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1)  through interior diaphragm
内隔板贯通
2)  joints connected by continuous diaphragms
内隔板贯通式节点
3)  beam-through type
隔板贯通式
1.
Several types of rigid beam-column connections used in high seismic region will be recommended by presently revised "Technical specification for steel structure of tall buildings" (JGJ99), one of which is beam-through type box-column connected to H-shaped beam with side-plate reinforced beam flanges.
正在修订的《高层民用建筑钢结构技术规程》(JGJ99)拟推荐几种有良好抗震性能的梁柱刚性连接形式,隔板贯通式箱形截面柱与梁端翼缘侧板加强式工字形截面梁的刚性连接是其中的一种。
4)  diaphragm-through joints
隔板贯通节点
1.
Ten specimens of the diaphragm-through joint model are studied by static tensile tests to investi,and the experimental results indicate that diaphragm-through joints have high yield load-bearing capacity and good ductility.
为研究方钢管混凝土柱与钢梁翼缘连接的受力性能,对隔板贯通节点梁翼缘受拉模型进行了十个节点试件的静力拉伸试验,试验结果表明,隔板贯通节点具有较高的承载力和良好的延性。
5)  joint with through diaphragms
隔板贯通式节点
1.
The similarities and differences are analysed between joint with through diaphragms .
为了促进方管柱-H型钢梁隔板贯通式节点的应用,在试验数据的基础上对其进行了有限元数值分析,对比隔板贯通节点与柱贯通节点的异同点,并分析了隔板挑出长度和轴压比对节点承载力的影响,提出改进方向。
6)  Diaphragm-Through Joint
隔板贯通节点
1.
Four full-scale cruciform specimens were subjected to low-reversed cyclic loading to investigate the seismic performance of diaphragm-through joint between concrete-filled square steel tubular column and steel beam.
结果表明,隔板贯通节点滞回曲线饱满,具有较强的耗能能力;钢梁翼缘与隔板的连接构造对节点的延性、耗能能力和刚度退化影响较大,倒角放坡型节点比侧板加强型节点具有更好的抗震性能;隔板的厚度、浇筑孔径和钢管的宽厚比对梁端破坏节点的抗震性能影响较小,但在试件中浇筑混凝土可以显著提高节点刚度,减小核心区的剪切变形,改善隔板贯通节点的抗震性能。
2.
In order to investigate the structural behavior of the connection between concrete-filled square steel tubular col-umn and steel beam flange,eleven cruciform specimens of diaphragm-through joint model were studied by static tensile test on the basis of load-bearing capability theory of joints.
为研究方钢管混凝土柱与钢梁受拉翼缘连接的结构性能,基于隔板贯通节点承载力理论,对11个十字形节点试件进行了静力拉伸试验。
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。
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