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1、<p><b> 文獻(xiàn)翻譯</b></p><p><b> 1. 英文</b></p><p> Shapers, Drilling and Milling Machines</p><p> A shapers utilizes a single-point tool on a tool holde
2、r mounted on the end of the ram. Cutting is generally done on the forward stroke. The tool is lifted slightly by the clapper box to prevent excessive drag across the work, which is fed under the tool during the return st
3、roke in preparation for the next cut. The column houses the operating mechanisms of the shaper and also serves as a mounting unit for the work-supporting table. The table can be moved in two directions mutually perpendic
4、ular t</p><p> Two types of driving mechanisms for shapers are a modified Whitworth quick-return mechanism and a hydraulic drive. For the Whitworth mechanism, the motor drives the bull gear, which drives a
5、crank arm with an adjustable crank pin to control the length of stroke. As the bull gear rotates, the rocker arm is forced to reciprocate, imparting this motion to the shaper ram. </p><p> The motor on a hy
6、draulic shaper is used only to drive the hydraulic pump. The remainder of the shaper motions are controlled by the direction of the flow of the hydraulic oil. The cutting stroke of the mechanically driven shaper uses 220
7、 deg. Of rotation of the bull gear, while the return stroke uses 140 deg. This gives a cutting stroke to return stroke ratio of 1.6 to 1. The velocity diagram for a hydraulic shaper shows that for most of the tool during
8、 cutting stroke is never constant, while th</p><p> A duplicating device that makes possible the reproduction of contours from a sheet-metal template is available. The sheet metal template is used in conjun
9、ction with hydraulic control.</p><p> Upright drilling machines or drill presses are available in a variety of sizes and types, and are equipped with a sufficient range of apindle speeds and automatic feeds
10、 to fit the neds of most industries. Speed ranges on a typical machine are from 76 to 2025 rpm., with drill feed from 0.002 to 0.020 in.per revolution of the spindle.</p><p> Radial drilling machines are us
11、ed to drill workpieces that are too large or cumbersome to conveniently move. The spindle with the speed and feed changing mechanism is mounted on the radial arm; by combining the movement of the radial arm around column
12、 and the movement of the spindle assembly along the arm, it is possible to align the spindle and the drill to any position within reach of the machine. For work that is too large to conveniently support on the base, the
13、spindle assembly can be swung</p><p> Plain radial drilling machines provide only for vertical movement of the spindle; universal machines allow the spindle to swivel about an axis normal to the radial arm
14、and the radial arm to rotate about a horizontal axis, thus permitting drilling at any angle.</p><p> A multispindle drilling machine has one or more heads that drive the spindles through universal joints an
15、d telescoping splined shafts. All spindles are usually driven by the same motor and fed simultaneously to drill the desired number of holes. In most machines each spindle is held in an adjustable plate so that it can be
16、moved relative to the others. The area covered by adjacent spindles overlap so that the machine can be set to drill holes at any location within its range.</p><p> The milling operation involves metal remov
17、al with a rotating cutter. It includes removal of metal from the surface of a workspiece, enlarging holes, and form cutting, such as threads and gear teeth.</p><p> Within an knee and column type of milling
18、 machine the column is the main supporting member for the other components, and includes the base containing the drive motor, the spindle, and the cutters. The cutter is mounted on an arbor held in the spindle, and suppo
19、rted on its outer extremity by a bearing in the overarm. The knee is held on the column in dovetail slots, the saddle is fastened to the knee in dovetail slots, and the table is attached to the saddle. Thus, the build-up
20、 the knee and colum</p><p> Fixed-bed milling machines are designed to provide more rigidity than the knee and column type. The table is mounted directly on the machine base, which provides the rigidity nec
21、essary for absorbing heavy cutting load, and allows only longitudinal motion to the table. Vertical motion is obtained by moving the entire cutting head.</p><p> Tracer milling is characterized by coordinat
22、ed or synchronized movements of either the paths of the cutter and tracing elements, or the paths of the workpiece and model. In a typical tracer mill the tracing finger follow the shape of the master pattern, and the cu
23、tter heads duplicate the tracer motion.</p><p> The following are general design considerations for milling:</p><p> 1. Wherever possible, the part should be designed so that a maximum number
24、of surfaces can be milled from one setting.</p><p> 2. Design for the use of multiple cutters to mill several surfaces simultaneously.</p><p> 3. The largest flat surface will be milled first,
25、 so that all dimensions are best referred to such surface.</p><p> 4. Square inside corners are not possible, since the cutter rotates.</p><p> Grinding Machines and Special Metal-removal Proc
26、ess</p><p> Random point-cutting tools include abrasives in the shape of a wheel, bonded to a belt, a stick, or simply suspended in liquid. The grinding process is of extreme importance in production work f
27、or several reasons.</p><p> 1.It is most common method for cutting hardened tool steel or other heat-treated steel. Parts are first machined in the un-heat-treated condition, and then ground to the desired
28、dimensions and surface finish.</p><p> 2.It can provide surface finish to 0.5µm without extreme cost.</p><p> 3.The grinding operation can assure accurate dimensions in a relatively short
29、 time, since machines are built to provide motions in increments of ten-thousandths of an inch, instead of thousandths as is common in other machines. </p><p> 4.Extremely small and thin parts can be finish
30、ed by this method, since light pressure is used and the tendency for the part to deflect away from the cutter is minimized.</p><p> On a cylindrical grinding machine the grinding wheel rotates between 5500
31、and 6500 rpm., while the work rotates between 60 and 125 rpm... The depth of cut is controlled by moving the wheel head, which includes both the wheel and its drive motor. Coolants are provided to reduce heat distortion
32、and to remove chips and abrasive dust.</p><p> Material removal from ductile materials can be accomplished by using a tool which is harder than the workpiece. However during Word War Ⅱ the widespread use of
33、 materials which were as hard or harder than cutting tools created a demand for new material-removal methods. Since then a number of processes have been developed which, although relatively slow and costly, can effective
34、ly remove excess material in a precise and repeatable fashion. There are two types of processes. The first type is based </p><p> Chemical milling is controlled etching process using strong alkaline or acid
35、 etchants. Aluminum, titanium, magnesium, and steel are the principal metals processed by this method. The area to remain untouched by the etchant are masked with a protective coating. For example, the entire part may be
36、 dipped in the masking material and the mask removed from those areas to be etched, or a chemically resistant prescribed time, after which the part is rinsed in cold water, the masking removed, the part i</p><
37、p> There are certain disadvantages to consider. Metal will erode equally in all directions, so that walls of the etched section will have a radius equal to the depth of etch. A second disadvantage is that a better fi
38、nish is obtained on surfaces parallel to the direction of rolling of a sheet than on surface perpendicular to the direction of rolling. This can be compared to the surface obtained when working wood parallel to, or acros
39、s the grain. A third disadvantage, not unique with this process, is</p><p> Chemical milling, however, has many advantages over conventional metal-removal methods. There is no warpage of heavy sections such
40、 as forgings or extrusions when the etchant is applied simultaneously to all sides for reduction of section thickness. In conventional milling only one side can be worked at a time, and frequent turning of a part is nece
41、ssary to prevent warpage. Chemical milling can be applied to parts of irregular shape where conventional milling may be very difficult. Light-weight c</p><p> Electric-discharge machining is a process in wh
42、ich an electrical potential is impressed between the workpiece and the tool, and the current, emanating from a point source on the workpoiece, flows to the tool in the form of a spark. The forces that accomplish the meta
43、l removal are within the workpiece proper and, as a result, it is not necessary to construct the unit to withstand the heavy pressures and loads prevalent with conventional machining methods.</p><p> The fr
44、equency of the electrical discharge ranges from 20,00 cps (cycles per second) for rough machining, to 50,000 cps for finishing such items as hardened tools and dies. The current may vary from 50 amp, during rough machini
45、ng, to as low as 0.5 amp, during finishing. The process is currently applied to the machining of single-point tools, form tools, milling cutters, broaches, and die cavities. It is also applicable to the removal of broken
46、 drills, taps, and studs without damaging the workpiec</p><p> The ultrasonic machining process is applied to both conducting and non-conducting material, and relies entirely upon abrasive action for metal
47、removal. The workpiece is submerged in slurry of finely fivided abrasive particles in a vehicle such as water. The tool is coupled to an oscillator and vibrates at frequencies between 15,000 and 30,000 cps. The vibrating
48、 tool cavitates the liquid, and the force drives the abrasive into the surface of the workpiece to remove metal chips which are carried a</p><p> Introduction of Machining</p><p> Machining as
49、 a shape-producing method is the most universally used and the most important of all manufacturing processes. Machining is a shape-producing process in which a power-driven device causes material to be removed in chip fo
50、rm. Most machining is done with equipment that supports both the work piece and cutting tool although in some cases portable equipment is used with unsupported workpiece. </p><p> Low setup cost for small q
51、uantities. Machining has tow applications in manufacturing. For casting, forging, and pressworking, each specific shape to be p5roduced, even one part, nearly always has a high tooling cost. The shapes that may be produc
52、ed, even one part, nearly always has a high tooling cost. The shapes that may be produced by welding depend to a large degree on the shapes of raw material that are available. By making use of generally high cost equipme
53、nt but without special tooling, it</p><p> Close accuracies, good finishes. The second application for machining is based on the high accuracies and surface finishes possible. Many of the parts machined in
54、low quantities would be produced with lower but acceptable tolerances if produced in high quantities by some other process. On the other hand, many pars are given shapes by some high quantity deformation process and mach
55、ined only on selected surfaces where high accuracies are needed. Internal threads, for example, are seldom produced b</p><p><b> 2. 翻譯</b></p><p> 牛頭刨床、鉆床和銑削</p><p>
56、 刨床是刀具特有者利用單點(diǎn)刀具將其安裝在滑頭的末梢。一般在做切削時(shí)都會(huì)向前沖程.刀具被擺動(dòng)刀架稍微舉起,以避免(刀具)劃過(guò)工件時(shí)產(chǎn)生嚴(yán)重的拖刮。它通過(guò)刀具在返回沖程期間運(yùn)轉(zhuǎn)并為下次的切割做準(zhǔn)備。立柱被裝有刨床的操作機(jī)械系統(tǒng)以及作為一個(gè)固定的單元為輔助點(diǎn)提供服務(wù),工作臺(tái)移動(dòng)的兩個(gè)方向是與滑塊相互垂直的。刀具的滑行是用來(lái)控制切削的深度以及手動(dòng)式地運(yùn)轉(zhuǎn)。它能在它的正常垂直方向的每一邊上旋轉(zhuǎn)90度。它允許在工作臺(tái)表面的某個(gè)角落來(lái)運(yùn)動(dòng)刀具。<
57、;/p><p> 刨床的兩種驅(qū)動(dòng)系統(tǒng)是一個(gè)改善的whitworth快速返回機(jī)械系統(tǒng)和一個(gè)液壓驅(qū)動(dòng)器。對(duì)于whitworth機(jī)械系統(tǒng)來(lái)講,是發(fā)動(dòng)機(jī)驅(qū)動(dòng)大型的齒輪,它能通過(guò)控制可調(diào)整的曲柄驅(qū)動(dòng)曲柄轉(zhuǎn)臂來(lái)控制沖程的長(zhǎng)度。對(duì)于大型的齒輪轉(zhuǎn)動(dòng)。搖動(dòng)式的曲柄轉(zhuǎn)臂被迫沿直線往復(fù)移動(dòng)。增強(qiáng)了刨床滑枕的動(dòng)向。</p><p> 液壓刨床發(fā)動(dòng)機(jī)只用來(lái)驅(qū)動(dòng)液壓泵。刨床動(dòng)向的提醒物被水硬油的流量方向所控制。機(jī)械驅(qū)
58、動(dòng)刨床的切削行程用了大齒輪轉(zhuǎn)動(dòng)的220度,返回行程用了140度,這就使切削行程與返回行程之速比為1.6:1速度圖顯示了切削行程的大部分切削速度是連續(xù)不斷的。液壓刨床是無(wú)窮變化的切削速度限制的缺乏,它可以允許在行程長(zhǎng)度中有一些少量的變化。</p><p> 可能產(chǎn)生與薄形鋼板樣板外型復(fù)制品的完全相同的裝置是可利用的。薄型鋼板的樣板用來(lái)連接液壓控制器。</p><p> 直式鉆床或鉆孔式印
59、刷機(jī)可用于各種尺寸和種類(lèi),它能安裝軸速度的足夠范圍和自動(dòng)運(yùn)轉(zhuǎn)以適應(yīng)大多工業(yè)的要求。一個(gè)典型機(jī)器的速度范圍是70至2025rmp,以及鉆孔的運(yùn)轉(zhuǎn)速度是0.002到0.020英尺。</p><p> 旋轉(zhuǎn)鉆床用來(lái)鉆那些太大或太笨重的而不能夠移動(dòng)的工件。通過(guò)將轉(zhuǎn)臂繞立柱的轉(zhuǎn)動(dòng)和主軸組件沿轉(zhuǎn)臂的移動(dòng)組合,可使主軸鉆頭對(duì)準(zhǔn)機(jī)床可達(dá)范圍內(nèi)的任何位置,由于運(yùn)轉(zhuǎn)太大而不方便建立在此基礎(chǔ)上,主軸能夠在垂直的地上方搖擺以及工件能固
60、定在機(jī)器旁邊的地上。</p><p> 普通的旋臂鉆床只提供軸的垂直運(yùn)動(dòng)和徑向轉(zhuǎn)臂,通過(guò)平行軸來(lái)運(yùn)轉(zhuǎn)。因此允許鉆頭處于任何一個(gè)角度。</p><p> 一個(gè)多軸通過(guò)萬(wàn)能連接和可伸縮的花鍵軸來(lái)驅(qū)動(dòng)的鉆床有一個(gè)或多個(gè)頭。通常所有的軸都是通過(guò)相同的發(fā)動(dòng)機(jī)來(lái)驅(qū)動(dòng)和同時(shí)運(yùn)轉(zhuǎn),目的是鉆出理想中洞的數(shù)量。很多鉆床的每個(gè)軸容納在一個(gè)可調(diào)整的盤(pán)里,以便與其他相關(guān)的部件移動(dòng)。相鄰的軸重疊部分的覆蓋區(qū)域目的
61、促使機(jī)器能夠在它的范圍的任何地方開(kāi)始鉆孔。</p><p> 銑床操作與轉(zhuǎn)動(dòng)的切削金屬和移動(dòng)相關(guān)。它包括了一個(gè)工件的表面金屬移動(dòng),洞的擴(kuò)大和成型切削,比如線和齒輪。</p><p> 銑銷(xiāo)機(jī)床的升降臺(tái)式柱是其他部件的主要支持部分。包括了容量驅(qū)動(dòng)機(jī)的基礎(chǔ),心軸切割工具。切割工具固定在容納在主軸的刀桿上能過(guò)一個(gè)懸臂的軸承支撐在它的外部的末端。升降臺(tái)通過(guò)燕尾槽滑動(dòng)支撐立柱和立柱機(jī)器,提供一—
62、—三種與切割工具相關(guān)的意向。另一種意向可能是工作臺(tái)由提供的滑板圍繞著軸旋轉(zhuǎn)而得到的。</p><p> 固定的銑銷(xiāo)機(jī)床的設(shè)計(jì)目的是比升降臺(tái)或立柱提供更大的剛度。工作臺(tái)直接固定在機(jī)窗的根部,它能為強(qiáng)大切割負(fù)荷提供強(qiáng)度的需要。而且允許對(duì)工作臺(tái)徑度的方向。垂直運(yùn)動(dòng)是通過(guò)移動(dòng)整個(gè)切割工具才能達(dá)到。</p><p> 仿型銑床的特點(diǎn)是刀具和跟蹤元件的軌道運(yùn)動(dòng)的協(xié)調(diào)或同步,或者是工件或模型的軌跡運(yùn)
63、動(dòng)的協(xié)調(diào)或同步典型的仿型銑床的仿型號(hào)像是遵照模型的形式,而且切割機(jī)頭部分與仿行部分相同。</p><p> 下面是銑削的總體的設(shè)計(jì)目錄:</p><p> 如果可能的話,零件將被設(shè)計(jì)以便在一個(gè)工位上最大的平面能被銑削。</p><p> 對(duì)選擇性的切割工具的設(shè)計(jì)目的是同時(shí)銑削幾個(gè)平面。</p><p> 應(yīng)當(dāng)首先銑最大的平面,這樣所有
64、的尺寸都能很好的參照這個(gè)表面。</p><p> 因?yàn)榍懈罟ぞ叩霓D(zhuǎn)動(dòng),仿形里的各個(gè)角落是不可能的。</p><p> 刺耳的機(jī)器和特殊的金屬移動(dòng)程序</p><p> 隨機(jī)點(diǎn)切削刀具包括構(gòu)成輪子形狀的,或粘結(jié)到帶子或棍子上或直接懸浮在液體中的研磨材料。因?yàn)閹讉€(gè)原因研磨進(jìn)程在工件的生產(chǎn)中很重要。</p><p> 對(duì)切削硬化的刀具鋼材料
65、或其他的熱處理鋼材來(lái)講它是最普通的方法。零件在沒(méi)有熱處理?xiàng)l件下第一次機(jī)器切割,然后得到理想的尺度和表面光潔度。</p><p> 它能在沒(méi)有極限范疇時(shí)提供表面光潔度達(dá)0.5微米。</p><p> 研磨操作在相對(duì)較短的時(shí)間內(nèi)能確保精確的尺度,因?yàn)闄C(jī)器在作為其它機(jī)器的一般精度構(gòu)造時(shí)提供的動(dòng)態(tài)是每英尺增加了百分之一的精度,而不是千分之一。</p><p> 尤其是
66、小而細(xì)的零件能用這個(gè)方法完成,由于輕壓力被使用和零件的柔韌性所折射出的切削值是最小的。</p><p> 研磨輪子在圓柱形的研磨機(jī)器上在5500和6500rmp之間轉(zhuǎn)動(dòng),當(dāng)工件在60和125rmp之間轉(zhuǎn)動(dòng)時(shí),切削的深度運(yùn)動(dòng)由木頭控制,它包括了輪子和它的驅(qū)動(dòng)發(fā)動(dòng)機(jī)。冷卻液用來(lái)降低熱扭曲和移動(dòng)切削以及研磨材料時(shí)的灰塵。</p><p> 有韌性的材料的運(yùn)動(dòng)通過(guò)那些材質(zhì)硬的刀具來(lái)完成,但是在
67、二戰(zhàn)期間材料的廣泛傳播使用,它比新材料運(yùn)動(dòng)方法的切削刀具的要求更高。因?yàn)榇罅康倪^(guò)程被改進(jìn),盡管相當(dāng)慢且花費(fèi)高,它能用精確接受的方式來(lái)移動(dòng)過(guò)量的材料,這里有兩種進(jìn)程模式:第一種類(lèi)型是建立在電子現(xiàn)象的基礎(chǔ)上,它用于基本的原材料;第二種取決于化學(xué)溶解。</p><p> 化學(xué)物質(zhì)的銑削用于控制那些用了很濃的堿性或酸性的腐蝕劑腐蝕進(jìn)程。鋁、鈦、鎂和鋼是通過(guò)這種方式的主要原料進(jìn)程?;瘜W(xué)銑削開(kāi)始于一個(gè)零件的傳統(tǒng)的光潔,包括
68、脫脂、脫酸和烘干,這個(gè)領(lǐng)域用以維持不與那些籠罩在制服外面的腐蝕劑接觸??梢詫⒄麄€(gè)零件侵入遮蓋材料,然后將遮蓋層從將要被侵蝕的區(qū)域去除;也可以使用抗化學(xué)侵蝕的粘接帶遮蓋要保護(hù)的區(qū)域,遮蓋之后要侵蝕一般指定的時(shí)間,然后要將零件在冷水中清洗,將遮蓋層去除,檢查零件,并徹底全面的清洗。</p><p> 還應(yīng)該考慮到的缺點(diǎn):第一缺點(diǎn)是金屬在各個(gè)方面都是平等的侵蝕,以至于侵蝕的外部半徑和侵蝕的深度相等;第二個(gè)缺點(diǎn)是在平行
69、于鋼板的方向上所得光潔度要比垂直于木紋的方向上工作所得的表面相比較;第三個(gè)缺點(diǎn)不是過(guò)程的唯一,而是發(fā)生在細(xì)的只腐蝕一邊的壓力段上的翹曲。</p><p> 而化學(xué)銑削在傳統(tǒng)的金屬移動(dòng)方發(fā)中有很多的優(yōu)點(diǎn)。這在很多部件沒(méi)有翹曲例如當(dāng)腐蝕被用來(lái)降低縱切面厚度的各個(gè)面上時(shí)的鍛造和擠壓,傳統(tǒng)的銑削里一次只用一面來(lái)運(yùn)轉(zhuǎn),而且零件的頻繁轉(zhuǎn)變是阻止翹曲所必要的。化學(xué)銑削能用于不規(guī)則的部件,而那是傳統(tǒng)銑削很難做到的。輕易的建筑物
70、可通過(guò)焊接的清除,鉚接和加強(qiáng)筋與銑削而獲得零件可以被定形通過(guò)以適當(dāng)?shù)姆绞椒峙湄?fù)荷和潛在的節(jié)省過(guò)程的例子一樣,與機(jī)器切割銑床相比。一個(gè)文件報(bào)道了有關(guān)化學(xué)銑削移動(dòng)鋁的成本,是0.27美元每英鎊,而傳統(tǒng)銑削則是1.00美元每英鎊。所以銑削鋁金屬移動(dòng)的比率是0.001英尺每分鐘。</p><p> 電子排放機(jī)器是一個(gè)電壓作用于工件和刀具之間的過(guò)程,電流從金屬工件的源頭流出,以火花的形式流向刀具。完成金屬移動(dòng)的力量是金屬
71、工件本身。結(jié)果,對(duì)一般的傳統(tǒng)機(jī)械手段而言,沒(méi)有必要建設(shè)一個(gè)單元來(lái)抵制重壓和重負(fù)荷。由于排放器的范圍大約從2000cps至5000cps用來(lái)精加工如此硬的刀具和模具。電流在粗加工期間是不斷變化的。從50amp低到精加工期間的0.5amp,這個(gè)過(guò)程應(yīng)用了機(jī)械的單點(diǎn)刀具,成形刀具,銑削切割刀具,拉刀以及模具渦凹。它也能移動(dòng)壞了的鉆頭,而絲錐和螺栓不損壞嵌入的工件。其他的使用方法是一個(gè)硬部件的油洞,小安全電線洞的機(jī)械是由大量特殊合金制造的,如鈦
72、。</p><p> 超聲機(jī)械程序用于導(dǎo)體和半導(dǎo)體,而且完全依靠于金屬移動(dòng)的研磨行為,工件淹沒(méi)在液下分?jǐn)?shù)的研磨微粒如水。刀具連接著震蕩器以及在15000至3000cps之間頻繁的震動(dòng),震動(dòng)的刀具抽空液體,沖力研磨材料進(jìn)入工件的表面用來(lái)移動(dòng)金屬切削。它們能隨著液體流動(dòng)。研磨的紋密加速度是重力的100000倍,以提供一個(gè)光滑而快速的切削沖力。</p><p><b> 關(guān)于機(jī)械加
73、工</b></p><p> 作為一種成形方式的機(jī)械加工是廣泛使用的也是所有機(jī)械制造進(jìn)程中的最重要的部分。機(jī)械加工是通過(guò)切削形式使驅(qū)動(dòng)裝置引起材料運(yùn)動(dòng)產(chǎn)生形狀的過(guò)程。盡管在某些場(chǎng)合,工作支持情況下,使用移動(dòng)式裝備實(shí)現(xiàn)加工,但是大多數(shù)的機(jī)械加工還是通過(guò)既支撐工件有支撐刀具的裝備來(lái)完成。</p><p> 小批量生產(chǎn)低費(fèi)用,機(jī)械加工在制造方面有兩種用途:對(duì)澆筑,鍛造,壓力加工,
74、即將生產(chǎn)的每個(gè)具體形狀,甚至一個(gè)零件而言,幾乎是一個(gè)高標(biāo)準(zhǔn)的刀具鑄型。這些通過(guò)焊接可能產(chǎn)生的形狀在很大程度上取決可利用的原材料的形狀。一般說(shuō)來(lái),通過(guò)利用高價(jià)設(shè)備而又無(wú)需特種加工條件下,幾乎可以從任何種類(lèi)原材料開(kāi)始,借助機(jī)械加工把原材料加工成任意要求的結(jié)構(gòu)形狀,只要外部尺寸夠大,那都是可能的。因此,機(jī)械加工是常用來(lái)生產(chǎn)少量零件,甚至在大量生產(chǎn)以及當(dāng)零件的設(shè)計(jì)在邏輯上導(dǎo)致澆鑄、鍛造,壓力加工的時(shí)候所推薦的方法。</p><
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