1) nonlinear finite element method
非线性有限元方法
1.
The relation between stress and strain of solder joint is studied by means of nonlinear finite element method.
采用统一型粘塑性Anand本构方程描述焊点的粘塑性力学行为,通过非线性有限元方法研究焊点在热循环作用下的应力应变关系,基于疲劳寿命预测公式对焊点的热疲劳寿命进行预测。
2.
The mechanism of road embankment reinforced with geotextile is studied with nonlinear finite element method.
采用非线性有限元方法对土工织物加固软土路堤的效果和机理进行了探讨。
2) non-linear finite element method
非线性有限元方法
1.
By the use of the basic theory of transient temperature fields and non-linear finite element method a reverse calculation has been success fully conducted of the convction heat transfer coefficient of a marine main boiler header under complicated heat transfer conditions.
本文利用瞬态温度场的基本理论和非线性有限元方法。
3) nonlinear finite element method
非线性有限元法
1.
The paper researched plastic straightening processing of axis parts by the nonlinear finite element method,brought forward a new straightening processing technology,and designed a prototype machine.
文章采用非线性有限元法研究了杆类零件的塑性矫直过程,在此基础上提出一种新型的矫直加工方法并设计了原理样机,机构运动由4个步进电机驱动,兼具工件尺寸检测和矫直加工功能。
2.
Taking into account the effect of temperature dependency of material properties, the transient thermal stresses in functionally gradient material (ZrO2 and Ti-6Al-4V)(FGM) plate under convective heat transfer boundary are analyzed by the nonlinear finite element method.
用非线性有限元法分析了由ZrO2和Ti-6Al-4V组成的变物性梯度功能材料板的对流换热瞬态热应力问题,与已有文献比较检验了方法的正确性,给出了该材料板在不同变形状态下的瞬态热应力分布,并与常物性时的结果进行了比较。
3.
The steady thermal stresses in functionally gradient material(ZrO_2 and Ti-6Al-4V)(FGM) plate with tempera-ture-dependent properties under differently mechanical boundary are analyzed by the nonlinear finite element method and the Sinpson method.
用非线性有限元法和辛普生法分析了由ZrO2和Ti-6Al-4V组成的变物性梯度功能材料板在不同力学边界条件下的稳态热应力问题。
4) non-linear finite element method
非线性有限元法
1.
Based on engineering practice, the article employs the non-linear finite element method to analyze the mechanical properties of vertical reinforced earth retaining wall, and derives a few useful conclusions from the analysis of the strains in the surface and the distribution of earth pressure in the back of vertical reinforced earth retaining wall.
结合广东河(源)龙(川)高速公路的加筋土挡墙试验,运用非线性有限元法对加筋土挡墙的力学特性进行数值分析,对直立式加筋土挡墙墙面变形、墙内土压力的分布规律进行探讨。
2.
Considering the soil self-weight action,this paper analyzed the developing regularity of plastic zone of soft soil dam foundation by means of non-linear finite element method.
本文在考虑坝基土自重作用下,用非线性有限元法分析了堤坝软土地基的塑流区开展规律。
3.
According to the structural characteristics of erected reinforced earth retaining wall,and adopting non-linear finite element method,this paper analyzes its structural characteristics from the stress distribution of erected reinforced earth retaining wall,foundation stress distribution,and lateral displacement of the wal1.
采用非线性有限元法对加筋土挡墙的力学特性进行数值分析,对直立式加筋土挡墙墙面变形、墙内土压力的分布规律作了探讨,分析计算表明,直立式加筋墙的特性明显区别于重力式挡土墙,在工程设计中,直立式加筋墙的设计不应同刚性结构设计计算一概而论,在此基础上,文中得出一些有益的结论。
5) nonlinear FEM
非线性有限元法
1.
The shape-form analysis and load analysis were done by nonlinear FEM.
采用非线性有限元法进行了膜结构的形态分析和荷载分析,得到了曲面有限元网格;通过离散微分几何方法,研究了薄膜结构曲面的几何性质,包括曲面的法线向量、高斯曲率、平均曲率和主方向矢量,避免了复杂的曲面拟合过程。
2.
In order to guarantee the precision of the cable tension of a cable-stayed bridge measured by vibration method, in one large-span bridge as an example, the effect of cable parameters on the cable tension determination is studied by nonlinear FEM.
为了确保频率法测定斜拉索索力的精度,以某斜拉桥中的拉索为例,采用平面非线性有限元法探讨了斜拉索各参数取值对索力值的影响,并讨论了各参数的合理取值。
3.
This paper introduces a kind of new-type improved nonlinear FEM of making geodesic lines in cutting pattern for membrane structures.
介绍了一种膜结构裁剪分析中测地线生成的改进的非线性有限元法。
6) nonlinear finite element
非线性有限元法
1.
Form-finding analysis of tensile membrane structures using nonlinear finite element;
使用非线性有限元法对张力膜结构找形分析
补充资料:连续方法(对非线性算子的)
连续方法(对非线性算子的)
ontinuation method (for nonlinear operators)
连续方法(对非线性算子的)【“.‘..d.meth目(肋咖di理ar.不比.加峪);呵扣理切洲旧..加.毕以盯脚~l,亦称等攀琴拓烤,时参数化族的 近似求解非线性泛函方程的一种方法.这种方法在于通过引进一个取值在一有限区间t。城t(t’的参数t把要求解的方程尸(x)=O拓广成形为F(x,O“O的方程,使得当t=扩时得到原来的方程:F(x,t’)=p(x),同时方程F(x,t0)“0或者能容易地求解,或者早已知道该方程的一个解x0(见【l]一王3]). 拓广了的方程F(x,O二0是对个别的t值:t。,…,t‘二t’逐次求解的.对t二t‘十:的方程的求解是通过某种迭代法(Newton法,简单迭代,参数变值法,[4],等等)从由解t=t‘的方程F(x,t)=0得到的解x‘开始来实现的.在关于泛的每一步应用,例如,n次Newton迭代,就分致公式 ·}、、、一,){,、、(一,、J、}.t{夕 Z一(),一k}L一。·一了‘一l;、吃咬夕!、{】’如果差抓,一rl充分小,则为保证得到r=亡卜,时的解戈十、、x,的值可能是一卜足够好的保证收敛性的初始近似(见!l」,{31,!5」)‘ 在实践中,原来的问题常常自然地依赖于某个参数,该参数就可取作t. 连续方法用于求解非线性代数方程组和超越方程(见【11,!2〕),L卜走及更一般的Banach空间中的非线性泛函方程(见【5卜{7j) 连续方法有时称为参数变值直接法(见【2],16]),也称为直接和迭代参数变值组合法.在这些方法中,通过对参数的微商把构造拓广的方程的解的问题化为求解一个带初值的微分方程问题(Cauchy间题),用常微分方程的数值积分法来解这个问题.在参数变值直接法中把最简单的Euler方法用于该Cauchy问题 么「,、11。,‘、_ 兰之=一1矛_‘万.1、IF‘x.门.钊I‘、、=文、 dIL‘、”」F(x,t卜O的解州t)的近似值x认)=x,(i二1,…,火)可通过下面的恒等式来决定: ·,、一吸I、一,!F可(/,,/,){’F;(X,!,· :二O…,k一lx、就是要求的原来方程p(x)=0的近似解.所有的值或某些值x‘+,的改进可以通过参数变值迭代法(I4」)(或Newton法)来得到 拓广方程通常以下述形式 厂(x,t,、l)=(l一又)F(x(o).2‘、,),x(。)=、,、;在一有限区间0簇只簇l上生成,或在其中用e一,来代替1一又,从而在无穷区间O簇T共刃_匕生成 参数变值法一直用于一大类问题,既用来构造解又用来证明解的存在性(例如,见!3],!41,[6].【7]).[补注]见连续方法(continuatlon method)的补注.
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