1) artificial weather control
人工气候控制
2) weather master
人工气候控制器
3) artificial climate
人工气候
1.
Similar design on accelerated test of artificial climate simulation
人工气候模拟加速试验的相似性设计
2.
By cormeching the practical sample, introduces the greenhouse of Expo' 99 Kunming for construction characteristics, special retirements for inside air temperature and humidity, artificial climate design as well as the application of low temperature air ─ conditioning system with ethylene glycol as coolant.
结合工程实际,介绍'99世界园艺博览会大温室的工程特点,对室内空气温湿度的特殊要求,人工气候的设计以及乙二醇低温空调系统的应用。
3.
The carrying capacity,ductility and structural behavior s deterioration of corroded reinforced concrete beams were studied by the accelerated corrosion methods under artificial climate.
通过采用人工气候环境加速锈蚀方法,研究了锈蚀钢筋混凝土梁的承载力、延性及其结构性能退化机理。
4) man-made climate
人工气候
1.
Experimental study on accelerated reinforcement corrosion of "Double Mixture" high performance concrete in man-made climate;
人工气候环境下“双掺”高性能混凝土内钢筋加速腐蚀试验研究
2.
In this paper,by the accelerated corrosion methods of man-made climate and galvanostatic to corrode the bars,experiments were carried out to study the different structure behavior of corroded reinforced concrete beams,and it was learned that the condition of man-made climate was closer to practice than galvanostatic method.
通过采用人工气候和通电快速锈蚀模拟方法,对锈蚀钢筋混凝土梁进行试验,以对比研究结构性能退化机理,结果发现锈蚀后钢筋混凝土梁的强度、延性和破坏形态发生了急剧变化,而且人工气候环境下的混凝土内钢筋锈蚀比通电条件能更好的贴近实际情况。
5) artificial weather
人工气候
1.
The relativity of accelerating deterioration between artificial weather and nature on the durability experiment of RC;
钢筋混凝土耐久性人工气候加速退化试验的相关性研究
2.
The durability of HPC(high performance concrete) in seawater surroundings was studied in artificial weather room.
利用人工气候室,对氯侵蚀环境下“双掺”高性能混凝土的耐久性进行了模拟实验研究,对比结果表明双掺高性能混凝土的抗氯离子扩散性能、抗钢筋锈蚀性能都比普通混凝土有较大提高。
3.
This algorithm has been simulated and practically applied in artificial weather intelligent control system.
本文就模糊控制的发展和规则自寻优模糊控制算法进行了深入研究,并以人工气候室为控制对象,进行了仿真研究和实际应用。
补充资料:人工气候老化
分子式:
CAS号:
性质:将材曝露于人工设计的实验室环境条件中,连续或间隙地模拟户外曝晒中遇到的条件,包括温度、湿度、紫外线、直接喷水及光照等。为加速老化,实验室曝露条件比实际曝露在室外的条件强烈得多。用测定试样曝露前后的颜色、外观、力学性能或其他性能的变化表示老化性能,是快速评价材料老化性能和选材的重要依据。
CAS号:
性质:将材曝露于人工设计的实验室环境条件中,连续或间隙地模拟户外曝晒中遇到的条件,包括温度、湿度、紫外线、直接喷水及光照等。为加速老化,实验室曝露条件比实际曝露在室外的条件强烈得多。用测定试样曝露前后的颜色、外观、力学性能或其他性能的变化表示老化性能,是快速评价材料老化性能和选材的重要依据。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条