取AH36,Q345两个钢种进行热膨胀性能测试,研究了连铸坯在升降温过程和不同升降温速度条件下热膨胀性能的变化规律。
3)thermal expansion热膨胀性能
1.3D-C/SiC composites with PyC interphase in different thickness were fabricated by low pressure chemical vapour infiltration (LPCVI),and the effect of PyC interphase thickness on thermal expansion of 3D-C/SiC composites is studied.利用减压化学气相浸渗(LPCVI)技术制备了3D C/SiC复合材料,从热解碳(PyC)界面相厚度对界面结合强度和热应力的影响出发,研究了界面相对复合材料热膨胀性能的影响。
2.The effects of SnO_2 coating content on the tensile properties and thermal expansion behaviors were analyzed.利用X射线衍射、扫描电镜、能谱以及透射电镜等方法对晶须表面涂层和复合材料的界面结构进行了研究;分析了SnO_2涂层含量对复合材料挤压铸造性能、常温拉伸性能以及热膨胀性能的影响规律;探讨了SnO_2涂层含量对复合材料高温压缩变形行为的影响机制,并对压缩变形后复合材料的织构进行了测定。
4)dilatancy,expansiveness,expansion characteristic膨胀性能<冶>
5)die sw挤出膨胀性能
1.The microstructure,rheological properties and die swell of clay/SBR nano composite and carbon black/SBR compound were investigated with TEM and Monsanto rheometer.用透射电子显微镜和孟山都流变仪研究了SBR粘土纳米复合材料和SBR炭黑混炼胶的微观结构、流变性能和挤出膨胀性能。
6)high performance expansion admixture高性能膨胀剂
1.Research and production of high performance expansion admixture(CMA);高性能膨胀剂(CMA)的研究与生产
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
