1) beam section
梁截面
1.
Concept Auto Body Intellectualized CAE Analysis-Research of 1D Beam Section s Optimization;
概念车身智能化CAE分析—1D梁截面优化研究
2.
The influence of steel fiber volume ratio,the range of steel fiber added in the joints and axial compression ratio on the beam sectional curvature ductility and hysteretic curve of the steel fiber reinforced high-strength concrete frame joints are investigated through measuring the load-deflection hysteretic curve on the beam end and the transverse deformation of the beam sections near column.
通过测试钢纤维高强混凝土框架边节点梁端的荷载-变形滞回曲线和梁相关截面的横向变形,研究了钢纤维体积率、掺加范围和轴压比等因素对高强混凝土框架边节点梁截面曲率延性和滞回曲线的影响。
3.
A fully-parameterized concept body model is established with NX; by changing beam section direction and thickness to change section characteristic, the effect of beam section on body stiffness in body concept design is studied.
利用NX建立了全参数化的概念车身模型,通过改变梁截面的方向和厚度以改变截面特性,研究了车身概念设计中梁截面对车身刚度的影响。
2) variable section beam
变截面梁
1.
The transfer matrix method for the bending and stability of the variable section beams with shear deformation is presented.
提出了考虑剪切变形时变截面梁弯曲和稳定计算的传递矩阵法。
2.
The element stiffness matrix of this variable section beam is derived based on principle of virtual displacement.
对圆锥形变截面梁单元进行了分析,采用有理函数的位移模式,利用虚位移原理,推导出该变截面梁单元的刚度矩阵。
3.
Moreover,according to this method,the deflection curve equation of other kinds of variable section beam will be also carried out.
本文利用积分法求出了变截面悬臂梁在各种不同载荷作用下的挠曲线方程,而对于其它类型的变截面梁,都可以按照这种方法去求解。
3) non-uniform beam
变截面梁
1.
In order to calculate rationally the shear stresses in prestressed concrete box beams with variable cross section and reflect objectively their distribution, general formulas for shear stresses of arbitrary non-uniform beams are derived.
为了合理计算预应力混凝土变截面箱形梁的剪应力,客观反映其应力分布状况,首先推导了任意变截面梁剪应力计算的一般公式,在此基础上,考虑箱形梁的梁高、底板厚度、腹板厚度沿跨度的变化,导出了变截面箱形梁的剪应力实用计算公式。
2.
Based on the method of integration operators, a new method of computing equivalent nodal forces and inner forces for prestressed non-uniform beams is presented in this paper.
将积分算子法用于变截面梁预应力问题的计算,提出了一种新型计算方法。
4) cross-section of coupling beam
连梁截面
1.
Influences of the changes of cross-section of coupling beam around tube on structural cycle;
筒体周边连梁截面的改变对结构周期的影响
5) tapered beam
变截面梁
1.
The finite difference method is always used to solve the maximum lateral flexure and its position for a tapered beam.
在工程实际中,通常使用有限差分法来确定变截面梁最大挠度及其所在位置,然而这种方法十分繁杂。
2.
A method is presented in this paper for calculating the d eflection of tapered beam with shear effects by choosing an appropriate deflecti on equation and an appropriate slope equation.
选择合适的挠曲线方程和转角方程,采用能量法计算了变截面梁在考虑剪切变形影响时的挠度。
6) uniform beam
等截面梁
1.
Distributed transfer function method is applied to calculate the finite deformation of uniform beam.
本文应用传递函数方法对等截面梁的有限变形进行了分析。
补充资料:安梁堡梁氏大宅
安梁堡梁氏大宅位于广东省高州市曹江镇安梁堡村。距离高州市中心约13公里,是典型的中西艺术交融,富有时代代表性的民国民居建筑。大宅是当地著名乡坤梁普埙、梁普篪兄弟的旧居,建成于1947年,占地面积达一万一千多平方米,建筑面积达四千多平方米。主体建筑分为东、西两宅,分别由前楼、后楼和侧楼组成,前楼一层,后楼三层,侧楼二层,前后楼之间有天井,并通过多条走廊相互贯通,连为一体。在功能分布上,后楼是主楼,是梁府家庭成员的生活起居住宅,前楼是雇工住宅和生活服务区,侧偻用于储存食物和物品。大宅还配套有花园、水井、池塘、厕所、猪舍、牛栏、码头等设施。大宅整体是中国传统的楼阁式,同时配合了西式的走廊和装饰。大宅的排水系统也别具一格,落到大宅的雨水通过管道进入天井中的大水池,水池水满后才往外排泄,因此,水池常年储满水,可备发生火灾时使用。大宅主体建筑对外的墙体上,每间隔一定的距离,就开有射击孔和瞭望窗,和大宅四周的围墙、护卫角楼组成了坚固的防御系统,从而使大宅成为一座集防卫、住宅、贮藏于一体等综合使用功能的建筑。
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