Pfeiffer 博士在紀念曼內斯曼兄弟發明斜軋穿孔100周年的一篇文章中提到Charles Kellogg時,他稱Kellogg 為失敗的先驅者。文中稱:“這里還得提一下不幸失敗的先驅者 Charles Kellogg.他于1887年在弗吉尼亞的Findlay創辦了一家軋鋼廠,并首次采用連軋技術生產鋼管。·····1890年發明家 Heckert申請了連軋技術專利,該技術采用10架兩輥高速軋機固定芯棒軋制空心管坯。可見在Calmes多機架軋管機問世前80年,就已有了雛形·.....”。早在周期軋管工藝發明之前,美國Kellogg鋼管廠就采用連軋管工藝對鑄鋼空心坯進行延伸軋制,但是,這種軋管工藝的發展、完善卻經歷了漫長的過程。從Kellogg五機架連軋管機1890年問世至今,連軋管機已有120年的歷史了,連軋管工藝是眾多軋管工藝大師們的集體創作的杰作,在Kellogg、Heckert、Fas-sel、Foren、Pfeiffer和岡本等眾多工藝大師們不懈努力之下,豐富和完善了連軋工藝理論,并形成了3種不同的連軋管工藝:全浮動芯棒連軋管工藝、限動芯棒連軋管工藝和半浮動芯棒連軋管工藝,將連軋管工藝推向一個嶄新的階段。
一、連軋管工藝(yi)在20世紀(ji)前80年(nian)(1904~1985年(nian))的發展
連軋管(guan)工藝在20世紀前80年的發展(zhan)基本上就是全(quan)浮動連軋管(guan)工藝技術的發展(zhan),這(zhe)可分為如下三個階(jie)段(duan)。
1. 第(di)一階段(1904~1934年)
在第一階(jie)段(duan)以Fassel軋(ya)機為(wei)代表。Fassel 軋(ya)機以交流(liu)電機組傳(chuan)動(dong)、全浮動(dong)長芯棒軋(ya)制為(wei)機組的(de)主要技術特(te)征。熱軋(ya)管(guan)僅用(yong)于冷拔坯料,品(pin)種規格(ge)少、質(zhi)量差、生產率低。1913年美(mei)國(guo)Pittsburgh Steel Products 公司 Monessen 廠的(de)φ40~65mm 連軋(ya)管(guan)機,就是德國(guo)按(an)Fassel軋(ya)機設計(ji)的(de),它是這一階(jie)段(duan)的(de)代表機組。
2. 第(di)二階段(duan)(1934~1950年(nian))
第二(er)階段以(yi)Foren 軋(ya)(ya)機(ji)(ji)和Lorain、Gary廠的(de)(de)(de)連(lian)(lian)軋(ya)(ya)管機(ji)(ji)組(zu)為(wei)代表(biao)。1934年(nian)(nian)美國 Globe Steel Tube 公司(si)(si)(廠)的(de)(de)(de)26機(ji)(ji)架單獨(du)傳動(dong)的(de)(de)(de)連(lian)(lian)軋(ya)(ya)管機(ji)(ji)投產(chan),它是采用直流(liu)電機(ji)(ji)單獨(du)傳動(dong)的(de)(de)(de)全(quan)浮(fu)動(dong)芯棒連(lian)(lian)軋(ya)(ya)管機(ji)(ji),是由(you)該公司(si)(si) Foren工程師(shi)設計的(de)(de)(de)。1948年(nian)(nian)后(hou),Lorain、Gary 廠和 Ellwood 廠的(de)(de)(de)全(quan)浮(fu)動(dong)芯棒連(lian)(lian)軋(ya)(ya)管機(ji)(ji)組(zu)配置了(le)張力減徑機(ji)(ji),擴大了(le)品(pin)種規格(ge)范(fan)圍(wei),設計月產(chan)量達0.8萬~2.0萬噸。
3. 第三階段(1961~1978年)
20世紀60年(nian)代的連軋管(guan)機(ji)組仍以全浮(fu)動(dong)長芯(xin)棒軋制(zhi)(zhi)和直(zhi)流電機(ji)單獨(du)傳(chuan)動(dong)為主要特征,但由(you)于配置了多機(ji)架、單獨(du)傳(chuan)動(dong)的張力減(jian)徑機(ji),產品品種規格增至400~500種,月(yue)產量(liang)可(ke)達(da)4~5萬噸。在1970~1978年(nian),由(you)于連軋工(gong)(gong)(gong)藝理論(lun)及張減(jian)工(gong)(gong)(gong)藝理論(lun)的研究(jiu)卓有成效,深(shen)化了對連軋工(gong)(gong)(gong)藝的認(ren)識,采用“竹節”控(kong)(kong)制(zhi)(zhi)和CEC控(kong)(kong)制(zhi)(zhi)及電子計算機(ji)控(kong)(kong)制(zhi)(zhi)的連軋管(guan)機(ji)組先后投產。這一階段的代表(biao)機(ji)組是原(yuan)聯邦德國Mulheim 鋼(gang)管(guan)廠(chang)的RK2機(ji)組。
二、三種連(lian)軋管工藝并存及全(quan)浮動芯棒(bang)連(lian)軋管工藝在(zai)寶鋼(gang)的發展(zhan)(1978年至(zhi)今)
1978年至今,限動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi)(MPM)及(ji)半浮動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi)(MRK-S)得到了發展并日成(cheng)(cheng)熟,從(cong)而(er)形成(cheng)(cheng)了3種(zhong)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi)并存的局面。限動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi)可軋(ya)(ya)(ya)(ya)出比全(quan)(quan)浮動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi)更長、口徑更大(da)的鋼管(guan)(guan)(guan),但軋(ya)(ya)(ya)(ya)制(zhi)節奏和(he)速度低于(yu)全(quan)(quan)浮動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi),由于(yu)它的出現晚于(yu)全(quan)(quan)浮動(dong)(dong)芯(xin)棒(bang)(bang)連(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)工(gong)(gong)藝(yi),在工(gong)(gong)藝(yi)自動(dong)(dong)控制(zhi)技術配置(zhi)上優于(yu)前(qian)者(zhe),顯示其相對的優勢。
但全浮動芯棒連軋管工藝在中小口徑鋼管生產領域中仍保持高節奏、高產能的優點。2004年寶鋼不銹鋼管廠(chang)曾年產84萬噸。鋼管大大超過了年產50萬噸的設計能力,并將產品最大外徑從139.7mm擴大到177.8mm,壁厚范圍從3~25mm擴大至3~32mm,所生產合金鋼管的合金含量為3%~15%.至于全浮動芯棒連軋管機組工藝上的不足,則可以通過改進穿孔機軋輥設計,發揮竹節控制和CEC控制功能而予以一定程度的彌補。
三、結語
應(ying)該指出,就軋(ya)(ya)(ya)(ya)制技術而(er)(er)言,周(zhou)(zhou)期(qi)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji)和連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji)乃同根,均源于(yu)(yu)兩(liang)重(zhong)式軋(ya)(ya)(ya)(ya)機(ji)(ji)(ji)(ji)(ji)。曼氏斯曼兄弟基(ji)于(yu)(yu)兩(liang)重(zhong)式軋(ya)(ya)(ya)(ya)機(ji)(ji)(ji)(ji)(ji)的(de)(de)結構,創造性地設計了(le)獨(du)特的(de)(de)周(zhou)(zhou)期(qi)軋(ya)(ya)(ya)(ya)輥孔型(xing),促成了(le)人工(gong)(gong)(gong)(gong)喂料(liao)周(zhou)(zhou)期(qi)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji)的(de)(de)誕生(sheng),而(er)(er)Kellogg 和Heckert兩(liang)位(wei)大(da)師(shi)很自(zi)然(ran)地聯想到(dao)配置多個機(ji)(ji)(ji)(ji)(ji)架的(de)(de)兩(liang)重(zhong)式軋(ya)(ya)(ya)(ya)機(ji)(ji)(ji)(ji)(ji),但(dan)由(you)于(yu)(yu)受到(dao)技術條件的(de)(de)限(xian)制,第1臺連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji)(Fassel軋(ya)(ya)(ya)(ya)機(ji)(ji)(ji)(ji)(ji))的(de)(de)問(wen)世要比周(zhou)(zhou)期(qi)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji)晚十幾年(nian)(nian)。但(dan)“事有必至(zhi)(zhi),理(li)(li)有固然(ran)”。100多年(nian)(nian)后(hou)(hou)周(zhou)(zhou)期(qi)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)衰矣!而(er)(er)連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)仍(reng)充(chong)滿發展的(de)(de)活力,其理(li)(li)在(zai)于(yu)(yu):連(lian)(lian)(lian)續軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)總比間(jian)斷軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)強。至(zhi)(zhi)于(yu)(yu)兩(liang)種連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)即全浮動芯(xin)(xin)棒和限(xian)動芯(xin)(xin)棒連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)的(de)(de)對(dui)(dui)比則不是(shi)一個孰優孰劣的(de)(de)問(wen)題,而(er)(er)是(shi)一個應(ying)用(yong)場合(he)不同的(de)(de)問(wen)題,即全浮動芯(xin)(xin)棒連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)應(ying)用(yong)于(yu)(yu)(中)小口(kou)徑(jing)無(wu)縫不銹鋼管(guan)(guan)(guan)(guan)生(sheng)產,而(er)(er)限(xian)動芯(xin)(xin)棒連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)工(gong)(gong)(gong)(gong)藝(yi)應(ying)用(yong)于(yu)(yu)大(da)口(kou)徑(jing)和較大(da)口(kou)徑(jing)無(wu)縫鋼管(guan)(guan)(guan)(guan)生(sheng)產。當然(ran),這(zhe)樣的(de)(de)看法要在(zai)對(dui)(dui)168PQF和140FFM(全浮動芯(xin)(xin)棒連(lian)(lian)(lian)軋(ya)(ya)(ya)(ya)管(guan)(guan)(guan)(guan)機(ji)(ji)(ji)(ji)(ji))進行較長時間(jian)的(de)(de)對(dui)(dui)比考(kao)察后(hou)(hou)才能作出恰當的(de)(de)結論。
