reinforcing-30

reniforcing是什么意思

reinforce 英[ˌri:ɪnˈfɔ:s] 美[ˌri:ɪnˈfɔ:rs] 。

vt. 加固; 强化; 增援; 。

vi. 求援; 得到增援; 给予更多的支持; 。

n. 加强; 加固物; 加固材料; 。

[例句]Inspired by suspension bridge, the wire cable is used to reinforce the wide and flat reinforced concrete beam.。

受悬索桥启发，利用钢丝绳索加固钢筋混凝土宽扁梁是在特殊条件和环境下的一种尝试。

[其他] 第三人称单数：reinforces 现在分词：reinforcing 过去式：reinforced过去分词：reinforced 。

-------------如有帮助请采纳， 如需帮助可追问，谢谢。

帮忙翻译一下，几个图上的注解，

reinforce英 [ˌri:ɪnˈfɔ:s] 美 [ˌri:ɪnˈfɔ:rs]。

vt.加固; 强化; 增援;

vi.求援; 得到增援; 给予更多的支持;。

n.加强; 加固物; 加固材料;。

[例句]We plan to give a handful of modest homework assignments to complement 。

and reinforce material taught in the class.。

我们计画给出一些适度的作业功课用来补充和加固课内教学中的教材。

[其他]第三人称单数：reinforces 现在分词：reinforcing 过去式：reinforced 过去分词：reinforced。

-------------------------------如有疑问，可继续追问，如果满意，请采纳，谢谢。

self-reinforcing 什么意思

驱动支持

发动机

共同防滑

惯性座

图1-1发动机和驱动设备就共同防滑。

图1-2示意图惯性垫

正常的土壤

简易轴承土壤

图1-3的基础上，为简易轴承土壤。

示意图直接安装垫设备

共同防滑

十六进制

螺母

平垫圈

垫片

班轮

楼板

错综复杂管袖

惯性座

安装螺栓

加固

图1-4常见的防滑直接安装到惯性块或垫。

锚杆

发动机悬置

表面

惯性

座

班轮

混凝土

地板

班轮

错综复杂管袖

图1-5截面混凝土惯性块

共同防滑

找平螺杆

适配器垫圈

弹簧式隔离器

错综复杂管

套筒座惯性

班轮

楼板

注浆

安装螺栓

惯性座

加固

图1-6示意图弹簧安装隔震垫施工。

示意图垫减振器

安装基地建设

共同防滑

十六进制

平垫圈螺母

橡胶垫圈

垫式隔离器

垫片

班轮

楼板

错综复杂管袖

惯性座

螺纹安装螺栓

加固

3 "

灌浆倾诉

灌浆填补

图1-7常见的防滑镶嵌垫型振动隔离器。

线程

d

延长，以适应越来越多

30 x d +的袖

15 °

3-1/2 "大约。

图1-8安装螺栓

发动机悬置

螺栓孔

舷外轴承

安装螺栓孔

竖

中线

图1-9模板

错综复杂

安装袖

（ 10 -1 2" ）

安装

螺栓

模板

基金会

螺栓

混凝土

班轮运输形式

图1-10安装袖子嵌入混凝土

求一关于“建筑物防雷”的英文文献最好外带翻译的~~

self-reinforcing。

自我充实

reinforcing

[英][ˌri:ɪn'fɔ:sɪŋ][美][ˌri:ɪn'fɔ:sɪŋ]。

v.加强; 加固( reinforce的现在分词 ); 使更结实; 充实;。

求英文中的数学、物理用语

Building anti-radar design standard 。

First, the building anti-radar classifies the anti-radar building category which pointed out explicitly to the standard, may apply mechanically directly. In the standard to some buildings only pointed out that is bigger than estimate thunder stroke number of times XX/every year, but belongs to two kinds or three kind of anti-radar buildings. Regarding these stipulations, only depends on the direct-viewing feeling and the experience in the design, cannot determine explicitly its building respective anti-radar category, causes to make two kinds anti-radar to make three kinds by mistake, should make three kinds anti-radar, but has not done, the result is to the building which completes creates certain hidden danger. This has the necessity according to the local annual mean thunderstorm day and the building locus geography, the geological soil, the meteorological environment and so on conducts the detailed research and makes the corresponding computation, determines the anti-radar rank. 。

For example: Under Jinan area Td=26.3 K=2 environment according to formula: N=0.024k · Td1.3 · Ae in the formula: N- building estimate thunder stroke number of times (/year) The K- correction factor (according to newly built building locus's geography, environment decides) Td- annual mean thunderstorm day Ae- and the building truncation receives the same thunder stroke number of times equivalent area (km2) 。

Calculates the length 100 meters, the width 25 meters, above two (H≥9 rice) the provincial level work building must make two kind of anti-radar. If through the computation, this kind of building actual does not make three kinds anti-radar or does not do is possible. From this sees, carries on the overall evaluation to some peculiar circumstance's building and makes the corresponding computation is very essential. the two, anti-radar electric inductions and the thunder electric waves invade the against long jab thunder the measure, the general layout personnel are very explicit. But, along with the technical development, electronic installation's popularization, the anti-radar electric induction and the thunder electric wave invasion must be clear in the design, and consummates gradually forms an anti-radar network. when the 1. thunder and lightning induces - the thunder discharge, has the electrostatic induction and the electromagnetic induction on the nearby conductor, it possibly causes between the metal part to produce the spark. Therefore is protected in building's metal earth, is the anti-radar electric induction key measure. First, completes the equipotential joint. To one, two kind of anti-radar buildings in parallel or overlapping placing metal pipeline, when its clear distance is smaller than 100mm, should use Jin Shuxian to bridge, is prevents the potential difference which the electromagnetic induction creates to be able the small gap breakdown, but produces the electric spark, every other ≤30m completes the earth. the 2. thunder electric wave invasion - as a result of the thunder and lightning to the air line either the metal pipeline's function, the thunder electric wave possibly along these pipeline invasion room, endangers the personal safety or damages the equipment. Therefore, completes the terminal the anti-radar protection, completes the equalizing ring and against flank attack thunder is the anti-radar electric wave invasion key measure. First, two kind of anti-radar construction low pressure coil in entire line uses buries straight said that is built on stilts the line introduces when the indoors many in a 15m section should trade the electric cable (metal armoring electric cable to bury straight, protective covering electric cable puts on steel pipe) the buyer, and is being built on stilts with the electric cable trades meets place completes the lightning protection protection. Two kind of anti-radar constructions work as the air line direct introduction, besides in the residence place addition arrester, and completes the buyer installment iron stock the earth, approaches on building's two telephone pole's iron stock also to complete the earth, and the impact earth resistance ≤30Ω, all weak electricity coil in's protection should with the strong electricity coil. The anti-radar building must complete the equalizing ring and against flank attack thunder protection. Equalizing ring from three starts, between link vertical range ≤12m, all downleads, building's metal structure and the hardware reliably connects with the link, the equalizing ring may use in the structure grid's steel bar (steel bar to link up ring circuit). A kind anti-radar constructs above 30m, two kinds anti-radar construct above 45m, three kinds anti-radar construct above 60m, must complete against flank attack thunder protection, makes one week level along the building outer wall to evade the mine belt, between the belt and the belt the vertical range ≤6m, in the outer wall all metal parapet, the windows and doors with evade the mine belt to connect reliably, evade the mine belt to connect reliably again with the downlead. The vertical placing's metal pipeline and the metal peak and the bottom end and the antimine device reliable connection, the goal lies in the equipotential, because and the both sides connection causes it to form the parallel with the downlead, causes the thunder electric current news fast to enter. three, anti-radar electric currents after downlead and when grounding has the high electric potential completes against long jab thunder, the thunder electric wave invasion and the thunder and lightning to the hardware or electrical line counter-attack measure induces, is not a complete anti-radar design. Because, in the building mostly uses together the grounding at present, when thunder long jab in this building antimine device, the supposition flows through approaches the low pressure electric installation place grounding the thunder electric current is 20KA, when impact earth resistance =1Ω, in the grounding the electric potential elevates is 20KV, but the general indoor low pressure installment bears the striking potential most to be high is 8KV. Its result causes the low pressure electric installation insulation to be weak place is possibly penetrated creates the short circuit, has the fire, to damage the equipment, this is very dangerous. Therefore, gives the enough value in the design, realizes omni-directionally, the multi-level anti-radar networks to the anti-radar building, causes the thunder and lightning the influence to reduce to the building is smallest.when building for high-pressured coil, high-pressured, the low pressure side each on supposes the arrester, with protects by the high-pressured coil in thunder and lightning and the operation (circuit breaker movement, throws cuts big electric motor and condenser bank and so on) the overvoltage. The electronic installation are many and the important construction, installs the overvoltage protection again in the low pressure power distribution branch, does for the reserve protection, mainly uses in further suppressing after the pretage protection limit on the surplus overvoltage and the power line the overvoltage which produces by the induction or the coupling.when building for low pressure coil, installs the overvoltage protector in the power source total coil in place. four, about meet dodges to meet dodges - the direct truncation the lightning rod which is struck by lightning, to evade the mine belt (line), the lightning protection network, as well as serves as the metal roofing which and the steel work meets dodges and so on. In many buildings, the roofing for on person roofing, is high to the artistic request, according to the conventional procedure, clearly spreads the lightning protection network with the garden steel to do meets dodges is artistic on the influence, this standard to two kind of anti-radar buildings in two, three, eight, nine section of building pointed out that with in the reinforced concrete roofing, Liang, column's steel bar achievement meets suitably dodges, in the practical application, may use in the roofing parapet wall the capping steel bar to do meets dodges, is higher than the roofing each kind of iron stock to with the capping steel bar reliable welding (when construction must pay attention to coordination), the capping steel bar with makes in downlead's column four corner postsThe muscle completes the reliable electrical connection. This procedure must have the concretes fragment which regularly to the thunder stroke the possibility creates or withdraw carries on the service. five, earth body - bury in the soil or the concrete foundation does drifts with the conductor about earth body the . In the practical application, the big project uses in the foundation the steel bar to make the earth body generally, and uses the union earth body, the earth resistance value to request slightly ≤1Ω. But in some have the basement, in half basement construction, at the construction uses the waterproofing material to construct the ledger wall to make waterproof processing. At present, uses the waterproofing material has the very good insulating property, therefore, makes the earthed pole directly to this kind of building using the foundation steel bar, had the possibility not to be able to satisfy the project docking earth resistance request, must direct from the column muscle downlead place, one week made in the closed artificial earth body and the foundation along the building slope protection outside the steel bar and uses, like this could achieve the satisfactory earth resistance value. 。

译文： 建筑物防雷设计规范。

一、建筑物的防雷分类

对规范中明确指出的防雷建筑物类别，可直接套用。规范中对有些建筑物仅指出大于预计雷击次数XX次/每年，而归属二类或三类防雷建筑物。对于这些规定，在设计中仅凭直观感觉和经验，就不能明确确定其建筑物所属防雷类别，使应做二类防雷误做成三类，应做三类防雷而没做，结果是对建成的建筑物造成一定的隐患。这就有必要据当地的年平均雷暴日及建筑物所在地的地理、地质土壤、气象环境等进行详细的研究并做出相应的计算，来确定防雷等级。

例如：在济南地区Td=26.3 K=2的环境下。

据公式：N=0.024k·Td1．3·Ae。

式中：N—建筑物预计雷击次数(次/年)。

K—校正系数(据新建建筑物所在地的地理、环境而定)。

Td—年平均雷暴日

Ae—与建筑物截收相同雷击次数的等效面积(km2)。

计算出长100米、宽25米，两层以上(H≥9米)的省级办公建筑物就要做二类防雷。如果不通过计算，这类建筑物实际中做成三类防雷或不做都是有可能的。由此看出，对一些特殊情况下的建筑物进行综合考虑并做出相应的计算是非常必要的。

二、防雷电感应和雷电波侵入

防直击雷的措施，一般设计人员都很明确。但是，随着科技的发展，电子设备的普及，防雷电感应和雷电波侵入在设计中也必须明确，并逐步完善形成一个防雷网络。

1.雷电感应—雷电放电时，在附近导体上产生的静电感应和电磁感应，它可能使金属部件之间产生火花。因此被保护建筑物内的金属物接地，是防雷电感应的主要措施。首先，是做好等电位联结。对一、二类防雷建筑物内平行或交叉敷设的金属管道，其净距小于100mm时，应采用金属线跨接，是防止电磁感应所造成的电位差能将小空隙击穿，而产生电火花，每隔≤30m做好接地。

2.雷电波侵入—由于雷电对架空线或金属管道的作用，雷电波可能沿着这些管线侵入屋内，危及人身安全或损坏设备。因此，做好进线端的防雷保护，做好均压环及防侧击雷是防雷电波侵入的主要措施。 一、二类防雷建筑低压进线全线采用直埋地引入，将线路架空引入户内时不少于15m的一段应换电缆(金属铠装电缆直埋地，护套电缆穿钢管)进户，并在架空与电缆换接处做好避雷保护。二类防雷建筑当架空线直接引入时，除在入户处加装避雷器，并将进户装置铁件做好接地外，靠近建筑物的两根电杆上的铁件也应做好接地，且冲击接地电阻≤30Ω，所有弱电进线的保护应同强电进线。防雷建筑要做好均压环及防侧击雷保护。均压环从三层开始，环间垂直距离≤12m，所有引下线、建筑物的金属结构和金属设备均与环可靠连接，均压环可利用结构圈梁内的钢筋(钢筋必须贯通成环路)。一类防雷建筑30m以上，二类防雷建筑45m以上，三类防雷建筑60m以上，要做好防侧击雷保护，沿建筑物外墙做一周水平避雷带，带与带间垂直距离≤6m，外墙上所有金属栏杆，门窗均与避雷带可靠连接，避雷带再与引下线可靠连接。竖直敷设的金属管道及金属物的顶端和底端与防雷装置可靠连接，目的是在于等电位，并且由于两端连接使其与引下线形成并联线路，使雷电流更讯速的入地。

三、防雷电流经引下线和接地装置时产生高电位对金属设备或电气线路反击的措施。

做好防直击雷、雷电波侵入和雷电感应，还不是一个完整的防雷设计。因为，目前建筑物内大多采用共同接地装置，当雷直击于本建筑物防雷装置时，假设流经靠近低压电气装置处接地装置的雷电流为20KA，当冲击接地电阻=1Ω时，接地装置上电位升高为20KV，而一般室内低压装置的耐冲击电压最高为8KV。其结果就使低压电气装置绝缘较弱处可能被击穿而造成短路，发生火灾、损坏设备，这是非常危险的。因此，在设计中给予足够的重视，对防雷建筑物实现全方位、多层次的防雷网络，使雷电对建筑物的影响减至最小。

建筑物为高压进线时，高、低压侧各相上均设避雷器，用以防护由高压进线的雷电和操作(断路器动作，投切大电动机和电容器组等)过电压。电子设备较多且重要的建筑，在低压配电支线上再装设过电压保护，做为后备保护，主要用于进一步抑制经前置保护限制后的剩余过电压和电源线上由感应或耦合产生的过电压。

建筑物为低压进线时，在电源总进线处装设过电压保护器。

四、关于接闪器

接闪器—直接截受雷击的避雷针、避雷带(线)、避雷网，以及用作接闪的金属屋面和金属构件等。在许多建筑物中，屋面为上人屋面，对美观要求较高，按常规做法，用园钢明敷避雷网做接闪器就影响美观，本规范对二类防雷建筑物中二、三、八、九款中的建筑物指出宜用钢筋混凝土屋面、梁、柱内的钢筋作为接闪器，实际应用中，可采用屋面女儿墙内的压顶钢筋做接闪器，高出屋面的各种铁件要与压顶钢筋可靠焊接(施工时要注意配合)，压顶钢筋与做引下线的柱内四角柱筋做好可靠的电气连接。这种做法要定期对雷击有可能造成的混凝土碎片或脱开进行维修。

五、关于接地体

接地体—埋入土壤中或混凝土基础中作散流用的导体。实际应用中，一般较大工程都利用基础内钢筋做接地体，并采用联合接地体、接地电阻值要求小≤1Ω。但在一些带有地下室、半地下室的建筑中，土建上都采用防水材料对建筑底板做防水处理。目前，所采用的防水材料都具有很好的绝缘性，因此，对这类建筑直接利用基础钢筋做接地极，就有可能满足不了工程对接地电阻的要求，要从柱筋引下线处外引，沿建筑物护坡外一周做闭合人工接地体与基础内钢筋并用，这样能达到较满意的接地电阻值。

手要断了~~希望你能满意~

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