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1、<p> 附錄1 外文文獻(xiàn)原文及譯文</p><p><b> 原文:</b></p><p> An evaluation of NDT methods for the location and sizing of forging discontinuities</p><p> In selecting an NDT me
2、thod for flaw detection in forgings a number of variables must be considered:</p><p> a) the type of discontinuity to be assessed;</p><p> b) the method to be used for detection and evaluation
3、, and</p><p> c) the variables associated with the forging itself</p><p> The variables in item a) will govern the location within the forging and its orientation with respect to a particular
4、surface Item b) could include a considerable array of NDT methods, but for the purpose of this paper only the six most widely used are considered一visual testing (VT), penetrant inspection(PI), magnetic particle inspectio
5、n(MI), eddy current testing (ET), radiographic inspection (RT) and ultrasonic inspection (UI). In the last item c) the component race include such things as condi</p><p> Forging discontinuities</p>
6、<p> The location of the discontinuity will have a significant influence on the selection of the NDT method to be used and they are therefore grouped into three categories, to aid this selection:</p><p&g
7、t; 1. open to the surface: laps, seam, burst, slugs, cracks and inclusions</p><p> 2. slightly subsurface: seam, stringers, inclusions and grain structure variations</p><p> 3. internal: s
8、tringers, burst, lamination, grain structure, inclusions and piping</p><p> A brief review of these terms may be helpful:</p><p> Lap: folded metal, flattened into the surface but not fusing w
9、ith it </p><p> Seam: linear flaws due to oxidized blow holes or ingot splashes, which are elongated by hot working </p><p> Burst: ruptures caused by failure of plastic deformation by process
10、ing at too low a temperature or excessive working of metal </p><p> Stringers: a bar stock defect, due to non metallic inclusions being squeezed out into long and thin strings</p><p> Laminati
11、on: planar defect aligned parallel to surface, originating in the original ingot from rolled out piping </p><p> Cracks: transgranular failure, due to localized stresses resulting from non-uniform heating o
12、r cooling and non-plastic deformation</p><p> Inclusions: impurities, such as slag, oxide and sulphides, often from the original molten stage in forming the billet used for forging </p><p> Gr
13、ain structure: depending upon the extent of working, (deformation and recrystllisation) can be as small as 0.5mm or as large as 10mm</p><p> Piping: a cavity at the centre of the ingot or billet, caused by
14、shrinkage during solidification </p><p> Slug: a piece of foreign matter that has been pressed or rolled into the surface of the material</p><p> The NDT Method</p><p> VT—visual
15、 testing is the oldest of the NDT methods but still valid and widely used today The system is based upon observation, usually by a human observer, but now increasingly by digital/video cameras which use pattern recogniti
16、on to locate dissimilar areas in a surface. The sensitivity will depend upon the method but typically a good observer with simple visual aids can resolve 0.5mm differences aids will include magnifying glasses (up to x10
17、), microscopes(up to x100) and fibred-optic bores</p><p> PT一the surface is covered with brightly covered oil (typically red or fluorescent), which will penetrate any surface openings. After removal of ex
18、cess, an absorbent, white powder is applied, which draws any trapped oil to the surface. This creates an indication of the presence of the surface opening. This process, like visual inspection, also requires visual acuit
19、y, but the indications are ‘enhanced’ by the process, since ‘bleed-out’ spreads the visual image. Costs can range from as little as $4</p><p> Both VT and PT are surface inspection systems only arid will th
20、erefore detect only those discontinuities that have a definite surface opening Surface cleanliness is very important, particularly with PT.</p><p> MT一ferromagnetic materials carrying a large flux density;
21、 retain the presence internally, with little external evidence other than at the poles. Any discontinuity in the material will disturb this uniform flux and create a small ‘leakage’ at the site of the discontinuity. This
22、 leakage can be detected by the fact that finely divided; ferromagnetic particles collect at the-site, creating an indication. As with PT, the particles can be colored, to increase contrast, which when viewed under suita
23、ble</p><p> ET一Direct current flowing in a coil, sets up a longitudinal magnetic, field through the coil, and exhibits a particular resistance to flow. If the current is alternating, then a further effect一
24、inductive reactance, adds to this resistance, the total being impedance. This impedance also causes a lag between the current and the voltage, called a phase shift. This shift and impedance are characteristics of the coi
25、l.</p><p> If the coil is now placed close to a conducting surface, the reversing magnetic field induces a reversing current in the conducting (eddy current) which opposes the inducing field. This oppositio
26、n alters the impedance of the coil and a suitable instrument can detect these changes (both phase angle and/or impedance).For a given ,discontinuity-free surface , a specific alteration will be present which can be zeroe
27、d .If the coil now passes over a discontinuity, a change in induction will occur whic</p><p> RT一Short wavelength, electromagnetic radiation will pass through many materials, depending upon density and thic
28、kness, and then create a range of exposures on either film or a fluoroscopic screen, to present a visual image of the internal composition of the item. Differences in absorption within the material due to such things as
29、gas holes, cracks and bursts will create photographic density differences on the film or detector, which can be interpreted by trained personnel. The source of radiatio</p><p> UT—At an interface between ma
30、terials of differing acoustic impedance, a sound wave will have a proportion reflected and the remainder transmitted. Thus a gas hole or crack in a forging will reflect a sound beam because of their large difference in a
31、coustic impedance with the metal structure containing them. Since ultrasound travels in a given material at a known (predictable) velocity, then the distance to a reflector will be a direct function of this time of fligh
32、t of the pulse of sound. Its lo</p><p> The variables associated with the forging</p><p> 1.Surface condition</p><p> For VT and PT surfaces better than 6.3um Ra would yield the
33、best results. For MT a similar situation exists, where a confusing background could result from rough surfaces. ET also requires a smooth a surface for preference, since ‘lift-off’ effects could be unacceptable. For RT a
34、 surface roughness exceeding 1% of material thickness could result in a significant loon of sensitivity. However for UT, a suitably viscous ‘couplant’ could assist in sound transmittance, but entry surface ‘noise’ on the
35、</p><p> 2.Geometry</p><p> Flat surfaces are the simplest to inspect, by any method. However, PT is least influenced by geometry, being a liquid process. MT requires that the flux be at 90 to
36、 the discontinuity and thus, curved surfaces and hollow sections offer particular problems. VT may require special access equipment and ET will need specially designed probes for curved or irregular surfaces. Since RT re
37、lies on absorption differences, variations in thickness due to curvature will result in large variations in photogra</p><p> 3.Complexity</p><p> Forged bar, billet, rod and plate offer simple
38、 shapes for inspection, but aircraft landing gear is an entirely different manner. PT is the least influenced by complex shapes when using the water washable system VT will require longer inspection periods and aids such
39、 as mirrors and bores copes. For MT, the more complex the shape, the more difficult it is to arrive at an all over procedure and individual flux/current tor the various sections ET will again require specially shaped pro
40、bes and RT a l</p><p> 4.Thickness</p><p> VT, ET, PT and MT are all unaffected by thickness since they are surface methods. RT has an approximate thickness limit of 300mm in steel and at 2% s
41、ensitivity (a typical value), will only record discontinuities of 6mm maximum section, in the plane of the radiation. UT is capable of inspecting beyond 2 meters in fine-grained material but is less effective below 10mm
42、or so.</p><p> 5.Discontinuity Orientation</p><p> VT and PT are unaffected by orientation. In MT, for maximum sensitivity the flux should be at right angles to the discontinuity. ET requires
43、that the discontinuity be at right angles to the coil windings and RT has its maximum sensitivity when the discontinuity lies parallel to the radiation beam. UT has the maximum response when the reflector is at right ang
44、les to the sound beam.</p><p><b> 譯文:</b></p><p> 對(duì)鑄件缺陷位置和尺寸的無損檢測(cè)方法的評(píng)價(jià)</p><p> 對(duì)鑄件裂紋探測(cè)時(shí),選擇無損檢測(cè)方法必須注意以下幾點(diǎn):a)評(píng)定缺陷類型;b)確定評(píng)定和探測(cè)缺陷的方法;c)鑄件自身相關(guān)的變化。</p><p> 這些
45、項(xiàng)目中的變量a)將會(huì)影響鑄件中的位置和它有關(guān)部分表面的方位;b)可使用相當(dāng)多的無損檢測(cè)的方法檢測(cè),但在本文中只重點(diǎn)介紹6種廣泛應(yīng)用的方法——視覺檢測(cè)(VT)、滲透檢測(cè)(PT)、磁粉檢測(cè)(MT)、渦流檢測(cè)(ET)、射線檢測(cè)(RT)和超聲檢測(cè)(UT);c)鑄件組成因素包括表面環(huán)境條件、幾何形狀、檢測(cè)通道等。</p><p><b> a)鑄件缺陷</b></p><p>
46、; 鑄件缺陷的位置在選擇無損檢測(cè)方法時(shí)有重大影響,因此將這些位置分為三類以幫助選擇檢測(cè)方法:</p><p> 1、表面開口缺陷:圈,縫,爆裂紋,砂眼,裂縫,夾渣</p><p> 2、近表面缺陷:縫,披縫,夾渣,晶粒結(jié)構(gòu)</p><p> 3、內(nèi)部缺陷:披縫,爆裂紋,紋理,晶粒結(jié)構(gòu),夾渣,縮孔</p><p> 下面是幾種缺陷的簡(jiǎn)
47、單介紹以幫助理解:</p><p> 圈:折疊金屬,扁平的表面但沒有融入它</p><p> 縫:線性缺陷、吹孔或鋼錠氧化斑點(diǎn),這是熱加工時(shí)被加長所致</p><p> 爆裂紋:斷裂故障導(dǎo)致的塑性變形,加工工藝過程中的溫度過低或過度作用的金屬</p><p> 披縫:長條狀缺陷,由于金屬夾雜物沒被擠出而成細(xì)長的缺陷</p>
48、<p> 紋理:平面平行排列的表面缺陷,最早起源于原錠從推出了管道</p><p> 裂縫:實(shí)驗(yàn)失敗,由于局部應(yīng)力造成的非均勻加熱或冷卻和拒絕使用變形</p><p> 夾渣:雜質(zhì),如礦渣、氧化物和硫化物,通常來自原熔融階段鋼坯用于鍛造成形</p><p> 晶粒結(jié)構(gòu):根據(jù)工作中的程度(變形和再結(jié)晶)可以是小至0.5毫米或大如10毫米</
49、p><p> 縮孔:由于在凝固收縮時(shí)形成的空洞的中心或坯錠</p><p> 砂眼:一塊外來物質(zhì)或被按卷成表面的物質(zhì)</p><p><b> b)無損檢測(cè)方法</b></p><p> VT—目視檢測(cè)是無損檢測(cè)中最原始的方法,但現(xiàn)在也有它的應(yīng)用價(jià)值,且應(yīng)用廣泛。目視檢測(cè)原理是基于觀察的,經(jīng)常是由一個(gè)人來觀察,但現(xiàn)在
50、已經(jīng)升級(jí)為數(shù)字或錄像機(jī)觀察,它們是用已知圖案去識(shí)別出一個(gè)表面區(qū)域的不相似地方。靈敏度取決于方法,但一個(gè)典型的有樣品視覺幫助的好的觀察者可以識(shí)別0.5mm的不同,用這些助視器包括放大鏡(*10),顯微鏡(*100)、光纖孔徑鏡和遠(yuǎn)攝鏡在中空的或復(fù)雜區(qū)域幫助去觀察工件內(nèi)部的細(xì)節(jié)。這種方法只用于表面開口檢測(cè),花費(fèi)在4美元到4000美元。</p><p> PT—滲透檢測(cè)是表面被覆蓋著亮麗的彩色油物(典型的為紅色或熒光
51、),這種油液能滲透進(jìn)任何表面開口,在清除掉工件表面多余的油液后,用白色粉末作為吸附劑,能夠吸走任何表面上的粘滯油。這就產(chǎn)生一種表面缺陷的顯像,這個(gè)過程和目視檢測(cè)一樣要求有敏銳的視力。但在檢測(cè)過程中顯示圖像被加強(qiáng)了,從“滲透”中已經(jīng)傳播出了缺陷視覺圖像,成本范圍從兩個(gè)罐的4美元到一個(gè)工藝生產(chǎn)線的8000美元。目視檢測(cè)(VT)和滲透檢測(cè)(PT)都是表面檢測(cè)系統(tǒng),只應(yīng)用于那些表面開口的缺陷,表面的清潔度是非常重要的,尤其對(duì)滲透檢測(cè)(PT)來說
52、。</p><p> MT—磁粉檢測(cè),鐵磁性材料具有較大的磁通量密度,分布在內(nèi)部較多,外部只有端面處的少量。這種材料內(nèi)的任何缺陷都會(huì)影響原本材料的磁場(chǎng),而且在缺陷處形成一個(gè)漏磁的小洞,吸附施加在工件表面的磁粉,磁粉會(huì)集中在缺陷處,產(chǎn)生缺陷顯像。和滲透檢測(cè)一樣,當(dāng)在適當(dāng)?shù)谋尘跋掠^察時(shí),可以用有色磁粉加強(qiáng)顯示結(jié)果。然而和滲透檢測(cè)不一樣的是,這些漏洞可以通過小顆粒的顏料或金屬材料,這樣檢測(cè)的不限制于表面開口缺陷。這樣
53、的方法可以檢查表面開口和近表面缺陷。但這些僅僅適用于鐵磁性材料,如鐵、柔性的工具鋼、鎳、鈷和馬氏體不銹鋼。它不能用于檢測(cè)順磁性材料或無磁性材料,如銅、鋁、奧氏體不銹鋼。小型電磁裝備花費(fèi)只有200美元,但大型臺(tái)式機(jī)費(fèi)用高達(dá)10000美元及電的成本是大部分的。</p><p> ET—渦流檢測(cè),直流電在螺線圈流動(dòng),通過螺線圈形成一個(gè)穩(wěn)定持久的磁場(chǎng)區(qū),而且存在一個(gè)特定的流動(dòng)阻力。如果電流是交流的會(huì)有更深的效果——引入
54、感應(yīng)電抗,增加了接觸電阻,成為總阻抗。此阻抗也會(huì)引起滯后電流、電壓、稱為相移。這種相移和阻抗是線圈的特性。</p><p> 如果將螺線圈靠近一個(gè)導(dǎo)體表面,這個(gè)形成的磁場(chǎng)會(huì)在導(dǎo)體中再產(chǎn)生一個(gè)電流(即渦流),與產(chǎn)生磁場(chǎng)的電流方向相反。這種相反改變線圈阻抗,合適的工具也能探測(cè)到這些變化(相變角或阻抗)。對(duì)一個(gè)給定的自由缺陷表面,一個(gè)特殊的改變或許,它可以被“歸零”。當(dāng)線圈通過缺陷時(shí),感應(yīng)中將會(huì)發(fā)生改變,這也可以用適
55、當(dāng)?shù)墓ぞ哂涗浵聛?。然而在?dǎo)體材料內(nèi)的變化也能實(shí)現(xiàn)感應(yīng),同樣能改變浸透力。因此,材料內(nèi)部結(jié)構(gòu)不均衡的熱處理、隔離和不同成分也會(huì)影響感應(yīng)和產(chǎn)生一種指示。另一種臨界的因素是線圈和被測(cè)表面之間的距離。這種“發(fā)射”能被用作一種積極方法去識(shí)別導(dǎo)體材料上的涂層(包層)或涂料厚處。但是同樣的,線圈中的微小變化/樣品缺陷導(dǎo)致不相應(yīng)的信號(hào)。這種方法能檢測(cè)表面和近表面缺陷,當(dāng)然僅限于導(dǎo)體材料和要求線圈于檢測(cè)表面接近。這就意味著對(duì)任何組件(除了天然的電鍍金屬板
56、),設(shè)計(jì)特殊的探測(cè)器通常是用來探測(cè)特定輪廓組件。一個(gè)小的渦流機(jī)器可以花費(fèi)只有2000美元,但是大部分自動(dòng)機(jī)器可以費(fèi)用高達(dá)20000美元。</p><p> RT—短波長的電磁射線能穿透很多材料,這取決于次啊聊的密度和厚度。然后在感光膠片或熒光檢查屏上產(chǎn)生一個(gè)潛影曝光,呈現(xiàn)出一個(gè)肉眼可見的工件內(nèi)部構(gòu)成的圖像。由于材料內(nèi)部結(jié)構(gòu)的不同,諸如氣孔、崩裂、爆裂,吸收射線能量不同,在感光膠片或探測(cè)器中產(chǎn)生不同密度的詳細(xì)準(zhǔn)確
57、的圖像,這樣經(jīng)過訓(xùn)練的人就可以解讀出缺陷的信息。射線的來源是X射線管或γ射線管(銥或鈷),圖像可在感光膠片或熒光屏上顯示。缺陷的方向也是一個(gè)至關(guān)重要的因素。在射線檢測(cè)中,由于這個(gè)區(qū)別很小只能用探測(cè)器檢測(cè)。因此,一個(gè)晶粒結(jié)構(gòu)類的相對(duì)于膠片平行的缺陷,不太可能被檢測(cè)出來。但另一方面,相對(duì)于膠片垂直的裂縫會(huì)被很容易的檢測(cè)出來。因此,通常情況下, 為了檢測(cè)大多數(shù)缺陷,一個(gè)單一部件就必須從多個(gè)方向射線透照,。最后, 在任何使用射線的的環(huán)境中都是高
58、度危險(xiǎn)的輻射區(qū),因此使用時(shí)必須適當(dāng)防護(hù)暴露的區(qū)域。相對(duì)于防護(hù), X射線或γ射線的使用中的要求、監(jiān)控、報(bào)警、聯(lián)鎖和膠片本身劑量的系統(tǒng)也要加到花費(fèi)中。這樣一個(gè)基本的X射線發(fā)射和附屬設(shè)備成本將耗資10000美元,另外需要再加上膠片的成本每年花費(fèi)3000美元。</p><p> UT—在不同聲阻抗材料的接口之間,聲波會(huì)有一定比例的反射,余下的則透射。因此在氣孔或裂縫鑄件都能夠反映出一個(gè)大差異的聲波寬度,因?yàn)樗麄兊穆曌杩?/p>
59、和含金屬結(jié)構(gòu)不同。因?yàn)槌暡ㄔ谔囟ǖ牟牧现械膫鞑ニ俣仁且阎模深A(yù)測(cè)的),那么聲脈沖到反射面的距離就是時(shí)間的正比例函數(shù)。缺陷的位置就能據(jù)此估計(jì)。反射回的信號(hào)幅度與反射物的大小有關(guān),因此可以根據(jù)聲波穿透的厚度和寬度得出一個(gè)反射物的近似尺寸。這些資料在陰極射線管中可以表述成A型,在打印機(jī)或做永久記錄的帶出圖中可以表述稱B型或C型。在適當(dāng)?shù)募?xì)粒度的材料中,浸透深度可調(diào) (通過校準(zhǔn)和探頭的選擇) 范圍從10毫米到3米。然而在鑄造、鍛造或大粒材料
60、中可能是探測(cè)不到的衰減的信號(hào)。一個(gè)典型的便攜式探傷儀將耗資約5000美元,一個(gè)完全自動(dòng)化的“C型”油浸系統(tǒng)成本為20000美元。</p><p> c)與鑄件有關(guān)的變量</p><p><b> 1、表面情況</b></p><p> 對(duì)目視檢測(cè)和滲透檢測(cè)來講,表面度比6.3微米還好的會(huì)產(chǎn)生最好的結(jié)果。對(duì)磁粉檢測(cè)來說,存在類似情況,粗糙的
61、表面會(huì)產(chǎn)生一個(gè)混亂的背景。因?yàn)椤鞍l(fā)射”的效果可能是不被接受的,所以渦流檢測(cè)也偏好需要光滑的表面。而對(duì)射線檢測(cè)來說,表面粗糙度超過材料的厚度1%的可能導(dǎo)致重大的靈敏度變化。不過對(duì)于超聲檢測(cè),一個(gè)適當(dāng)粘性“耦合劑”可以協(xié)助聲音的穿透率,但入口表面上的“噪音”時(shí)基和衰減會(huì)減小靈敏度。</p><p><b> 2、幾何</b></p><p> 對(duì)任何檢測(cè)方法,平坦的表
62、面是最簡(jiǎn)單的檢查。然而,滲透檢測(cè)作為一種液體滲透的過程是受幾何影響最小的。磁粉檢測(cè)需要磁通線相對(duì)缺陷90°。因此,表面彎曲和空心部分會(huì)提供特別的問題。目視檢測(cè)要求特殊的接入設(shè)備,渦流檢測(cè)需要為曲面或不規(guī)則表面特別設(shè)計(jì)探針。因?yàn)樯渚€檢測(cè)決定于吸收差異,厚度的變化會(huì)導(dǎo)致由于曲率大的變化產(chǎn)生的一系列攝影密度和感光膠片對(duì)比度的損失。在超聲檢測(cè)中當(dāng)探測(cè)器整個(gè)與檢測(cè)表面直接接觸時(shí),探測(cè)器中有較好的透光率。任何曲率會(huì)導(dǎo)致探測(cè)器的“搖擺”和一
63、系列“耦合”的損失,降低了信號(hào)振幅。</p><p><b> 3、復(fù)雜性</b></p><p> 鑄造棒、鋼坯、桿、板提供簡(jiǎn)單的形狀進(jìn)行檢驗(yàn),但飛機(jī)起落架完全是一種不同的方式。滲透檢測(cè)當(dāng)使用水洗滌系統(tǒng)時(shí)是最容易受復(fù)雜的形狀影響的。目視檢測(cè)則需要更長的檢驗(yàn)周期和儀器幫助,比如,鏡子,光學(xué)孔徑儀。對(duì)磁粉檢測(cè)而言,形狀越復(fù)雜,越難達(dá)到一個(gè)完整工序和個(gè)體流量/電流的不
64、同部分。渦流檢測(cè)再次要求特殊形狀進(jìn)行了探測(cè),射線檢測(cè)需要較大數(shù)量的感光膠片的曝光和角度的照射。超聲檢測(cè)需要仔細(xì)計(jì)劃以確保完全覆蓋,如果聲音進(jìn)入受限則不太可能檢測(cè)。</p><p><b> 4、厚度</b></p><p> 目視檢測(cè)、渦流檢測(cè)、滲透檢測(cè)和磁粉檢測(cè)都是表面檢測(cè)的方法所以不受材料厚度的影響。射線檢測(cè)在檢測(cè)鋼板時(shí)存在一個(gè)近似極限——300毫米厚的鋼板,
65、靈敏度為2%(典型值),這種靈敏度是指在飛機(jī)的輻射中只會(huì)記錄最大的部分為6毫米的缺陷。超聲檢測(cè)是能夠檢查晶粒結(jié)構(gòu)很好的超過2米的材料,但是低于10毫米左右比較無效的。</p><p><b> 5、缺陷的方向</b></p><p> 目視檢測(cè)和滲透檢測(cè)不受缺陷方向的影響。磁粉檢測(cè)最大靈敏度應(yīng)該是在磁場(chǎng)與缺陷方向成直角處。渦流檢測(cè)要求缺陷和線圈繞組成直角的方向,射
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