1) wind-induced internal pressure response
风致内压响应
1.
Influence of background porosity on wind-induced internal pressure response for structures with openings;
背景孔隙对开孔结构风致内压响应的影响
2) wind-induced response
风致响应
1.
Block Ritz method of computation for wind-induced response of single-layer latticed domes;
单层球面网壳结构风致响应计算的块里兹向量法
2.
Application of POD to calculation of wind-induced response of large roofs;
POD在大跨屋盖风致响应计算中的应用
3.
Theoretical method and wind tunnel tests were carried out to investigate wind-induced response for closed type roof structure.
为了研究封闭式屋盖结构的风致响应特性,用理论方法与风洞试验进行定性与定量分析。
3) wind induced response
风致响应
1.
An experimental study on the wind induced response and aerodynamic damping of Guangzhou West Tower
广州西塔风致响应和气动阻尼特性的试验研究
2.
Simplifying the computational process of wind induced responses of tall buildings is very important for practical purpose and code applications.
简化高层建筑风致响应的计算对实际工程和规范应用均具重要意义。
3.
Computational methods and representative characteristics of wind induced responses and equivalent static wind loads of tall buildings are discussed in detail.
将结构风致响应分解为平均响应、动力响应的背景分量和共振分量,给出了相应的计算公式;还给出了背景和共振等效静力风荷载的计算公式,提出了等效静力风荷载组合的一种简便方法,并讨论了计算背景分量的QML法和LRC法的差异。
4) wind-induced dynamic response
风致响应
1.
Random wind-induced dynamic response of long-span roof to thunderstorm downbursts in the time domain;
冲击风作用下大跨屋盖多模态随机风致响应研究
2.
Random discrete wind-induced dynamic response of long-span roof in disaster windy environments;
灾害天气下大跨屋盖多模态随机离散风致响应研究
3.
The wind-induced dynamic responses of the structure were obtained in the time domain, including Mean nodal displacement, RMS displacement and RMS acceleration.
该文以某一大型薄壁钢管构架为工程背景,结合多阶模态力法和模态解耦原理,提出了多模态显式积分法,并推导了结构风致响应与风振系数的计算公式。
5) wind-induced structural internal force response
结构风致内力响应
6) wind-induced internal pressure
风致内压
1.
Review of wind-induced internal pressure and its effects on roof structures;
风致内压及其对屋盖结构的作用研究现状评述
2.
Influence of wind-induced internal pressure on wind-induced response of long-span roof;
风致内压对大跨屋盖风振响应的影响
3.
And some results have been obtained by studying on the wind-induced internal pressure and the influence of internal pressure to single-side holed structure.
本文利用计算流体动力学通用软件FLUENT对具有复杂体型的大跨空间屋盖结构进行数值分析,研究了结构在体型逐渐变化的过程中风压分布的变化规律;针对单面开孔结构的风致内压问题,以及内压对结构的影响做了深入的研究,得到一些有价值的结论。
补充资料:-戊内酯、3-甲基丁内酯、咖吗-戊内酯
CAS: 108-29-2
分子式: C5H8O2
分子质量: 100.12
沸点: 207-208℃
熔点: -31-208℃
中文名称: 4-戊内酯、γ-戊内酯、3-甲基丁内酯、咖吗-戊内酯
英文名称: dihydro-5-methyl-2(3H)-Furanone、dihydro-5-methyl-2(3h)-furanon、4-hydroxypentanoic acid lactone、4-hydroxyvaleric acid lactone、4-methyl-gamma-butyrolactone、gamma-methyl-gamma-butyrolactone、gamma-valerolakton
性质描述: 无色至微黄色液体。凝固点-31℃,沸点205-206.5℃,83-84℃(1.73kPa),相对密度(25/25℃)1.0578,折光率(nD25)1.4301。能与水、许多有机溶剂、树脂和蜡等混溶。10%水溶液的pH为4.2。
生产方法: 由不饱和羧酸通过闭环反应来合成,例如乙酰乙酸与硫酸共热,或乙酰丙酸在镍、铜等催化剂存在下加氢。
用途: γ-戊内酯有较强的反应能力,可用作树脂溶剂及各种有关化合物的中间体。也用作润滑剂、增塑剂、非离子型表面活性剂的胶凝剂、加铅汽油的内酯类添加剂,用于纤维素酯和合成纤维的染色。γ-戊内酯具有香兰素和椰子香味。我国GB2760-86规定为允许使用的食用香料。主要用以配制桃、椰子、香草等型香精。
分子式: C5H8O2
分子质量: 100.12
沸点: 207-208℃
熔点: -31-208℃
中文名称: 4-戊内酯、γ-戊内酯、3-甲基丁内酯、咖吗-戊内酯
英文名称: dihydro-5-methyl-2(3H)-Furanone、dihydro-5-methyl-2(3h)-furanon、4-hydroxypentanoic acid lactone、4-hydroxyvaleric acid lactone、4-methyl-gamma-butyrolactone、gamma-methyl-gamma-butyrolactone、gamma-valerolakton
性质描述: 无色至微黄色液体。凝固点-31℃,沸点205-206.5℃,83-84℃(1.73kPa),相对密度(25/25℃)1.0578,折光率(nD25)1.4301。能与水、许多有机溶剂、树脂和蜡等混溶。10%水溶液的pH为4.2。
生产方法: 由不饱和羧酸通过闭环反应来合成,例如乙酰乙酸与硫酸共热,或乙酰丙酸在镍、铜等催化剂存在下加氢。
用途: γ-戊内酯有较强的反应能力,可用作树脂溶剂及各种有关化合物的中间体。也用作润滑剂、增塑剂、非离子型表面活性剂的胶凝剂、加铅汽油的内酯类添加剂,用于纤维素酯和合成纤维的染色。γ-戊内酯具有香兰素和椰子香味。我国GB2760-86规定为允许使用的食用香料。主要用以配制桃、椰子、香草等型香精。
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