不銹鋼管穿過磁化線圈時會發(fa)生如下兩種電磁感應現象(xiang):
1. 鋼管在橫向漏磁檢測磁化器內運動時,不(bu)銹鋼管切割磁力線而在其內部形成感生渦流。
2. 不銹鋼管(guan)磁介質(zhi)在(zai)管(guan)頭進入磁化(hua)線圈和管(guan)尾離開(kai)磁化(hua)線圈時,由于磁化(hua)線圈的磁通(tong)總(zong)量(liang)發(fa)生急劇變化(hua),線圈中會(hui)產生感(gan)生電流。
一、鋼管內產生(sheng)(sheng)的(de)感生(sheng)(sheng)渦流(liu)
不(bu)銹(xiu)鋼管(guan)(guan)橫向缺陷漏磁(ci)(ci)檢(jian)測方法采用穿過(guo)式(shi)線圈產生軸(zhou)向磁(ci)(ci)化場,并(bing)在磁(ci)(ci)化線圈內布置檢(jian)測傳(chuan)感器。當(dang)鋼管(guan)(guan)沿(yan)著(zhu)軸(zhou)向移(yi)動時,處(chu)于磁(ci)(ci)化線圈內的不(bu)銹(xiu)鋼管(guan)(guan)段被磁(ci)(ci)化至近飽(bao)和狀(zhuang)態,如存在缺陷將在鋼管(guan)(guan)表面產生泄漏磁(ci)(ci)場,然后被磁(ci)(ci)敏(min)感元件拾取(qu)并(bing)依次轉(zhuan)換為模(mo)擬(ni)信(xin)號和數字信(xin)號,最終由計(ji)算(suan)機(ji)信(xin)號處(chu)理(li)系統(tong)實施報警和分(fen)類。
如圖5-1所示(shi),以鋼(gang)管軸線(xian)(xian)為(wei)中(zhong)(zhong)(zhong)心(xin)建(jian)立圓柱坐標(biao)系。沿(yan)著鋼(gang)管運動(dong)方向,以磁(ci)(ci)化(hua)線(xian)(xian)圈為(wei)中(zhong)(zhong)(zhong)心(xin)將鋼(gang)管劃分為(wei)進入區(qu)和離開(kai)區(qu),在(zai)磁(ci)(ci)化(hua)線(xian)(xian)圈中(zhong)(zhong)(zhong)施加如圖所示(shi)的磁(ci)(ci)化(hua)電流,磁(ci)(ci)力(li)線(xian)(xian)分布特(te)征(zheng)為(wei):在(zai)進入區(qu)磁(ci)(ci)力(li)線(xian)(xian)從空氣(qi)中(zhong)(zhong)(zhong)進入鋼(gang)管,并在(zai)磁(ci)(ci)化(hua)線(xian)(xian)圈中(zhong)(zhong)(zhong)部匯聚(ju),然后在(zai)離開(kai)區(qu)折(zhe)射入空氣(qi)中(zhong)(zhong)(zhong)。
如圖5-1所示,將(jiang)磁感應強度矢(shi)量B(r,z)分解為軸(zhou)向(xiang)分量和徑向(xiang)分量,即 B(r,z)=B2(r,z)+B,(r,z)
從(cong)圖5-1中可(ke)以看出,軸向(xiang)分量(liang)B2(r,z)在(zai)(zai)(zai)(zai)(zai)進入(ru)(ru)區(qu)(qu)(qu)和離(li)開區(qu)(qu)(qu)方(fang)向(xiang)一致,沿著(zhu)鋼管前進方(fang)向(xiang),其強度在(zai)(zai)(zai)(zai)(zai)進入(ru)(ru)區(qu)(qu)(qu)逐漸增大,并在(zai)(zai)(zai)(zai)(zai)磁化線(xian)圈中部達到極大值,之后在(zai)(zai)(zai)(zai)(zai)離(li)開區(qu)(qu)(qu)逐漸減小。徑向(xiang)分量(liang)B,(r,z)在(zai)(zai)(zai)(zai)(zai)進入(ru)(ru)區(qu)(qu)(qu)方(fang)向(xiang)指向(xiang)鋼管內(nei)部,并在(zai)(zai)(zai)(zai)(zai)磁化線(xian)圈中部發生轉(zhuan)變(bian),在(zai)(zai)(zai)(zai)(zai)離(li)開區(qu)(qu)(qu)方(fang)向(xiang)指向(xiang)鋼管外部。
為了(le)研究與鋼管(guan)同軸圓(yuan)環(huan)(huan)l(ro ,zo)的渦流分布,設圓(yuan)環(huan)(huan)半(ban)徑為ro,軸向位置(zhi)為200根據楞(leng)次(ci)定律(lv),當圓(yuan)環(huan)(huan)移(yi)動時,軸向分量(liang)B,(r,z)的強度變化導(dao)致圓(yuan)環(huan)(huan)磁(ci)通(tong)量(liang)也(ye)發生(sheng)改變,從(cong)而在圓(yuan)環(huan)(huan)中產(chan)生(sheng)感生(sheng)電動勢(shi)。因磁(ci)化場為軸對稱,建立圓(yuan)環(huan)(huan)感應電動勢(shi)方程(cheng)為
根(gen)據(ju)式(5-3),沿鋼(gang)(gang)管(guan)前進方(fang)向,在進入區,軸向分(fen)量強度逐漸(jian)增強,感(gan)生(sheng)渦流(liu)(liu)(liu)(liu)(liu)方(fang)向與原磁(ci)(ci)化電(dian)流(liu)(liu)(liu)(liu)(liu)方(fang)向相(xiang)反(fan);在磁(ci)(ci)化線圈(quan)中(zhong)間位置,由(you)于(yu)軸向分(fen)量變化率為零,故此部位無感(gan)生(sheng)流(liu)(liu)(liu)(liu)(liu)產生(sheng);在離(li)開區,軸向分(fen)量強度由(you)中(zhong)間最(zui)大值逐漸(jian)減(jian)小(xiao),于(yu)是形成與原磁(ci)(ci)化電(dian)流(liu)(liu)(liu)(liu)(liu)方(fang)向相(xiang)同的感(gan)生(sheng)渦流(liu)(liu)(liu)(liu)(liu),最(zui)終鋼(gang)(gang)管(guan)中(zhong)感(gan)生(sheng)渦流(liu)(liu)(liu)(liu)(liu)分(fen)布如(ru)圖5-2a所示。如(ru)果改變磁(ci)(ci)化電(dian)流(liu)(liu)(liu)(liu)(liu)方(fang)向,根(gen)據(ju)式(5-3),同樣可得出鋼(gang)(gang)管(guan)內感(gan)生(sheng)渦流(liu)(liu)(liu)(liu)(liu)分(fen)布,如(ru)圖5-2b所示。
從圖5-2中可以看(kan)出(chu),鋼(gang)管(guan)中感(gan)生(sheng)(sheng)電流(liu)分布方向由磁(ci)化(hua)電流(liu)方向和鋼(gang)管(guan)運動方向共同決定。在(zai)進入(ru)區(qu),鋼(gang)管(guan)中的(de)感(gan)生(sheng)(sheng)渦(wo)(wo)流(liu)J1與磁(ci)化(hua)電流(liu)方向相(xiang)反;在(zai)磁(ci)化(hua)線圈中間位置無感(gan)生(sheng)(sheng)渦(wo)(wo)流(liu)產(chan)生(sheng)(sheng);在(zai)離開(kai)區(qu),感(gan)生(sheng)(sheng)渦(wo)(wo)流(liu)J2與磁(ci)化(hua)電流(liu)方向相(xiang)同。從而,在(zai)感(gan)生(sheng)(sheng)渦(wo)(wo)流(liu)產(chan)生(sheng)(sheng)的(de)磁(ci)場(chang)作用下(xia),鋼(gang)管(guan)的(de)磁(ci)化(hua)狀態將(jiang)發生(sheng)(sheng)變化(hua)。
建立如圖(tu)5-3所(suo)示(shi)的仿真模型。鋼管直徑為(wei)400mm、壁(bi)厚為(wei)15mm、長度為(wei)3000mm,材質為(wei)25鋼(電(dian)導率為(wei))。磁化線圈內徑為(wei)440mm、外徑為(wei)750mm、厚度為(wei)160mm,磁化電(dian)流(liu)(liu)密度iA/㎡,電(dian)流(liu)(liu)方(fang)向如圖(tu)5-3所(suo)示(shi)。
對(dui)不銹(xiu)鋼(gang)(gang)管(guan)中(zhong)的感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)分布進(jin)行(xing)仿真研(yan)究。磁(ci)化線圈(quan)固定(ding)不動,鋼(gang)(gang)管(guan)運行(xing)速度(du)設置為(wei)(wei)1m/s,不銹(xiu)鋼(gang)(gang)管(guan)從(cong)(cong)左端進(jin)人并向(xiang)右端移動,當鋼(gang)(gang)管(guan)中(zhong)心與磁(ci)化線圈(quan)中(zhong)心重合(he)時獲取感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)分布云圖(tu)(tu),如圖(tu)(tu)5-4所示(shi)。從(cong)(cong)圖(tu)(tu)中(zhong)可以看出,進(jin)入(ru)區(qu)的感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)方(fang)(fang)(fang)(fang)向(xiang)與磁(ci)化電流(liu)(liu)方(fang)(fang)(fang)(fang)向(xiang)相(xiang)(xiang)反,離開(kai)(kai)區(qu)的感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)方(fang)(fang)(fang)(fang)向(xiang)與磁(ci)化電流(liu)(liu)方(fang)(fang)(fang)(fang)向(xiang)相(xiang)(xiang)同,在線圈(quan)中(zhong)部感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)幾乎為(wei)(wei)零。進(jin)入(ru)區(qu)和離開(kai)(kai)區(qu)的渦(wo)(wo)流(liu)(liu)分布相(xiang)(xiang)對(dui)于線圈(quan)呈(cheng)對(dui)稱分布,方(fang)(fang)(fang)(fang)向(xiang)相(xiang)(xiang)反,強度(du)基本相(xiang)(xiang)同,仿真結果與圖(tu)(tu)5-2所示(shi)的渦(wo)(wo)流(liu)(liu)分布理論(lun)(lun)分析結論(lun)(lun)相(xiang)(xiang)同,其(qi)中(zhong)感生(sheng)(sheng)渦(wo)(wo)流(liu)(liu)最(zui)大值為(wei)(wei)1.4×105A/㎡。
為了研究感(gan)(gan)生渦流(liu)(liu)(liu)與不(bu)銹鋼(gang)管(guan)(guan)運(yun)行速(su)度(du)(du)的關系(xi),分(fen)別取速(su)度(du)(du)0.1m/s、1m/s、2m/s、5m/s、8m/s、10m/s、20m/s、30m/s、40m/s和50m/s進(jin)行仿真(zhen)。當鋼(gang)管(guan)(guan)中部(bu)與磁(ci)(ci)化線(xian)(xian)圈(quan)重合(he)時(shi)(shi)提取渦流(liu)(liu)(liu)密(mi)(mi)度(du)(du)最(zui)(zui)大(da)值和最(zui)(zui)小值,繪(hui)制成如圖5-5所示的渦流(liu)(liu)(liu)密(mi)(mi)度(du)(du)與運(yun)行速(su)度(du)(du)關系(xi)曲(qu)線(xian)(xian)。從圖中可以(yi)看出,感(gan)(gan)生渦流(liu)(liu)(liu)與不(bu)銹鋼(gang)管(guan)(guan)運(yun)行速(su)度(du)(du)成近似正比關系(xi)。鋼(gang)管(guan)(guan)低速(su)運(yun)動(dong)時(shi)(shi)感(gan)(gan)生渦流(liu)(liu)(liu)很小,可忽略不(bu)計;當運(yun)行速(su)度(du)(du)增至50m/s時(shi)(shi),渦流(liu)(liu)(liu)密(mi)(mi)度(du)(du)為2。此(ci)(ci)時(shi)(shi),感(gan)(gan)生渦流(liu)(liu)(liu)已接(jie)近傳導電流(liu)(liu)(liu)密(mi)(mi)度(du)(du)。因此(ci)(ci),高速(su)運(yun)動(dong)時(shi)(shi),感(gan)(gan)生渦流(liu)(liu)(liu)對(dui)鋼(gang)管(guan)(guan)漏(lou)磁(ci)(ci)檢測的影響(xiang)不(bu)可忽視(shi)。
二(er)、磁(ci)化線圈中產生的感生電流
當(dang)不銹鋼管(guan)端(duan)部(bu)進入和離開(kai)磁(ci)化(hua)(hua)線(xian)圈(quan)時,線(xian)圈(quan)中(zhong)(zhong)的(de)(de)(de)磁(ci)通量發(fa)生(sheng)(sheng)(sheng)(sheng)變(bian)化(hua)(hua)而產生(sheng)(sheng)(sheng)(sheng)感(gan)生(sheng)(sheng)(sheng)(sheng)電(dian)(dian)(dian)流(liu)。設磁(ci)化(hua)(hua)電(dian)(dian)(dian)源提供的(de)(de)(de)電(dian)(dian)(dian)壓為Uo,磁(ci)化(hua)(hua)線(xian)圈(quan)電(dian)(dian)(dian)阻為R,則磁(ci)化(hua)(hua)電(dian)(dian)(dian)源在線(xian)圈(quan)中(zhong)(zhong)產生(sheng)(sheng)(sheng)(sheng)的(de)(de)(de)初(chu)始(shi)傳(chuan)導電(dian)(dian)(dian)流(liu)為Io=Uo/RR。磁(ci)化(hua)(hua)線(xian)圈(quan)通過(guo)(guo)的(de)(de)(de)磁(ci)通總量為Φ,當(dang)磁(ci)化(hua)(hua)線(xian)圈(quan)中(zhong)(zhong)磁(ci)通總量發(fa)生(sheng)(sheng)(sheng)(sheng)變(bian)化(hua)(hua)時,根據楞次定律(lv),線(xian)圈(quan)中(zhong)(zhong)將產生(sheng)(sheng)(sheng)(sheng)感(gan)生(sheng)(sheng)(sheng)(sheng)電(dian)(dian)(dian)動勢(shi),對應的(de)(de)(de)感(gan)生(sheng)(sheng)(sheng)(sheng)電(dian)(dian)(dian)流(liu)磁(ci)化(hua)(hua)線(xian)圈(quan)中(zhong)(zhong)通過(guo)(guo)的(de)(de)(de)電(dian)(dian)(dian)流(liu)I為初(chu)始(shi)傳(chuan)導電(dian)(dian)(dian)流(liu)和感(gan)生(sheng)(sheng)(sheng)(sheng)電(dian)(dian)(dian)流(liu)之和,即(ji)
當線(xian)圈中沒有鋼管時(shi),磁(ci)化線(xian)圈磁(ci)通總(zong)量(liang)為線(xian)圈自身產(chan)生的(de)(de)(de)靜態磁(ci)通量(liang),其(qi)與(yu)磁(ci)化電(dian)流(liu)(liu)(liu)強度成正比,當磁(ci)化電(dian)流(liu)(liu)(liu)不變時(shi),線(xian)圈磁(ci)通總(zong)量(liang)也不發生變化。此時(shi)線(xian)圈中通過的(de)(de)(de)電(dian)流(liu)(liu)(liu)為磁(ci)化電(dian)源產(chan)生的(de)(de)(de)初始磁(ci)化傳(chuan)導電(dian)流(liu)(liu)(liu)
當管頭進入磁(ci)化(hua)線圈(quan)(quan)時(shi),具有高磁(ci)導率的(de)(de)鋼管磁(ci)介(jie)質(zhi)進入磁(ci)化(hua)線圈(quan)(quan)內部(bu)(bu),使得線圈(quan)(quan)內部(bu)(bu)的(de)(de)磁(ci)通(tong)總量增大。根據式(5-4),磁(ci)化(hua)線圈(quan)(quan)中(zhong)會(hui)產(chan)生與(yu)初始磁(ci)化(hua)傳導電流(liu)方(fang)向相反的(de)(de)感生電流(liu),此時(shi)線圈(quan)(quan)中(zhong)通(tong)過的(de)(de)電流(liu)為,如圖5-6a所示。
當(dang)管體通過磁(ci)化(hua)(hua)(hua)線(xian)(xian)圈時,線(xian)(xian)圈內部(bu)(bu)磁(ci)介(jie)質總量及分布特性基本不變(bian),從而線(xian)(xian)圈內部(bu)(bu)的(de)磁(ci)通總量也保持恒(heng)定。根(gen)據式(5-4),磁(ci)化(hua)(hua)(hua)線(xian)(xian)圈基本無感(gan)生電(dian)流產生,此時,磁(ci)化(hua)(hua)(hua)線(xian)(xian)圈中通過的(de)電(dian)流與無鋼管時相同,為磁(ci)化(hua)(hua)(hua)電(dian)源產生的(de)初始(shi)磁(ci)化(hua)(hua)(hua)傳導(dao)電(dian)流1=,如圖5-6b所示。
當管尾(wei)離(li)開磁(ci)(ci)(ci)化(hua)線圈(quan)(quan)時(shi),由于線圈(quan)(quan)內部的(de)高磁(ci)(ci)(ci)導(dao)率磁(ci)(ci)(ci)介質不斷(duan)減少,導(dao)致(zhi)磁(ci)(ci)(ci)化(hua)線圈(quan)(quan)的(de)磁(ci)(ci)(ci)通總量也不斷(duan)減少。根據式(5-4),磁(ci)(ci)(ci)化(hua)線圈(quan)(quan)中(zhong)會產生(sheng)與(yu)初(chu)始磁(ci)(ci)(ci)化(hua)傳導(dao)電(dian)(dian)流方向相同的(de)感生(sheng)電(dian)(dian)流,此時(shi)線圈(quan)(quan)中(zhong)通過的(de)電(dian)(dian)流為,如圖5-6c所示。
不銹鋼管(guan)內的磁(ci)場(chang)(chang)包(bao)括:磁(ci)化線(xian)圈通(tong)過電流(liu)(liu)I產(chan)生的磁(ci)場(chang)(chang)和鋼管(guan)中感(gan)生渦(wo)流(liu)(liu)J形成的磁(ci)場(chang)(chang)。磁(ci)化線(xian)圈的磁(ci)通(tong)總量(liang)(liang)包(bao)含(han)了由(you)感(gan)生渦(wo)流(liu)(liu)J產(chan)生的部分磁(ci)通(tong)量(liang)(liang),因此鋼管(guan)中的渦(wo)流(liu)(liu)效(xiao)應會(hui)對磁(ci)化線(xian)圈中的感(gan)生電流(liu)(liu)產(chan)生一定影響。
采用如(ru)(ru)圖5-3所(suo)(suo)示模型,進(jin)一步研究磁(ci)(ci)化(hua)線(xian)(xian)(xian)圈(quan)中產(chan)生(sheng)(sheng)的(de)感生(sheng)(sheng)電(dian)流(liu)(liu)變化(hua)規律。其(qi)(qi)中,線(xian)(xian)(xian)圈(quan)匝(za)數為600匝(za),磁(ci)(ci)化(hua)電(dian)流(liu)(liu)為5A。當鋼(gang)(gang)管(guan)(guan)(guan)(guan)管(guan)(guan)(guan)(guan)頭、管(guan)(guan)(guan)(guan)體和管(guan)(guan)(guan)(guan)尾分別與磁(ci)(ci)化(hua)線(xian)(xian)(xian)圈(quan)耦合(he)時(shi)(shi)提取(qu)磁(ci)(ci)化(hua)線(xian)(xian)(xian)圈(quan)內部產(chan)生(sheng)(sheng)的(de)感生(sheng)(sheng)電(dian)流(liu)(liu),如(ru)(ru)圖5-7所(suo)(suo)示。仿(fang)真分兩種:一是考慮(lv)鋼(gang)(gang)管(guan)(guan)(guan)(guan)渦(wo)流(liu)(liu)效(xiao)應時(shi)(shi)分析(xi)線(xian)(xian)(xian)圈(quan)感生(sheng)(sheng)電(dian)流(liu)(liu)與運動(dong)(dong)速度(du)(du)的(de)關(guan)系,二(er)是忽(hu)略鋼(gang)(gang)管(guan)(guan)(guan)(guan)渦(wo)流(liu)(liu)效(xiao)應而單獨分析(xi)線(xian)(xian)(xian)圈(quan)感生(sheng)(sheng)電(dian)流(liu)(liu)與鋼(gang)(gang)管(guan)(guan)(guan)(guan)運動(dong)(dong)速度(du)(du)關(guan)系。分別取(qu)速度(du)(du)0.1m/s、1m/s、2m/s、5m/s、8m/s、10m/s、20m/s、30m/s、40m/和50m/s進(jin)行仿(fang)真,獲得(de)如(ru)(ru)圖5-8所(suo)(suo)示的(de)磁(ci)(ci)化(hua)線(xian)(xian)(xian)圈(quan)感生(sheng)(sheng)電(dian)流(liu)(liu)與運動(dong)(dong)速度(du)(du)關(guan)系曲線(xian)(xian)(xian)。其(qi)(qi)中I1csI2cs和I3cs分別為考慮(lv)鋼(gang)(gang)管(guan)(guan)(guan)(guan)渦(wo)流(liu)(liu)效(xiao)應時(shi)(shi)在管(guan)(guan)(guan)(guan)頭、管(guan)(guan)(guan)(guan)體和管(guan)(guan)(guan)(guan)尾處線(xian)(xian)(xian)圈(quan)中產(chan)生(sheng)(sheng)的(de)感生(sheng)(sheng)電(dian)流(liu)(liu),11cI2c和I3c分別為忽(hu)略不銹鋼(gang)(gang)管(guan)(guan)(guan)(guan)渦(wo)流(liu)(liu)效(xiao)應時(shi)(shi)磁(ci)(ci)化(hua)線(xian)(xian)(xian)圈(quan)中產(chan)生(sheng)(sheng)的(de)感生(sheng)(sheng)電(dian)流(liu)(liu)。
圖5-8所示的(de)(de)仿真結果與圖5-6所示的(de)(de)理(li)論分(fen)析結論相(xiang)同:當管頭進入(ru)磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan)時,線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng)的(de)(de)感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)幅值為負(fu),即與磁(ci)(ci)化(hua)(hua)電(dian)流(liu)方向(xiang)相(xiang)反;當管體通(tong)過(guo)磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan)時,線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)基本(ben)無感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng);隨著管尾(wei)離(li)開磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan),此時線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng)與磁(ci)(ci)化(hua)(hua)電(dian)流(liu)方向(xiang)相(xiang)同的(de)(de)感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)。根(gen)據楞次定律,線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng)的(de)(de)感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)會(hui)阻礙線(xian)(xian)(xian)(xian)圈(quan)(quan)磁(ci)(ci)通(tong)量的(de)(de)變(bian)化(hua)(hua):當管頭進入(ru)磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan)時,線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)會(hui)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng)反向(xiang)感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)來(lai)阻礙磁(ci)(ci)通(tong)量的(de)(de)增大;當管體與磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan)耦合時,由于線(xian)(xian)(xian)(xian)圈(quan)(quan)磁(ci)(ci)通(tong)量基本(ben)不變(bian)而無感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng);當管尾(wei)離(li)開磁(ci)(ci)化(hua)(hua)線(xian)(xian)(xian)(xian)圈(quan)(quan)時,線(xian)(xian)(xian)(xian)圈(quan)(quan)中(zhong)(zhong)(zhong)(zhong)會(hui)產(chan)(chan)生(sheng)(sheng)(sheng)(sheng)(sheng)同向(xiang)感(gan)(gan)(gan)生(sheng)(sheng)(sheng)(sheng)(sheng)電(dian)流(liu)來(lai)阻礙磁(ci)(ci)通(tong)量的(de)(de)減小。
另外,從圖(tu)5-8中(zhong)可以看(kan)出,在運行速度(du)較(jiao)低時(shi),磁化線(xian)圈中(zhong)感(gan)(gan)生(sheng)(sheng)電流隨著速度(du)的(de)增加而快速上升(sheng);當(dang)速度(du)達到一定幅(fu)值時(shi),磁化線(xian)圈中(zhong)的(de)感(gan)(gan)生(sheng)(sheng)電流基本(ben)保持不變。因(yin)為(wei)感(gan)(gan)生(sheng)(sheng)電流只能減(jian)緩(huan)磁化線(xian)圈磁通量的(de)變化速度(du),而不能改變磁通量的(de)變化趨勢。
從圖(tu)5-8中還(huan)可以(yi)看出(chu),鋼(gang)管中的渦流(liu)會削弱(ruo)磁化(hua)線圈中產(chan)生的感生電(dian)流(liu),根據楞次定律,鋼(gang)管中(zhong)(zhong)的(de)渦流(liu)同(tong)(tong)樣會(hui)阻礙(ai)鋼(gang)管中(zhong)(zhong)磁(ci)(ci)通量(liang)的(de)變(bian)(bian)(bian)化(hua)(hua)。當(dang)不銹(xiu)鋼(gang)管進(jin)入和離開磁(ci)(ci)化(hua)(hua)線圈時(shi),鋼(gang)管中(zhong)(zhong)的(de)磁(ci)(ci)通量(liang)變(bian)(bian)(bian)化(hua)(hua)規律同(tong)(tong)樣先增大后(hou)減小。由于磁(ci)(ci)化(hua)(hua)線圈磁(ci)(ci)通總量(liang)包(bao)含了(le)不銹(xiu)鋼(gang)管磁(ci)(ci)通量(liang),所以,感生(sheng)渦流(liu)在阻礙(ai)鋼(gang)管磁(ci)(ci)通量(liang)變(bian)(bian)(bian)化(hua)(hua)的(de)同(tong)(tong)時(shi)也阻礙(ai)了(le)線圈磁(ci)(ci)通量(liang)的(de)變(bian)(bian)(bian)化(hua)(hua)速率,最終削弱了(le)線圈感生(sheng)電(dian)流(liu)的(de)強度。
