Relationship of heat transfer rate and filling rate is obtained, as well as the relationship of velocity and inner diameter, filling rate.
最后,对脉动热管的传热规律作了初步分析,得出了传热性能与充液率的关系,以及运行速度与管径,充液率的关系。
Therefore, it is feasible to analyze the bearing capacity of a large diameter single pile by three parameters load transfer function model of pile body and pile top and numerical iteration method.
说明文章提出的方法对计算大直径单桩的荷载与沉降曲线具有较好的适用性,利用桩身和桩端的三参数荷载传递函数模型和迭代算法分析大直径单桩的承载性状是可行的。
The paper also investigates the effect of rock-socketed depth, length-diameter ratio on the behavior of load transfer of rock-socketed piles.
探讨了桩的长径比、嵌岩深度对嵌岩桩的荷载传递性状的影响。
It has been shown that the heat transfer factor is closely related to the surface temperature, but the degree of correlation depends on the particle diameter and sieve range adopted.
结果表明,传热系数与表面温度密切相关,但相关程度取决于颗粒粒径及筛分范围。
The main factors influencing metal transfer are the component of flux, the shape of wire section, the diameter of wire, the thickness of the steel stripe, and the welding parameters.
影响熔滴过渡的主要因素是:药芯组成物、焊丝截面形状、焊丝直径和钢带厚度以及焊接工艺参数等。
A power profile is then determined as a function of the heat and mass transfer model for a given pull rate profile and model diameter profile.
然后确定作为给定提拉速率分布和模型直径分布的热和质量传送模型的函数的功率分布。
By experiment, the curves and equations of relationship between the heat transfer coefficient and parameters of average diameter, particle size distribution and particle speed are obtained.
用试验方法研究了固体粒子绕流园管的换热系数,得出了换热系数与固体粒子的平均直径、粒度分布、颗粒运动速度等参数的关系曲线和关系式。
The effect of the wire diameter on rotating transfer was studied. The results show that the smaller the diameter, the more the stability of LMJ.
分析了焊丝直径对液流束稳定性的影响,指出焊丝直径越细旋转射流过渡的稳定性越强,为实现稳定的旋转射流过渡提供了理论依据。
The research on the operating technology and load transfer mechanism of super long-large diameter bored pile;
通过土钉抗拔力学模型探讨了高压注浆土钉的抗拔荷载传递机理,简单介绍了其施工工艺。
So the rate of mass transfer can be intensified by reducing the particle diameter and increasing the gas and liquid velocity.
要强化传质,除了增加气液流速外还可以减小颗粒度。
So the rate of mass transfer can be intensified by reducing the particle diameter and increasing the gas and liquid velocity.
要强化传质,除了增加气液流速外还可以减小颗粒度。
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