1)t-shapedT形截面
1.Experiment and analysis of seismic behavior of short T-shaped columns with crossed reinforcing bars;带交叉钢筋T形截面短柱抗震性能试验研究
2.The application of MATLAB in the T-shaped Reinforced Concrete Beams Design Optimization;MATLAB在T形截面钢筋混凝土简支梁优化设计中的应用
英文短句/例句
1.Effect of axial compression ratio to bearing capacity of piece with T-shaped section轴压比对T形截面构件承载力的影响
2.Load Carrying Capacity Research of Normal-Section of T-Shaped Haydite Conctete Columns;陶粒砼不对称T形截面异形柱正截面承载力研究
3.Research on Bearing Capacity of Steel Truss S.R.C Asymmetrical T-Shaped Columns;桁架式钢骨的混凝土异形柱——不对称T形截面正截面承载力研究
4.Experimental Research on Seismic Behavior of Steel Reinforced Concrete Special-shaped Column;钢骨混凝土T形截面异形柱抗震性能试验研究
5.Research on Seismic Behavior of Frame with T-shaped SRC ColumnsT形截面钢骨混凝土异形柱框架抗震性能
6.The Experimental Study of T-Shaped Hayride Concrete Short Lamb Shear Wall Subjected to Biaxial Eccentric Compression;陶粒混凝土T形截面短肢剪力墙正截面承载力研究
7.Experimental study on normal section compression bearing capacity of composite T-shaped concrete-filled steel tubular columns组合T形截面钢管混凝土柱正截面受压承载力试验研究
8.Experimental Study on Mechanics Performance of Steel Reinforced Concrete T-Shaped Short Columns;钢骨混凝土T形截面短柱力学性能的试验研究
9.The Interactive Buckling of T-Section Columns with Axial Compress;T形截面轴心受压压杆的局部失稳与整体失稳
10.Experimental Study of Old and New Concrete Composite Beam with Double T-section双T形截面新老混凝土组合梁试验研究
11.Effect of Secondary Warping on Location of Shear Center次翘曲对角钢和T形截面剪切中心坐标的影响
12.Experimental research on bearing capacity of axially loaded T-shaped short columns confined with stirrups箍筋约束T形截面短柱轴压承载力试验研究
13.Experimental Research on Seismic Behavior of Steel Reinforced Concrete Frame of T Section Special-shaped Column;T形截面钢骨混凝土异形柱框架抗震性能试验研究
14.Experimental Research on Seismic Behavior of Steel and Concrete Composite Frame of T Section Special-shaped Column;T形截面钢和混凝土组合异形柱框架抗震性能试验研究
15.An investigation of unsymmetrical T-cross section trussed special-shaped steel reinforced concrete column's load capacity非对称T形截面型钢混凝土异形柱极限承载力的研究
16.The Research on Static Analysis of T Section Buckling-Restrained Brace and the Layout Forms of Buckling-Restrained Braces;T形截面防压曲支撑静力分析及防压曲支撑布置方案研究
17.Study on the Interface Slip of New Type of T-section Steel-encased Concrete Composite Beams;新型T形截面外包钢—混凝土组合梁滑移性能研究
18.Experimental Research on the Seismic Behavior of Interior Joints of T Shaped Short Pier Shear Wall;T形截面短肢剪力墙中间层中节点抗震性能试验研究
相关短句/例句
T-sectionT形截面
1.Based on the characteristics of T-section,the calculating model of the crack-resis-tant capacity of steel fiber reinforced concrete beams with T-section is established.根据T形截面的特点,建立钢筋钢纤维混凝土T形截面梁的正截面抗裂计算模型,通过理论分析研究正截面抗裂的计算公式,并对计算公式中的钢纤维混凝土塑性影响系数进行了探讨。
3)T-shaped sectionT形截面
4)T-shaped columnsT形截面柱
1.This paper aims to study the stress and distorted performance of reinforced concrete shaped columns strengthened with CFRP,and discusses the quantitative relation between the component section,geometric parameter,materials strength,material usage and flange tensioned T-shaped columns,compressing and bending resistance bearing capacity.目的研究碳纤维布(CFRP)加固钢筋混凝土异形柱的受力和变形性能,探讨构件截面几何参数、材料强度、材料用量等与翼缘受拉T形截面柱抗压弯承载力之间的定量关系。
5)T-shaped section beamT形截面梁
1.The normal stress of ectangular section beam,I-shaped section beam and T-shaped section beam on pure bending state is that neutral axis lie at geometric center line,the normal stress is linear distribution along the height,bearing capacity of the three section beams is nearly equal.矩形截面、工字形截面和T形截面3种梁在纯弯曲状态下的正应力,利用材料力学理论和电测法实验技术进行分析,结果表明:矩形截面、工字形截面梁的中性轴在其几何中心线上;3种截面梁横截面上的正应力沿高度都呈线性分布;3种截面梁的承载能力比较接近;在截面高度、长度、宽度和荷载一定的情况下,其中工字形梁最省料,其次是T形截面梁,耗费材料最多的是矩形梁。
6)T-shaped short columnT形截面短柱
延伸阅读
槽形截面零件的冲压模具摘 要: 实验证实了靠拉紧毛坯,与工具不接触冲压槽形截面零件并形成平斜壁的可能性。斜壁的平面度是靠塑性拉伸保证的。研制了实现该工艺过程的模具结构。装有活动凸模的模具安装在大功率缓冲器的压力机上以夹紧毛坯的边缘。关键词: 槽形截面零件;冲压;模具结构0引言 长度不大的板料型材,以及槽形截面零件(图1)传统上是在专用模具内用1次或2次冲压制造的。同样可用通用工具按单元冲压,但是,采用这种方法时平面段3应足够宽。在制造专用模具的凸模和凹模时,应从材料的名义厚度入。出发,配合工作表面。在闭合位置,模具应校正零件的平面段,并排除毛坯自由弯曲的影响。毛坯厚度入的实际值可能与入。值差别很大,因此进行校正作用的不是所有段。 例如,对高精度的薄板钢,厚度的公差δ为±0.15 mm。用名义厚度配合的模具来校正h=2.15mm的毛坯时,在2段上凸模和凹模之间的间隙:为2.15mm,而在1段和3段上当σ=30 时Z=2.3mm。若 ,则间隙z>h是在2段上。 不均匀的校正作用将负面反映在零件的精度上,这是传统工艺的缺点之一。传统工艺的缺点还有模具和设备的费用大,因为压力机的峰值负荷特征产生的功率太大。 本文将列出研制另一种工艺的结果,它基于模具拉弯毛坯的原理。1 应力状态的分析 分析应力状态表明,在毛坯上的模具边缘的压力值时达到与屈服应力值相并论的值。由此,毛坯在弯曲段上的拉伸抗力显著弱。相反影响是由于弯曲引起这些段的硬化,其较平面段的硬化产生得快。根据r/h值,占优势的是这些因素之一。 在确定凸模和凹模的最小允许圆角半径时应从下列条件出发,即不与模具接触的毛坯段转入塑性拉伸状态应在经受接触压力的毛坯段的承载能力消失之前。所得值较一般弯曲时将近大50%,对低碳钢,值不超过材料的厚度值。在试验试样时斜壁的极限角将近45 ,这可用图2所示的试验冲压型材的结果所证实。 在测量零件斜段母线的直线度时,发现存在偏差,但其不超过毛坯材料的厚度公差。这时,母线的拉伸变形位在10%范围内,被拉伸段沿宽度的延伸,即在型材的长度方向为小于2mm。
