土壤导热特性测量实验装置的研制

G. Muhammad, Amanullah Marri, Abdul Majeed Shar
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引用次数: 2

摘要

热导率在工程结构设计中发挥着关键作用,其中热和温度引起的热应力是人们关注的问题。在测量不同材料的导热系数方面做了大量的工作。对于土壤样品的导热性表征,有非常灵活的设置是必不可少的。因此,本文详细介绍了国内开发的热导率测量实验装置。这个新开发的装置的设计是基于稳态热流的基本原理。本实验装置设计用于测量各种材料的导热性,如土壤、岩石、混凝土和任何类型的未粘结和粘结材料。本文首先介绍了热流测量技术的理论背景和原理,然后进行了设计说明和工作步骤。设计一直保持非常简单,可调整不同类型和大小的标本,易于操作,具有优异的精度水平,从系统校准明显。通过对已知热导率标准物质的测试,验证了该装置的准确性和精密度,实验数据与拟合曲线具有较高的相关系数(R2 = 0.999)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Experimental Setup for Measuring Thermal Conductivity Characteristics of Soil
Thermal conductivity displays a key role in design of engineering structures where, thermal stresses resulting from heat and temperatures are of concern. Significant efforts were made to measure the thermal conductivity of different materials. For thermal conductivity characterization of soil samples it is essential to have very flexible set-up. Hence, this paper provides details about indigenously developed experimental setup for thermal conductivity measurement. The design of this newly developed setup is based on the basic principle of steady state heat flow. This experimental setup is designed in order to measure the thermal conductivity of various materials such as soils, rocks, concrete and any type of unbonded and bonded materials. In this paper, initially the theoretical background of the measurement techniques and the principle of heat flow are described, followed by design description and working procedure. The design has been kept very simple, adjustable for varying type and size of specimens and easy to operate with excellent level of accuracy as evident from system calibration. The accuracy and precision of the newly developed setup was verified by testing reference materials of known thermal conductivity and in the test results a high correlation coefficient (R2 = 0.999) between experimental data and fitting curve was achieved.
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