1) structure of multi-rib panel
密肋壁板框架结构
2) frame-supported multi-ribbed slab structure
框支密肋壁板结构
1.
Rational ratio of lateral stiffness for frame-supported multi-ribbed slab structure in transfer stories
框支密肋壁板结构转换层刚度比的合理取值
2.
Based on the former research results,the calculation measure for the wall beam of frame-supported multi-ribbed slab structure has been studied in this paper.
结合课题组前期研究成果,对框支密肋壁板结构墙梁的计算方法进行研究。
3) frame-supported multi-ribbed wall beam
框支密肋壁板结构墙梁
1.
Research on Load-Bearing Performance and Design Method of Frame-Supported Multi-Ribbed Wall Beam;
框支密肋壁板结构墙梁受力性能及设计计算方法研究
2.
Considering the factors of height-to-span ratio of the trimmer beam,height-to-span ratio of the wall and height-to-length ratio of the bottom frame column section,the orthogonal design of one-span frame-supported multi-ribbed wall beam without opening was done and the internal forces of the trimmer beam were calculated with the finite element method.
考虑托梁高跨比、墙体高跨比、底部框架柱的截面高度与其长度之比诸因素,采用正交试验设计,通过对单跨无洞框支密肋壁板结构墙梁有限元计算结果的直观分析和方差分析,对其托梁内力的影响因素进行了显著性分析,并在此基础上利用回归分析得到了考虑墙梁组合作用的托梁内力系数。
3.
Considering the factors of height-to-span ratio of the trimmer beam,height-to-span ratio of the wall,section height-to-length ratio of the bottom frame column and the position of the opening in the wall,the orthogonal design of single-span frame-supported multi-ribbed wall beam with opening is done and the influence of the opening on the internal force of the trimmer beam is analyzed.
考虑托梁高跨比、墙体高跨比、底部框架柱的截面高度与其长度之比、墙体洞口位置诸因素,采用正交试件设计,对单跨带洞框支密肋壁板结构墙梁中洞口对托梁内力的影响进行了分析,进而通过回归分析得到了单跨带洞框支密肋壁板结构墙梁考虑墙梁组合作用的托梁内力系数。
4) Multi-ribbed Slab with Light Fram Structure
密肋壁板轻框结构
1.
Analysis and Research on Multi-ribbed Slab with Light Fram Structure s Non-linear Earthquake Response;
密肋壁板轻框结构非线性地震反应分析与研究
补充资料:多层厂房预制钢筋混凝土框架结构安装
多层厂房预制钢筋混凝土框架结构安装
installation of precast reinforced concrete frame structure for multilayer workshop building
定.11 ~.。」:柱1一可下门- 杯形井礴11铆椒,甲丫一目一一丫 位板沙父父护科月黔今了牛’J一一确r一一土- 二黑交哪嗯浮i钊粼减图“连接板埋设件连接法 图1柱子固定示意图柱子四面的连接板和埋设件,然后进行连接板外表面 的刷油和涂装。 由于混凝土的抗弯性能所限,混凝土柱不能过长。梁和板的安装在第一节柱安装完成后,及时将对较高的多层框架柱,一般都设计成多段,在预制厂分预制梁、板安装好,以尽快形成整体框架,保持结构的节制作,运至现场后,由安装者在高空对接成整根柱。稳定。梁与柱的连接多采用柱肩梁承接式,通过梁端头这种多节柱安装的关键在于柱与柱之间对接接口的施上下两面的埋设件与柱的埋设件焊接、固定(图4)。梁工,常用的接口型式有湿式连接(图2)和连接板埋设固定后,将预应力钢筋混凝土板座落在梁上,通过将大件连接(图3)两种。(1)湿式连接法。起吊前先实地板两端下边的埋设件与梁上面的埋设件焊接在一起,量测预留钢筋接头的尺寸,将接头调直,开好坡口;将将板固定起来(图5),使框架形成一个空间刚体。如接头处的混凝土面打毛处理,在柱头上事先系3一4根此逐层依次施工,直至完成多层厂房框架结构的全部缆绳,用于调整柱子就位后的垂直度。起吊后将上下柱安装工作的钢筋接头对准,并用两台经纬仪同时测量柱子相邻丁粉可-两面的垂直度,用缆绳进行校正。垂直度合格后进行对!」下称焊接,先焊接头支承面的钢板埋设件,再焊柱子四角!华卜一,一一洲二二的钢筋和全部对接钢筋,然后复核上下柱中心的垂直1七口,杏一一.州.去盛,度,若无偏差立即支模灌浆。(2)连接板埋设件连接法。IJ}}将柱子起吊后与下柱对准就位,并用两台经纬仪同时!//~测童校正相邻两面的中心线垂直度,合格后进行焊接。
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参考词条