英语人>词典>汉英 : 键区 的英文翻译,例句
键区 的英文翻译、例句

键区

基本解释 (translations)
keypad  ·  keypads  ·  keyfield

词组短语
bonding region
更多网络例句与键区相关的网络例句 [注:此内容来源于网络,仅供参考]

Unfortunately, it has been shownthat these methods are not suitable to study about chemical bonds due to not involvingchemical bonds. In order to consider chemical bonds obviously, we have proposed an atom-bondelectronegativity equalization model on the basis of density-functionaltheory and electronegativity equalization principle. The main contents of our atom-bond electronegativity equalization model contain:(1)Considering the fact that there are varies of chemical bonds in molecules andpartitioning the molecular electron density as summations of atomic electron densitiesand chemical bond's electron densities, we obtained the basic equations of atom-bondelectronegativity equalization model: the expression of the total energy 〓, theexpression of the atom electronegativity 〓 and the expression of the bondelectronegativity 〓.

为了明确地考虑和处理分子中存在的化学键,以便能够更好地描述体系中的电荷分布进而准确地描述分子体系中的有关物理化学性质,尤其是与化学键有关的物理化学性质,我们在密度泛函理论和电负性均衡原理基础上提出了原子-键电负性均衡模型,原子-键电负性均衡模型的主要内容是:(1)考虑到分子体系中存在各种化学键这个事实,将分子空间看成是由原子区和化学键区组成的,将分子的单电子密度表达成为分子中各组成原子的单电子密度和各化学键的单电子密度的加和,从而得到了原子-键电负性均衡模型的基本方程:分子体系总能量〓和分子中原子电负性〓和化学键电负性〓表达式。

The results show: the strongest bond is the Al-Al bond in the segregated cell without containing vacancy, where the Al atomic covalence radius is greater than that of Li atom in the cell; while the strongest bond is the Al-Li bond in the segregated cell containing vacancy, and the Al atomic covalence radius in the cell is less than that of Li atom. Since the difference of electronagativity between the Al and Li atoms is obvious, it is inclined to formed the Al-Li segregated cell of short range order structure in the condition of vacancy present. The short range order structure containing vacancy is probably the embryo or precursor structure of the metastable phase δ′(Al3Li). Because the strongest covalent bond in the Al-Li-vacancy segregated cell in alloy formed in quenching is the main strength reason for supersaturated solid solution of alloy. The bond net of succeeding precipitation of δ′(Al3Li) has the picture of anisotropic Al-Al bonding and the bond intensity enhanced. Since the δ′(Al3Li) is coherence with matrix, the bond net strength is enhanced by the precipitation of δ′(Al3Li) and so strengthen the alloy.

计算结果表明:不包含空位的偏聚晶胞的键络最强键为Al—Al键,其中Al原子的共价半径较Li原子的共价半径要大;而含空位的偏聚晶胞的最强键为Al—Li键, Al原子的共价半径要比Li原子的共价半径要小;在空位存在的情况下,由于Al原子与Li原子的电负性相差明显,促使Al和Li原子结合,倾向形成Al-Li短程序结构偏聚区,这种含空位的短程序结构很可能就是δ′(Al3Li)亚稳相的前兆结构和生长胚胎;由于Al-Li-空位有序偏聚晶胞的Al—Li键络比基体键络要强许多,因此,淬火过程中合金生成的Al-Li-空位偏聚晶胞对合金过饱和固溶体起主要强化作用;后续析出的δ′(Al3Li)亚稳相键络各项异性显著,键络强度明显提高;由于Al3Li与基体共格,其大量均匀弥散析出起到提升基体整体键络强度,同样对合金产生强化作用。

The results show: the strongest bond is the Al-Al bond in the segregated cell without containing vacancy, where the Al atomic covalence radius is greater than that of Li atom in the cell; while the strongest bond is the Al-Li bond in the segregated cell containing vacancy, and the Al atomic covalence radius in the cell is less than that of Li atom. Since the difference of electronagativity between the Al and Li atoms is obvious, it is inclined to formed the Al-Li segregated cell of short range order structure in the condition of vacancy present. The short range order structure containing vacancy is probably the embryo or precursor structure of the metastable phase δ'(Al3Li). Because the strongest covalent bond in the Al-Li-vacancy segregated cell in alloy formed in quenching is the main strength reason for supersaturated solid solution of alloy. The bond net of succeeding precipitation of δ'(Al3Li) has the picture of anisotropic Al-Al bonding and the bond intensity enhanced. Since the δ'(Al3Li) is coherence with matrix, the bond net strength is enhanced by the precipitation of δ'(Al3Li) and so strengthen the alloy.

计算结果表明:不包含空位的偏聚晶胞的键络最强键为Al-Al键,其中Al原子的共价半径较Li原子的共价半径要大;而含空位的偏聚晶胞的最强键为Al-Li键,Al原子的共价半径要比Li原子的共价半径要小;在空位存在的情况下,由於Al原子与Li原子的电负性相差明显,促使Al和Li原子结合,倾向形成Al-Li短程序结构偏聚区,这种含空位的短程序结构很可能就是δ'(Al3Li)亚稳相的前兆结构和生长胚胎;由於Al-Li-空位有序偏聚晶胞的Al-Li键络比基体键络要强许多,因此,淬火过程中合金生成的Al-Li-空位偏聚晶胞对合金过饱和固溶体起主要强化作用;后续析出的δ'(Al3Li)亚稳相键络各项异性显著,键络强度明显提高;由於Al3Li与基体共格,其大量均匀弥散析出起到提升基体整体键络强度,同样对合金产生强化作用。

This rule applies to keypad switch lines, too, despite their insulating keycaps.

尽管键帽是绝缘的,这个准则也应用到键区开关线。

On the basis of Raman and FTIR spectra research on melt structure and water solubility mechanism in albite glasses, we can make the following conclusions:(1) Higher pressure (1bar-2. 0GPa) can lead to below frequency region (50-650cm〓) shift to higher frequency and become narrower, and result in high frequency region (850-1300cm〓) move to lower wave number and become narrower at the same time. These are consistent with the decrease of average T-O-T angle and distribution scope of bond angles (0). In addition, the intensity of 580cm〓 band decrease with increase of pressure and the changes are obvious while pressure is in the range of 0.8-1. 0GPa. And these result from the"collapse"of the planar three membered -containing rings within the glass structure.

通过对高温高压下钠长石熔体结构及水在钠长石熔体中溶解机制的Raman和FTIR光谱实验研究,可以得出以下结论:(1)随着压力升高(1bar-2.0GPa)NaAlSi〓O〓熔体玻璃Raman光谱的低频区(50-650cm〓)不断变窄并向高频方向移动,同时高频区(850-1300cm〓)不断变窄且向低频区方向移动,这表明随着压力升高T-O-T键角不断减小,并且分布范围变窄,T-O-T键角这种变化从而可使T-O键的力常数减小,导致键强减弱;另外,580cm〓谱峰强度随着压力升高不断减弱,并在0.8-1.0GPa时最为显著,这是由于在0.8-1.0GPa时包含的平面三元环结构的"垮塌"造成的。

The numeric keypad looks like a calculator, but it has some additional symbols on the keys.

数字键区就像一个计算器,但是在按键上还有些额外的标记。

The readings from the plethysmograph and the keypad weren't in much accord.

因为性器体积计量器的读数和键区显示的数据大相径庭。

And for the male participants, the subjective ratings on the keypad matched the readings of the plethysmograph.

对于男士来说,他们在键区作出的主观判断与性器体积测量仪的读数相符。

Then, with NUM LOCK on, hold down the ALT key while using the number pad keys to type the Unicode character value.

然后,在 Num Lock 打开的情况下,按住 Alt 并使用数字键区的按键键入 Unicode 字符值。

Also, once again, each addressee uses one algorithm to decrypt keypads, and a completely different one to decrypt messages.

也再次表明,每个收件人使用一个算法解密键区,和一个完全不同的一至信息解密。

更多网络解释与键区相关的网络解释 [注:此内容来源于网络,仅供参考]

axillary region:翅键区

axillary plate 翅键骨片 225 | axillary region 翅键区(207,209)225 | axillary sclerites 翅键骨(201)225

line end symbol key:列尾符号键

列尾锁定 line end lock | 列尾符号键 line end symbol key | 列尾区 line ending zone

Call Function Key:呼叫功能键区

呼叫分配 Call Distribution CD | 呼叫功能键区 Call Function Key | 呼叫故障 Call failure

Call Function Key:呼唤功效键区

呼唤阻碍 Call failure | 呼唤功效键区 Call Function Key | 呼唤分派 Call Distribution CD

function key area:功能键区

function key 功能键 | function key area 功能键区 | function key menu 功能键菜单

function key menu:功能键菜单

function key area 功能键区 | function key menu 功能键菜单 | function library 函数库

keyboard entry:键盘输入区

Keyable Icons可动画键点图标 | Keyboard Entry键盘输入区 | Keyboard Shortcut Override Toggle快捷键越界开关

Keypad:键区

在命令按钮的屏幕显示空间不足的情况下,或者在移动设备采用了键区(keypad)导航而非指针导航的情况下, Commands就可以映射为设备上的正确按钮,或者起多种作用的多功能按钮,也就是所谓的"软按钮".

keypunch:打孔

keypad 键区 | keypunch 打孔 | keys visible 可显示功能键

axillary sclerites:翅键骨

axillary region 翅键区(207,209)225 | axillary sclerites 翅键骨(201)225 | Basal fold 翅基摺(207)225