鑄態金屬(shu)常見的組織缺(que)陷(xian)有縮孔、疏松、偏(pian)析、內(nei)裂紋、氣泡和(he)白點等。 


 1. 縮孔 


  金(jin)(jin)屬在(zai)冷凝(ning)過程中(zhong)由(you)于(yu)體(ti)(ti)(ti)積(ji)(ji)的(de)收縮(suo)而在(zai)鑄錠或(huo)鑄件心部形成管狀(或(huo)喇叭狀)或(huo)分散(san)的(de)孔(kong)洞,稱為縮(suo)孔(kong)。縮(suo)孔(kong)的(de)相對體(ti)(ti)(ti)積(ji)(ji)與(yu)與(yu)液(ye)態(tai)金(jin)(jin)屬的(de)溫(wen)度(du)、冷卻條件以及鑄件的(de)大(da)小等有關。液(ye)態(tai)金(jin)(jin)屬的(de)溫(wen)度(du)越(yue)(yue)高,則液(ye)體(ti)(ti)(ti)與(yu)固體(ti)(ti)(ti)之(zhi)間(jian)的(de)體(ti)(ti)(ti)積(ji)(ji)差越(yue)(yue)大(da),而縮(suo)孔(kong)的(de)體(ti)(ti)(ti)積(ji)(ji)也越(yue)(yue)大(da)。向薄(bo)壁鑄型(xing)(xing)中(zhong)澆注(zhu)金(jin)(jin)屬時(shi),型(xing)(xing)壁越(yue)(yue)薄(bo)、則受熱越(yue)(yue)快,液(ye)態(tai)金(jin)(jin)屬越(yue)(yue)不(bu)易冷卻,在(zai)剛(gang)澆完鑄型(xing)(xing)時(shi),液(ye)態(tai)金(jin)(jin)屬的(de)體(ti)(ti)(ti)積(ji)(ji)也越(yue)(yue)大(da),金(jin)(jin)屬冷凝(ning)后的(de)縮(suo)孔(kong)也就越(yue)(yue)大(da)。 

 

 2. 疏松(song) 


 在(zai)(zai)(zai)急速冷卻的條件下澆注金(jin)(jin)屬,可避免在(zai)(zai)(zai)鑄錠上部(bu)形(xing)成集中(zhong)(zhong)縮(suo)(suo)孔,但此時液體(ti)金(jin)(jin)屬與固態金(jin)(jin)屬之間的體(ti)積(ji)差仍保持一定的數值,雖然在(zai)(zai)(zai)表(biao)面上似乎已經消除了大的縮(suo)(suo)孔,可是(shi)有(you)許多細小縮(suo)(suo)孔即(ji)疏(shu)松,分布在(zai)(zai)(zai)金(jin)(jin)屬的整個(ge)體(ti)積(ji)中(zhong)(zhong)。 鋼(gang)材在(zai)(zai)(zai)鍛(duan)造(zao)和軋制(zhi)過(guo)程(cheng)中(zhong)(zhong),疏(shu)松情(qing)況可得到很大程(cheng)度的改善,但若由于原(yuan)鋼(gang)錠的疏(shu)松較(jiao)為(wei)嚴(yan)重、壓縮(suo)(suo)比不(bu)足(zu)等原(yuan)因,則在(zai)(zai)(zai)熱(re)加工(gong)后較(jiao)嚴(yan)重的疏(shu)松仍會存在(zai)(zai)(zai)。此外,當原(yuan)鋼(gang)錠中(zhong)(zhong)存在(zai)(zai)(zai)著較(jiao)多的氣泡,而在(zai)(zai)(zai)熱(re)軋過(guo)程(cheng)中(zhong)(zhong)焊合不(bu)良,或沸騰鋼(gang)中(zhong)(zhong)的氣泡分布不(bu)良,以致影響焊合,亦可能(neng)形(xing)成疏(shu)松。 


   疏松的存(cun)在具有(you)較大的危(wei)害性(xing),主(zhu)要(yao)有(you)以下幾種: 

   

  a. 在(zai)鑄(zhu)件中(zhong)(zhong),由于(yu)疏松的(de)存在(zai),顯著降低其(qi)力學性能(neng),可(ke)能(neng)使其(qi)在(zai)使用過(guo)程(cheng)中(zhong)(zhong)成(cheng)為疲勞(lao)源(yuan)而發(fa)生(sheng)斷裂。在(zai)用作(zuo)液(ye)體容器(qi)或管(guan)道的(de)鑄(zhu)件中(zhong)(zhong),有時會存在(zai)基本(ben)上相互(hu)連接的(de)疏松,以(yi)致不能(neng)通過(guo)水壓(ya)試驗,或在(zai)使用過(guo)程(cheng)中(zhong)(zhong)發(fa)生(sheng)滲漏現象; 


  b. 鋼(gang)材中(zhong)如存在(zai)(zai)疏松,亦會降(jiang)低其力學性能(neng),但(dan)因在(zai)(zai)熱加工過程中(zhong)一般(ban)能(neng)減少(shao)或消除疏松,故疏松對(dui)鋼(gang)材性能(neng)的(de)影響比(bi)鑄件的(de)小; 


  c. 金屬中存在較嚴重的疏松,對機械加工后的表面(mian)粗(cu)糙(cao)度(du)有一定(ding)的影響。


 3. 偏析 


  金屬在冷凝(ning)過程(cheng)中(zhong),由于(yu)某些因(yin)素的(de)(de)(de)(de)影(ying)響而(er)形成(cheng)(cheng)的(de)(de)(de)(de)化學成(cheng)(cheng)分不(bu)均(jun)(jun)勻現象稱為(wei)(wei)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)分為(wei)(wei)晶(jing)內(nei)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)、晶(jing)間(jian)(jian)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)、區(qu)域偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)、比(bi)重(zhong)(zhong)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。 由于(yu)擴散不(bu)足,在凝(ning)固后的(de)(de)(de)(de)金屬中(zhong),便存在晶(jing)體(ti)(ti)(ti)(ti)范(fan)圍內(nei)的(de)(de)(de)(de)成(cheng)(cheng)分不(bu)均(jun)(jun)勻現象,即晶(jing)內(nei)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。基于(yu)同一(yi)(yi)(yi)原因(yin),在固溶(rong)體(ti)(ti)(ti)(ti)金屬中(zhong),后凝(ning)固的(de)(de)(de)(de)晶(jing)體(ti)(ti)(ti)(ti)與(yu)(yu)先(xian)凝(ning)固的(de)(de)(de)(de)晶(jing)體(ti)(ti)(ti)(ti)成(cheng)(cheng)分也會不(bu)同,即晶(jing)間(jian)(jian)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。碳化物偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)是一(yi)(yi)(yi)種晶(jing)間(jian)(jian)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。 在澆注鑄(zhu)(zhu)鍵(或鑄(zhu)(zhu)件(jian))時(shi),由于(yu)通過鑄(zhu)(zhu)型(xing)壁強烈的(de)(de)(de)(de)定向散熱,在進行(xing)著(zhu)(zhu)凝(ning)固的(de)(de)(de)(de)合(he)金內(nei)便形成(cheng)(cheng)一(yi)(yi)(yi)個較大的(de)(de)(de)(de)溫差(cha)(cha)。結果就必(bi)然導(dao)致外層(ceng)區(qu)域富(fu)集高熔點(dian)組元(yuan),而(er)心部則富(fu)集低(di)熔點(dian)組元(yuan),同時(shi)也富(fu)集著(zhu)(zhu)凝(ning)固時(shi)析(xi)(xi)(xi)出的(de)(de)(de)(de)非(fei)金屬雜(za)質和氣(qi)體(ti)(ti)(ti)(ti)等(deng)。這種偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)稱為(wei)(wei)區(qu)域偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。 在金屬冷凝(ning)過程(cheng)中(zhong),如(ru)果析(xi)(xi)(xi)出的(de)(de)(de)(de)晶(jing)體(ti)(ti)(ti)(ti)與(yu)(yu)余下的(de)(de)(de)(de)溶(rong)液(ye)兩者密度(du)(du)不(bu)同時(shi),這些晶(jing)體(ti)(ti)(ti)(ti)便傾向于(yu)在溶(rong)液(ye)中(zhong)下沉(chen)或上浮,所形成(cheng)(cheng)的(de)(de)(de)(de)化學成(cheng)(cheng)分不(bu)均(jun)(jun)勻現象,稱為(wei)(wei)比(bi)重(zhong)(zhong)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)。晶(jing)體(ti)(ti)(ti)(ti)與(yu)(yu)余下的(de)(de)(de)(de)溶(rong)液(ye)之(zhi)間(jian)(jian)的(de)(de)(de)(de)密度(du)(du)差(cha)(cha)越(yue)(yue)大,比(bi)重(zhong)(zhong)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)越(yue)(yue)大。這種密度(du)(du)差(cha)(cha)取決于(yu)金屬組元(yuan)的(de)(de)(de)(de)密度(du)(du)差(cha)(cha),以及(ji)晶(jing)體(ti)(ti)(ti)(ti)與(yu)(yu)溶(rong)液(ye)之(zhi)間(jian)(jian)的(de)(de)(de)(de)成(cheng)(cheng)分差(cha)(cha)。如(ru)果冷卻越(yue)(yue)緩慢,隨著(zhu)(zhu)溫度(du)(du)降低(di)初生(sheng)晶(jing)體(ti)(ti)(ti)(ti)數(shu)量的(de)(de)(de)(de)增加越(yue)(yue)緩慢,則晶(jing)體(ti)(ti)(ti)(ti)在溶(rong)液(ye)中(zhong)能自由浮沉(chen)的(de)(de)(de)(de)溫度(du)(du)范(fan)圍越(yue)(yue)大,因(yin)而(er)比(bi)重(zhong)(zhong)偏(pian)(pian)(pian)(pian)析(xi)(xi)(xi)也越(yue)(yue)強烈。 


 4. 氣泡 


  金(jin)(jin)屬在熔(rong)融狀(zhuang)態時能溶解(jie)大量的氣(qi)體,在冷凝過程中(zhong)因(yin)溶解(jie)度(du)隨溫度(du)的降低而急劇減小,致使氣(qi)體從液態金(jin)(jin)屬中(zhong)釋放出(chu)來。若此(ci)時金(jin)(jin)屬已完全凝固,則剩下(xia)的氣(qi)體不易逸出(chu),有一部(bu)分(fen)就包容在還(huan)處(chu)于(yu)(yu)塑性狀(zhuang)態的金(jin)(jin)屬中(zhong),于(yu)(yu)是形成氣(qi)孔,則稱其為氣(qi)泡(pao)。 


  氣泡的有害影(ying)響表現如下: 


  a. 氣(qi)泡減少金屬(shu)鑄件的(de)有(you)效截面,由(you)于(yu)其缺(que)口效應,大(da)大(da)降低了(le)材料(liao)的(de)強度; 


  b. 當鑄錠表面存在著氣(qi)泡時(shi),在熱鍛加熱時(shi)可能被氧化,在隨后的(de)鍛壓(ya)過程中(zhong)不(bu)能焊合而(er)形成細紋或(huo)裂縫; 


  c. 在(zai)沸(fei)騰鋼及某些合金中,由(you)于(yu)氣泡的(de)存在(zai)還可能產生偏(pian)析導(dao)致裂縫。


 5. 白點(dian) 


  在(zai)經(jing)侵(qin)蝕后的橫向截面上(shang),呈現(xian)較多短小的不連續的發絲狀裂縫(feng);而(er)在(zai)縱向斷面上(shang)會發現(xian)表(biao)面光滑、銀白色的圓形或橢圓形的斑點,這種缺陷(xian)稱為白點。


   白點(dian)最容易產生在鎳、鉻、錳作為(wei)合(he)金(jin)元(yuan)素的合(he)金(jin)結構鋼及(ji)低合(he)金(jin)工具(ju)鋼中(zhong)。 奧(ao)氏(shi)體不銹鋼及(ji)萊(lai)氏(shi)體鋼中(zhong),從(cong)未發現過白點(dian);鑄鋼中(zhong)也可能(neng)發現白點(dian),但(dan)極(ji)為(wei)罕見;焊(han)接工件的熔焊(han)金(jin)屬中(zhong)偶爾也會產生白點(dian)。


  白(bai)點(dian)(dian)的(de)產生與鋼(gang)(gang)材(cai)(cai)(cai)的(de)尺寸也(ye)有(you)(you)一定的(de)關(guan)系,橫截面(mian)的(de)直徑或厚度(du)小于(yu)30mm的(de)鋼(gang)(gang)材(cai)(cai)(cai)不(bu)易(yi)產生白(bai)點(dian)(dian)。 通(tong)常具有(you)(you)白(bai)點(dian)(dian)的(de)鋼(gang)(gang)材(cai)(cai)(cai)縱向(xiang)(xiang)抗拉強度(du)與彈性(xing)極限(xian)降低(di)并不(bu)多(duo),但伸長率則顯著(zhu)降低(di),尤其是斷面(mian)收縮率與沖擊韌(ren)性(xing)降低(di)得更(geng)多(duo),有(you)(you)時可(ke)能接近于(yu)零。且這種鋼(gang)(gang)材(cai)(cai)(cai)的(de)橫向(xiang)(xiang)力(li)學(xue)性(xing)能比縱向(xiang)(xiang)力(li)學(xue)性(xing)能降低(di)得多(duo)。因此具有(you)(you)白(bai)點(dian)(dian)的(de)鋼(gang)(gang)材(cai)(cai)(cai)一般不(bu)能使用(yong)。