Because of good quality of compressive resistance, the hyperbolic arch dam is being increasingly applied to engineering projects. In order to satisfy the needs of compressive resistance under the conditions of high wa...Because of good quality of compressive resistance, the hyperbolic arch dam is being increasingly applied to engineering projects. In order to satisfy the needs of compressive resistance under the conditions of high water pressure, a stress analysis is required for the dam. During the stress analysis process however, due to the complexity of the three-dimensional modeling, it is very hard to form a model. Therefore, the stress analysis process is a barrier for the arch dam. In this article, based on the research of the new line-type arch dam, a mathematical model in different degree of convexity conditions of the dam is established; using the C + + language program, a computer three-dimensional model simulation is realized on AutoCAD. The accurate three-dimensional model is providing a finite element optimization design of the involute hyperbolic arch dam for the next step.展开更多
采用等离子直流电弧法,在氢气、氩气、甲烷分压分别为10、20、7.5 k Pa的混合气氛下制备纳米SiC@C核壳型复合粒子。利用XRD、Raman对纳米粒子的成分进行表征,用TEM对其形貌进行分析。将纳米SiC@C复合粒子均匀分散在石蜡基体中,在100 MHz...采用等离子直流电弧法,在氢气、氩气、甲烷分压分别为10、20、7.5 k Pa的混合气氛下制备纳米SiC@C核壳型复合粒子。利用XRD、Raman对纳米粒子的成分进行表征,用TEM对其形貌进行分析。将纳米SiC@C复合粒子均匀分散在石蜡基体中,在100 MHz^18 GHz频率内测定其复介电常数。结果表明,当电磁波吸收材料匹配厚度为8 mm、测试频率为9.49 GHz时,最大反射损耗能达到-27 d B。对SiC介电特性分析进一步表明,SiC中的C空位(VC)和Si空位(VSi)产生的偶极子发生的弛豫过程和SiC缺陷带来的电导率变化是影响介电性能的关键因素。展开更多
基金Supported by Postgraduate Education Innovation Fund of Chongqing Jiaotong University
文摘Because of good quality of compressive resistance, the hyperbolic arch dam is being increasingly applied to engineering projects. In order to satisfy the needs of compressive resistance under the conditions of high water pressure, a stress analysis is required for the dam. During the stress analysis process however, due to the complexity of the three-dimensional modeling, it is very hard to form a model. Therefore, the stress analysis process is a barrier for the arch dam. In this article, based on the research of the new line-type arch dam, a mathematical model in different degree of convexity conditions of the dam is established; using the C + + language program, a computer three-dimensional model simulation is realized on AutoCAD. The accurate three-dimensional model is providing a finite element optimization design of the involute hyperbolic arch dam for the next step.
文摘采用等离子直流电弧法,在氢气、氩气、甲烷分压分别为10、20、7.5 k Pa的混合气氛下制备纳米SiC@C核壳型复合粒子。利用XRD、Raman对纳米粒子的成分进行表征,用TEM对其形貌进行分析。将纳米SiC@C复合粒子均匀分散在石蜡基体中,在100 MHz^18 GHz频率内测定其复介电常数。结果表明,当电磁波吸收材料匹配厚度为8 mm、测试频率为9.49 GHz时,最大反射损耗能达到-27 d B。对SiC介电特性分析进一步表明,SiC中的C空位(VC)和Si空位(VSi)产生的偶极子发生的弛豫过程和SiC缺陷带来的电导率变化是影响介电性能的关键因素。