1) heat wave propagation
热波动
1.
This paper deals with the numerical simulation of heat wave propagation.
运用时域间断Galerkin有限元法[1],对高频非傅立叶热波动问题[2-3]进行分析。
2) heat wave
热波
1.
The propagation of heat waves and the influencing factors in tank fires of heavy oils;
重质油罐火灾热波传播及影响因素研究
2.
It is demonstrated that negative entropy flow exists in shock wave and shock wave is a kind of heat wave which transfers heat with traveling wave velocity.
证明了激波是一种负熵流波,是依靠激波波速输运热流的热波。
3.
Shock wave images were recorded by optical streak camera, heat wave and rarefaction wave images were measured using X ray streak camera.
在“星光Ⅱ”上 ,使用三倍频激光打三种厚度 (6 ,10和 2 0 μm)的铝介质平面靶 ,采用光学条纹相机记录冲击波图像 ,对热波和稀疏波进行测量 ,同时开展冲击波、热波和稀疏波三波相互作用规律的初步研究 ,采取多种措施成功地观测到冲击波在前、辐射热波在后、稀疏波更晚的三波物理图
3) thermal wave
热波
1.
An application of the theory of thermal wave: dynamic measure of the heat conductivity of a good thermal conductor;
热波理论的应用——良导热体热导率的动态法测量
2.
The thermal wave distribution in the Ni-Ce-Cu-L i/Al 2O 3 catalyst bed for the reaction of CH 4, CO 2 and O 2 to syngas was studied by a micro fixed-bed reactor.
采用微型固定床反应装置 ,研究了甲烷、二氧化碳和氧气制氧化重整合成气时Ni Ce Cu Li/Al2 O3催化剂床层的热波分布 ,考察了炉温和进料配比对催化剂床层热波分布的影响 。
3.
The thermal wave in a fixed bed reactor for catalytic partial oxidation of methane (POM) to syngas was investigated under various conditions, such as furnace temperature, space velocity, n (CH 4)/ n (O 2) and diluted/undiluted catalyst beds.
研究了 甲烷部 分氧化( P O M) 反 应 在 固定 床 反应 器 中 轴向 的 温度 场 分 布( 或 热波 分 布) 。
4) Infrared thermal wave
红外热波
1.
Measurement of defect depth by infrared thermal wave nondestructive evaluation based on pulsed phase;
基于脉冲位相的红外热波无损检测法测量缺陷深度
2.
FFT-based Image Mosaicing of Infrared Thermal Wave Images;
基于傅里叶变换的红外热波图像拼接
3.
To satisfy the increased requirements in quantitative defect depth measurements, pulse phase thermograph is proposed based on the property of pulsed infrared thermal wave nondestructive testing.
针对目前缺陷深度定量无损检测的需求,利用脉冲式红外热波无损检测脉冲激励的特点,对平底洞试件进行脉冲式红外检测实验,在VC++中通过傅里叶变换处理得到位相热图序列,分析不同深度缺陷的盲频,进而得到缺陷深度。
5) thermal wave imaging
热波成像
1.
The basic conception, physical process and properties of thermal wave imaging are briefly introduced.
本文简要介绍了热波成像检测技术的基本概念,热波成像的物理过程、特点,综述了热波成像技术的开发和在材料科学中的应用。
2.
The results show that the thermal wave imaging would become main methods to detect the hidden corrosion in aircraft,at last,the latest developments domestic and abroad are presented.
总结对比了飞机隐藏腐蚀的各种检测方法,得出了热波成像技术成为飞机隐藏腐蚀检测发展新方向的结论,并介绍了基于热波成像技术的飞机隐藏腐蚀检测的国内外研究的进展情况。
3.
An infrared thermal wave imaging technique is developed for measuring thermal diffusivity of thin plate solid materials.
本文通过采用连续激光调制对试样周期加热产生稳定的温度波动和红外扫描动态测温的红外热波成像法获得温度波动的相位和幅值分布,测量固体材料热扩散率。
6) heat wave velocity
热波速度
1.
Investigation on the heat wave velocity of the crude oil storage tank fire;
原油储罐火灾热波速度的探究
2.
Based on data of Shengli,Daqing and Zhongyuan crude oils in different test tanks ofΦ300mm,Φ500mm andΦ1000mm,factors that have impacts on heat wave velocity are obtained.
并用热波速度、稳定高温层温度来表征原油热波特性,采用数理统计的方法,对原油热波特性与其影响因素之间的关系进行处理。
参考词条
补充资料:负温度系数热敏电阻陶瓷(见热敏陶瓷)
负温度系数热敏电阻陶瓷(见热敏陶瓷)
thermo-sensitive ceramics with negative temperature coefficient
负温度系数热敏电阻陶瓷thermo一sensitiveeeramies with negative temperature eoeffieient在某一特定温度范围,电阻率随温度的升高而明显减小的热敏陶瓷。简称NTC陶瓷。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。