We obtained the laser heat source term expression and deduced the bio-tissue heat transfer equation, the solution conditions related were also summarized.
得到了激光作用生物组织的热源项,推导了生物热传输方程,并对其定解条件进行了探讨。
Bio-heat transfer science, which mainly studies the heat and mass transfer law, is an interdisciplinary science of biology, thermophysics and clinical medicine.
生物传热学主要是研究生物体的传热传质规律,是生物学、热物理学与临床医学的交叉。
A dynamic simulation of sun-light greenhouse thermal environment was made by using the heat transfer and bio-environmental engineering theory.
本研究运用传热学和生物环境工程学的理论,建立了日光温室热环境的动态数学模型。
The tissue temperature responses generated from heating by a spherical thermistor probe were calculated by using a numerical method, in which different bio-heat transfer models were adopted.
采用数值方法,分析了不同生物传热模型条件下,采用热敏电阻探头加热时,生物组织中温度响应的动态特征。
Mathematical model is very important to the study of Bio-heat transfer, and it is also the common foundation for both of the theoretical research and practical application.
数学模型在生物传热的研究中占有极其重要的地位,是进行理论探讨和现实应用的共同基础。
This simulation is a bio-heat transfer research according to true shape and true heated state.
体现出依据生物体的真实形状和真实受热状态而进行的生物传热研究。
The intact method of the inconstant physiological parameter measurements for living things is one of the difficult problems in the study of bio-heat transfer.
无创获取生物体变物性参数的方法,是生物传热研究的难题之一。
Simulation of the 3D temperature field of the organism as the arterial tree is taken as a heat source is an accurate way to calculate the bio-heat transfer.
用血管树作为内热源进行生物体三维温度场重构是一种较为精确的生物传热计算方法。
Objective To study the thermography applications in Diabetes Mellitus research based on bio-heat transfer theory.
目的基于生物传热理论,研究红外热像图在糖尿病研究中的应用。
Objective To study the thermography applications in Diabetes Mellitus research based on bio-heat transfer theory.
目的基于生物传热理论,研究红外热像图在糖尿病研究中的应用。
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