1) composite frame
叠合框架
1.
In order to investigate mechanical characteristics and damage features of the model on sections of two-stage loading composite frame beams,experiments on 4 composite frames were carried out.
通过 4榀叠合框架的足尺实验 ,研究了二次受力叠合框架梁的力学性能和破坏形态。
2.
Compared with the results of two test specimens,the seismic behavior of HPC composite frame under laterally reversed low-cyclic loading is discussed.
介绍了两榀高效预应力混凝土 (HPC)叠合框架和 1榀 (RC)整浇框架模型试验 ,并对试验结果进行了比较。
3.
On the basis of full-range nonlinear analysis of 140 composite frames, the effects of different parameters on the moment modulation of prestressed concrete composite frame are discussed with a formula suggested for computing the moment modulation.
通过对140榀混凝土框架的非线性全过程分析,讨论了各种参数对预应力混凝土叠合框架调幅的影响,提出了调幅计算公式,并通过模型试验验证,两者所得的结果较为接近。
2) composite beam frame
叠合梁框架
1.
On the basis of the experimental information on two composite beam frames and one cast in place frame, this paper analyzes in detail mechanical behavior and deformation of columns in composite beam frames by way of comparative study.
根据两榀叠合梁框架、一榀整浇框架的实测资料,采用对比分析的方法,对叠合梁框架柱和整浇框架柱的受力性能及变形特征进行对比分析。
3) frame with composite beam and cast-in-place column
现浇叠合梁框架
4) HPC composite frame
高效预应力叠合框架
1.
According to the practical datum of two pieces of HPC composite frame and one piece of RC frame, the forcing behavior of HPC composite frame column and RC frame is compared and studied.
根据两榀高效预应力叠合框架和一榀整浇框架的实测资料 ,对预应力叠合框架柱和整浇框架柱的受力性能进行了对比研究 ,分析了叠合框架柱在水平低周荷载作用下进入弹塑性阶段后 ,受拉区钢筋出现应变超前的本质原因。
5) connection with composite beam and cast-in-place column
现浇注叠合梁框架节点
6) composite frame
组合框架
1.
Practical analysis of natural periods for semi-rigidly connected multi-story composite frames;
半刚性连接多层组合框架自振周期实用计算方法
2.
Non-linear analysis of new concrete composite frames construction model;
新型混凝土组合框架结构模型的非线性分析
3.
Design of beams for semi-rigid composite frames at ultimate limit state under vertical loads;
竖向荷载下半刚性连接组合框架梁的承载能力极限状态设计
补充资料:催化叠合
分子式:
CAS号:
性质:炼油工业较早应用的工艺之一。其工艺流程简单,原料易得,产品汽油的辛烷值高。按原料组成和目的产品的不同,叠合工艺可分两类。(1)非选择性叠合,用未经分离的C3、C4液化气作原料,目的是生产高辛烷值的叠合汽油。(2)选择性叠合,用组成比较单一的丙烯或丁烯馏分作原料,生产某种特定的产品,如丙烯选择性叠合生产四聚丙烯作洗涤剂或增塑剂;异丁烯选择性叠合生产高辛烷值汽油等。
CAS号:
性质:炼油工业较早应用的工艺之一。其工艺流程简单,原料易得,产品汽油的辛烷值高。按原料组成和目的产品的不同,叠合工艺可分两类。(1)非选择性叠合,用未经分离的C3、C4液化气作原料,目的是生产高辛烷值的叠合汽油。(2)选择性叠合,用组成比较单一的丙烯或丁烯馏分作原料,生产某种特定的产品,如丙烯选择性叠合生产四聚丙烯作洗涤剂或增塑剂;异丁烯选择性叠合生产高辛烷值汽油等。
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