1)  NASTRAN
NATRAN
2)  MSC Natran
MSC Natran
3)  sodium ion
Na+
1.
The result showed that sodium ion content of Tamarix chinensis,Elaeagnus angustifolia,Populus alba increased gradually with the increase of irrigation year in the same vegetal part,and varied with the different desert plants,highest in of T.
通过对造纸废水灌溉不同年限以及不同生长部位的沙漠植物体内Na+含量进行研究。
2.
A survey of the content of sodium ion in the soils and reeds irrigating with pulping and papermaking effluent was conducted.
通过现场采样和桶栽芦苇实验 ,分析了造纸废水、土壤、芦苇组织中的Na+ 分布特征。
4)  Na+
Na+
1.
Effect of Na++ on specific methanogenic activity(SMA)of anaerobic granular sludge,COD removal rate,effluent VFA,as well as the buffering capacity,were studied in IC reactor operation.
利用取自IC反应器的颗粒污泥,研究了Na+浓度对厌氧颗粒污泥产甲烷活性的影响及其对COD去除效果和出水挥发酸的影响,并研究了系统缓冲能力的变化情况。
2.
The combination of Na++ with alanine dipeptide (AD) in gas phase has been studied using den-sity functional theory at the level of B3LYP/6-311++G**,and six Na++-AD complexes were obtained,in-cluding two bidentate and four monodentate ones.
运用密度泛函理论B3LYP方法在6-311++G**基组水平下研究了Na+与丙氨酸二肽(AD)分子结合形成的6种Na+-AD络合离子,其中包括2种双齿结构和4种单齿结构。
3.
Objective: To explore the acute toxic mechanism of methyl tertiary butyl ether (MTBE) by detecting the changes of Fos protein, neurotransmitter γ-amino-butyric acid (GABA) and the activity of Na++, K+-ATPase, Ca2+-ATPase in the cerebellar cortex.
结果:与对照组比较,小脑皮质Fos蛋白、GABA在MTBE染毒后0·5h时表达增加,1·0h达到高峰,2·0h时减弱,8·0h时恢复至正常;Na+,K+-ATP酶、Ca2+-ATP酶的活性染毒后1·0h时降低,染毒后8·0h时其活性无变化。
5)  sodium
Na
1.
Reducing formation of gaseous species,which contain chlorine,potassium and sodium,can effectively abate deposit formation,slagging,corrosion and harmful pollutant emission during thermal conversion of biomass fuels.
减少生物质在热转化反应器中Cl与碱金属K和Na以气态组元逸出可有效遏制积灰、腐蚀等现象和减少污染气体排放。
6)  Na~+
Na+
1.
Objective:A method for determination of dissociative K~+,Na~++,Ca~(2+)and Mg~(2+) in soil by Solid Phase Extraction-Ion Chromatography was established.
目的:建立用固相萃取-离子色谱法测定土壤中游离态的K+、Na+、Ca2+、Mg2+含量。
2.
Using a static toxicity experiment method,the effects of monocrotophos(MCP) on CAT and Na~++,K~+-ATPase activities in the gill,liver and kidney of Monopterus albus were studied.
采用静态急性毒性试验方法,研究了久效磷对黄鳝的鳃、肝脏和肾脏组织中过氧化氢酶(CAT)和Na+,K+-ATP酶活性的影响。
3.
Objective: To observe the influence of iridosides of Cornus officinalis(ICO) on the proliferation and Na~++,K~+-ATPase activity of glomerular mesangial cells(GMC) cultured in high glucose or advanced glycation end products(AGEs) medium.
目的:研究山茱萸环烯醚萜总苷(ICO)对高糖或糖化终产物(AGEs)培养肾小球系膜细胞(GMC)增殖和Na+,K+-ATP酶活性的影响。
参考词条
补充资料:ANSYS模型转到MSC.MARC

!ANSYS命令流
! 写单元及节点数据文件
! 作者:陆新征,清华大学土木系
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!选中所有单元
ALLSEL,ALL
! 得到当前模型中的总节点数
*GET,NNode,NODE,,COUNT, , , ,
!输出节点
*CFOPEN,Node,txt
*VWRITE
('coordinates')
*VWRITE,chrval(3),chrval(NNode),chrval(0),chrval(1)
(4A5)
*DO,I,1,NNode
*VWRITE,I,NX(I),NY(I),NZ(I)
(F8.0,3F13.5)
*ENDDO
*CFCLOS


!打开单元文件
*CFOPEN,ELEM,txt
!得到所有单元数
ESEL,S,ENAME,,65
ALLSEL,ALL
*GET,NElem,ELEM,,COUNT, , , ,
*VWRITE,chrval(NElem)
('Number of Element: ', A8)
!对单元集进行循环
*DO,I,1,NElem
!得到当前单元的类型
*GET,ENAME,ELEM,I,ATTR,ENAM
!如果是65号(65号单元)
*IF,ENAME,EQ,65,THEN
!得到该单元的节点编号
*GET,EN1,ELEM,I,NODE,1
*GET,EN2,ELEM,I,NODE,2
*GET,EN3,ELEM,I,NODE,3
*GET,EN4,ELEM,I,NODE,4
*GET,EN5,ELEM,I,NODE,5
*GET,EN6,ELEM,I,NODE,6
*GET,EN7,ELEM,I,NODE,7
*GET,EN8,ELEM,I,NODE,8
*VWRITE,I,EN1,EN2,EN3,EN4,EN5,EN6,EN7,EN8
(F8.0,8F8.0)
*END IF
*ENDDO
*CFCLOS



!Fortran程序,把ansys结果转换为MARC模型文件格式
program main
implicit none;
integer Key;
write(*,*) "Input 1 for node, 2 for element"
read(*,*) Key
if (Key==1) then
call Node_IO()
end if
if (Key==2) then
call Elem_IO()
end if
stop
end program


subroutine Node_IO()
implicit none
integer NNode,I, J
real*8,pointer :: Node(:,:)
real*8 x;
character :: filename*10;
write(*,*) "Please input node filename"
read(*,'(A10)') filename
open(66,file=filename)
read(66,*) NNode
allocate (Node(NNode,3))
do I=1,NNode
read(66,*) x, (Node(I,J), J=1,3)
end do
close (66)
filename=filename//"NEW"
open (66,file=filename)
write(66,'(4I10)') 3, NNode, 0, 1
do I=1, NNode
write(66,'(I10, 3E20.8)') I, (Node(I,J), J=1,3)
end do
close (66)
return
end subroutine Node_IO


subroutine Elem_IO()
implicit none
integer NElem,NumNode,ElemTyp,I, J
integer,pointer :: Elem(:,:)
real*8 x;
real*8,pointer :: y(:)
character :: filename*10, outformat*11,CharEtype;
write(*,*) "Please input node filename"
read(*,'(A10)') filename
write(*,*) "Please input Element type & Number of Nodes per element"

说明:补充资料仅用于学习参考,请勿用于其它任何用途。