冲压模具技术外文翻译(含外文文献)

1、华中科技大学武H分或学生毕*没泞开虺报告刖百在目前激烈的市场竞争中，产品投入市场的迟早往往是成败的关键。模具是 高质量、高效率的产品生产工具，模具开发周期占整个产品开发周期的主要部分。 因此客户对模具开发周期要求越来越短，不少客户把模具的交货期放在第一位置, 然后才是质量和价格。因此，如何在保证质量、控制成本的前提下加工模具是值 得认真考虑的问题。模具加工工艺是一项先进的制造工艺，已成为重要发展方向， 在航空航天、汽车、机械等各行业得到越来越广泛的应用。模具加工技术，可以 提高制造业的综合效益和竞争力。研究和建立模具工艺数据库，为生产企业提供 迫切需要的高速切削加工数据，对推广高速切削加工技术

2、具有非常重要的意义。 本文的主要目标就是构建一个冲压模具工艺过程，将模具制造企业在实际生产中 结合刀具、工件、机床与企业自身的实际情况积累得高速切削加工实例、工艺参 数和经验等数据有选择地存储到高速切削数据库中，不但可以节省大量的人力、 物力、财力，而且可以指导高速加工生产实践，达到提高加工效率，降低刀具费 用，获得更高的经济效益。1 .冲压的概念、特点及应用冲压是利用安装在冲压设备（主要是压力机）上的模具对材料施加压力， 使其产生分离或塑性变形，从而获得所需零件（俗称冲压或冲压件）的一种压力 加工方法。冲压通常是在常温下对材料进行冷变形加工，且主要采用板料来加工 成所需零件，所以也叫冷冲压或

3、板料冲压。冲压是材料压力加工或塑性加工的主 要方法之一，隶属于材料成型工程术。冲压所使用的模具称为冲压模具，简称冲模。冲模是将材料（金属或非金 属）批量加工成所需冲件的专用工具。冲模在冲压中至关重要，没有符合要求的 冲模,批量冲压生产就难以进行;没有先进的冲模，先进的冲压工艺就无法实现。 冲压工艺与模具、冲压设备和冲压材料构成冲压加工的三要素，只有它们相互结 合才能得出冲压件。与机械加工及塑性加工的其它方法相比，冲压加工无论在技术方面还是经济 方面都具有许多独特的优点，主要表现如下；（1）冲压加工的生产效率高，且操作方便，易于实现机械化与自动化。这是 因为冲压是依靠冲模和冲压设备来完成加工，普

4、通压力机的行程次数为每分钟可 达几十次，高速压力要每分钟可达数百次甚至千次以上，而且每次冲压行程就可 能得到一个冲件。(2)冲压时由于模具保证了冲压件的尺寸与形状精度，且一般不破坏冲压 件的表面质量,而模具的寿命一般较长,所以冲压的质量稳定,互换性好,具有“一 模一样”的特征。(3)冲压可加工出尺寸范围较大、形状较复杂的零件，如小到钟表的秒表， 大到汽车纵梁、覆盖件等，加上冲压时材料的冷变形硬化效应，冲压的强度和刚 度均较高。(4)冲压一般没有切屑碎料生成，材料的消耗较少，且不需其它加热设备， 因而是一种省料，节能的加工方法，冲压件的成本较低。但是，冲压加工所使用的模具一般具有专用性，有时一个

5、复杂零件需要数套 模具才能加工成形，且模具制造的精度高，技术要求高，是技术密集形产品。所 以，只有在冲压件生产批量较大的情况下，冲压加工的优点才能充分体现，从而 获得较好的经济效益。冲压加工在现代工业生产中，尤其是大批量生产中应用十分广泛。相当多的 工业部门越来越多地采用冲压法加工产品零部件，如汽车、农机、仪器、仪表、 电子、航空、航天、家电及轻工等行业。在这些工业部门中，冲压件所占的比重 都相当的大，少则60%以上，多则90%以上。不少过去用锻造二铸造和切削加工方 法制造的零件，现在大多数也被质量轻、刚度好的冲压件所代替。因此可以说， 如果生产中不能采用冲压工艺，许多工业部门要提高生产效率和

6、产品质量、降低 生产成本、快速进行产品更新换代等都是难以实现的。2.冲压的基本工序及模具由于冲压加工的零件种类繁多，各类零件的形状、尺寸和精度要求乂各不相 同，因而生产中采用的冲压工艺方法也是多种多样的。概括起来，可分为分离工 序和成形工序两大类；分离工序是指使坯料沿一定的轮廓线分离而获得一定形状、 尺寸和断面质量的冲压(俗称冲裁件)的工序；成形工序是指使坯料在不破裂的 条件下产生塑性变形而获得一定形状和尺寸的冲压件的工序。13华中科技大学武M分我学生毕没泞报i上述两类工序，按基本变形方式不同乂可分为冲裁、弯曲、拉深和成形四种 基本工序，每种基本工序还包含有多种单一工序。在实际生产中，当冲压件

7、的生产批量较大、尺寸较少而公差要求较小时，若 用分散的单一工序来冲压是不经济甚至难于达到要求。这时在工艺上多采用集中 的方案，即把两种或两种以上的单一工序集中在一副模具内完成，称为组合的方 法不同，乂可将其分为复合一级进和复合一级进三种组合方式。复合冲压一一在压力机的一次工作行程中，在模具的同一工位上同时完成两 种或两种以上不同单一工序的一种组合方法式。级进冲压一一在压力机上的一次工作行程中，按照一定的顺序在同一模具的 不同工位上完面两种或两种以上不同单一工序的一种组合方式。复合一级进一一在一副冲模上包含复合和级进两种方式的组合工序。冲模的结构类型也很多。通常按工序性质可分为冲裁模、弯曲模、拉

8、深模和 成形模等；按工序的组合方式可分为单工序模、复合模和级进模等。但不论何种 类型的冲模，都可看成是由上模和下模两部分组成，上模被固定在压力机工作台 或垫板上，是冲模的固定部分。工作时.，坯料在下模面上通过定位零件定位，压 力机滑块带动上模下压，在模具工作零件(即凸模、凹模)的作用下坯料便产生 分离或塑性变形，从而获得所需形状与尺寸的冲件。上模回升时，模具的卸料与 出件装置将冲件或废料从凸、凹模上卸下或推、顶出来，以便进行下一次冲压循 环。3,冲压技术的现状及发展方向随着科学技术的不断进步和工业生产的迅速发展，许多新技术、新工艺、新 设备、新材料不断涌现，因而促进了冲压技术的不断革新和发展。

9、其主要表现和 发展方向如下：(1)冲压成形理论及冲压工艺方面冲压成形理论的研究是提高冲压技术的基 础。目前，国内外对冲压成形理论的研究非常重视，在材料冲压性能研究、冲压 成形过程应力应变分析、板料变形规律研究及坯料与模具之间的相互作用研究等 方面均取得了较大的进展。特别是随着计算机技术的飞跃发展和塑性变形理论的 进一步完善，近年来国内外已开始应用塑性成形过程的计算机模拟技术，即利用 有限元(FEM)等有值分析方法模拟金属的塑性成形过程，根据分析结果，设计 人员可预测某一工艺方案成形的可行性及可能出现的质量问题，并通过在计算机 上选择修改相关参数，可实现工艺及模具的优化设计。这样既节省了昂贵的试

10、模 费用，也缩短了制模具周期。研究推广能提高生产率及产品质量、降低成本和扩大冲压工艺应用范围的 各种压新工艺，也是冲压技术的发展方向之一。目前国内外相继涌现出精密冲 压工艺、软模成形工艺、高能高速成形工艺及无模多点成形工艺等精密、高效、 经济的冲压新工艺。其中，精密冲裁是提高冲裁件质量的有效方法，它扩大了冲 压加工范围，目前精密冲裁加工零件的厚度可达25mll1,精度可达IT1617级； 用液体、橡胶、聚氨酯等作柔性凸模或凹模的软模成形工艺，能加工出用普通加 工方法难以加工的材料和复杂形状的零件，在特定生产条件下具有明显的经济效 果；采用爆炸等高能效成形方法对于加工各种尺寸在、形状复杂、批量小

11、、强度 高和精度要求较高的板料零件，具有很重要的实用意义；利用金属材料的超塑性 进行超塑成形，可以用一次成形代替多道普通的冲压成形工序，这对于加工形状 复杂和大型板料零件具有突出的优越性；无模多点成形工序是用高度可调的凸模 群体代替传统模具进行板料曲面成形的一种先进技术，我国已自主设计制造了具 有国际领先水平的无模多点成形设备，解决了多点压机成形法，从而可随意改变 变形路径与受力状态，提高了材料的成形极限，同时利用反复成形技术可消除材 料内残余应力，实现无回弹成形。无模多点成形系统以CAD/CAM/CAE技术为主要 手段，能快速经济地实现三维曲面的自动化成形。(2)冲模是实现冲压生产的基本条件

12、.在冲模的设计制造上，目前正朝着以下 两方面发展:一方面，为了适应高速、自动、精密、安全等大批量现代生产的需要， 冲模正向高效率、高精度、高寿命及多工位、多功能方向发展，与此相比适应的 新型模具材料及其热处理技术，各种高效、精密、数控自动化的模具加工机床和 检测设备以及模具CAD/CAM技术也在迅速发展；另一方面，为了适应产品更新换 代和试制或小批量生产的需要，锌基合金冲模、聚氨酯橡胶冲模、薄板冲模、钢 带冲模、组合冲模等各种简易冲模及其制造技术也得到了迅速发展。精密、高效的多工位及多功能级进模和大型复杂的汽车覆盖件冲模代表了现 代冲模的技术水平。目前, 50个工位以上的级进模进距精度可达到2

13、微米，多 13华中科技大学武H分或学生毕*没泞开虺报告功能级进模不仅可以完成冲压全过程，还可完成焊接、装配等工序。我国已能自 行设计制造出达到国际水平的精度达25微米，进距精度23微米，总寿命达1 亿次。我国主要汽车模具企业，已能生产成套轿车覆盖件模具，在设计制造方法、 手段方面已基本达到了国际水平，但在制造方法手段方面已基本达到了国际水平, 模具结构、功能方面也接近国际水平，但在制造质量、精度、制造周期和成本方 面与国外相比还存在一定差距。4.冲压标准化及专业化生产方面模具的标准化及专业化生产，已得到模具行业和广泛重视。因为冲模属单件 小批量生产，冲模零件既具的一定的复杂性和精密性，乂具有一

14、定的结构典型性。 因此，只有实现了冲模的标准化，才能使冲模和冲模零件的生产实现专业化、商 品化，从而降低模具的成本，提高模具的质量和缩短制造周期。目前，国外先进 工业国家模具标准化生产程度已达70%80%,模具厂只需设计制造工作零件，大 部分模具零件均从标准件厂购买，使生产率大幅度提高。模具制造厂专业化程度 越不定期越高，分工越来越细，如目前有模架厂、顶杆厂、热处理厂等，甚至某 些模具厂仅专业化制造某类产品的冲裁模或弯曲模，这样更有利于制造水平的提 高和制造周期的缩短。我国冲模标准化与专业化生产近年来也有较大发展，除反 映在标准件专业化生产厂家有较多增加外,标准件品种也有扩展，精度亦有提高。

15、但总体情况还满足不了模具工业发展的要求，主要体现在标准化程度还不高（一 般在40%以下），标准件的品种和规格较少，大多数标准件厂家未形成规模化生 产，标准件质量也还存在较多问题。另外，标准件生产的销售、供货、服务等都 还有待于进一步提高。IntroductionIn the current fierce market competition, the product to market sooner or later is often the key to the success or failure. Mould is a product of high quality, high effi

16、ciency production tool, mold development cycle of the main part of the product development cycle. So the customer requirements for mold development cycle shorter, many customers put the mould delivery date in the first place, and then the quality and price. Therefore, how to ensure the quality, cont

17、rol the cost under the premise of processing mould is a problem worthy of serious consideration. Mold processing technology is an advanced manufacturing technology, has become an important development direction, in the aerospace, automotive, machinery and other industries widely used. Mold processin

18、g technology, can improve the comprehensive benefit and competitiveness of manufacturing industry. Research and establish mold process database, provide production enterprises urgently need to high speed cutting processing data, to the promotion of high-speed machining technology has very important

19、significance. This article's main goal is to build a stamping die processing, mold manufacturing enterprises in the actual production combined cutting tool, workpiece and machine tool with the actual situation of enterprise itself accumulate to high speed cutting processing instance, process par

20、ameters and experience of high speed cutting database selectively to store data, not only can save a lot of manpower and material resources, financial resources, but also can guide the high speed machining production practice, to improve processing efficiency, reduce the tooling cost and obtain high

21、er economic benefits.LStamping the concept, characteristics and applicationsStamping is using stamping equipment installed in the (mainly) on the mold to pressure on the material, make its produce a separation or plastic deformation, to obtain the required parts (commonly known as stamping or stampi

22、ng parts) of a pressure processing method. Stamping is usually at room temperature to cold deformation processing of materials, and mainly adopts sheet metal to processed into the required parts, so also called cold stamping or sheet metal stamping. Stamping is material pressure processing or one of

23、 the main methods of plastic processing, belonging to material molding engineering technique.Used by stamping mold known as the stamping die, die for short. Die is the material (metal or non-metallic) processing into salt pieces of special tools required. Is of vital importance to the die in stampin

24、g, did not conform to the requirements of punching die, stamping production batch is difficult; No advanced punching die, stamping process of advanced cannot achieve. Stamping process and die, stamping equipment and materials to form the three elements of stamping processing, can only draw stamping

25、them together.Compared with other methods of mechanical processing and plastic processing, stamping processing both in technology and economy has many unique advantages. Main show is as follows:(1) the stamping process of high production efficiency, and easy to operate, easy to realize mechanization

26、 and automation. This is because the stamping is depend on the die and stamping equipment to complete the processing, ordinary press stroke times per minute can reach dozens of times, high pressure to can reach more than hundreds of times or even one thousand times per minute, and every time stampin

27、g stroke can get one piece.(2) when the mold to ensure the stamping precision stamping parts of the size and shape, and generally does not destroy the surface of the stamping parts quality, and the life of the mould are long, so the stamping quality is stable, good compatibility, has the characteris

28、tics of Hthe same”.(3) stamping machining size range is larger, more complex shape parts, such as small to watch the stopwatch, big to auto longeron, covering parts, etc., and stamping material hardening effect of cold deformation, the strength and stiffness of stamping was high.13华中科技大学武H分或学生毕*没泞开虺

29、报告(4) stamping generally no chip broken material, material consumption is less, and do not need other heating equipment, it is a kind of material, machining method of energy saving, stamping parts of the cost is low.However, stamping process used by mould generally has specificity, sometimes need se

30、veral sets of mould to a complex parts processing and forming, and mold manufacturing of high precision, high technical requirements, is the technology intensive product. Therefore, only under the condition of the stamping production batch is bigger, can fully embody the advantages of stamping proce

31、ssing, in order to gain good economic benefits.Stamping processing in the modern industrial production, especially they are widely used in the mass production. Quite a number of industrial sector increasingly by stamping parts processing products, such as automobile, agricultural machinery, instrume

32、nts, meters, electronic, aviation, aerospace, electrical appliances, light industry, etc. In the industrial sector, the ratio of stamping parts are quite big, less is more than 60%, more than 90% above. A lot in the past with forging = manufacturing parts, casting and machining method now most also

33、replaced by light weight, good stiffness of stamping. Therefore, if you don't dare use stamping process in production, many industrial department to improve production efficiency and product quality, reduce production cost and rapid product update is difficult to achieve.2.The basic process of s

34、tamping and moldBecause there are many different kinds of stamping parts processing, all kinds of spaie parts of shape, size, and the requirement of accuracy but also each are not identical, and therefore used in the production of stamping process methods are varied. In summary, can be divided into

35、two categories, separation process and forming process; The outline of electrodes in the separation process is directed along a certain line of separation and get a certain shape, size and cross section quality of stamping process (commonly known as blanking pieces); Electrodes in the forming proces

36、s is directed under the condition of not burst produce plastic deformation and to obtain a certain shape and size of the stamping process.The above two kinds of process, according to the basic deformation in different ways and can be divided into cutting, bending, deep drawing and forming four basic

37、 processes, each of the basic process also contains a variety of single process.In actual production, when the stamping production batch with fewer larger, size and tolerance requirement is small, if use dispersed to stamping is not the economy or even a single process is difficult to meet the requi

38、rements. Then use concentrated more on craft scheme, where two or more single process focused on the finish, a pair of mold is called combination method is different, and it can be divided into compound - level into and composite - level into three combinations.Compound stamping - in a press work tr

39、ip, in the mold of the same station at the same time to complete two or more than two different single process of a kind of combination method.Progressive stamping - in a pressure on a working trip, in a certain order in the same mould of different location on the surface of two or more than two dif

40、ferent single process of a kind of combination.Compound - progressive - on a pair of die with composite and the level into the combination of the two ways of working procedure.The type of punching die structure is very much also. Usually according to the nature of the process can be divided into the

41、 blanking die, bending die, drawing die and forming mould, etc.; According to the process of combination can be divided into progressive die die, compound die and the single process, etc. But no matter what type of punching die, can be regarded as the upper die and lower die of two parts, the upper

42、die was fixed in press a table or on the plate, is a fixed part of the die. Work, billet next mold surface parts with location positioning, press on the slider to drive mould press, in the mold working parts (punch and die) under the action of billet and produce a separation or plastic deformation,

43、so as to obtain the required shape and size of the stamping. Recovery of upper die, mold unloading and a device to salt pieces or waste discharged from the convex and concave die, or push, top out, stamping for the next cycle.3.Stamping technology present situation and developing directionAlong with

44、 the advance of science and technology and the rapid development of industrial production, many new technologies, new processes, new equipment, new materials constantly emerging, and thus to promote the continuous innovation and development of stamping technology. The main performance and the develo

45、pment direction is as follows:(1) . Stamping theory and stamping process in stamping theory research is to improve the stamping technology. At present, the research on theory of stamping very seriously, in material performance research, stamping law of stress and strain analysis, the deformation of

46、sheet metal forming process research and the interaction between billet and mold and so on have made greater progress. Especially with the rapid development of computer technology and the theory of plastic deformation of further perfect, has been used at home and abroad in recent years, the plastic

47、forming process of computer simulation technology, the use of finite element method (FEM) and value analysis method to simulate the metal plastic forming process, according to the analysis results, designers can predict the feasibility of a forming process and the possible quality problems, and thro

48、ugh the revision related parameters on the computer, which can realize the optimization of technology and die design. This saves expensive test, also shortened the mould cycle.Research promotion can increase productivity and product quality, reduce costs and expand the scope of application of all ki

49、nds of new technology, stamping process is also one of the development direction of stamping technology. At present, both at home and abroad have sprung up precision stamping process, the soft mould forming process, high energy mould multi-point forming technology such as high speed forming process

50、and precision stamping process for a new, efficient and economic.Among them, the fine blanking is one of the effective methods to improve the quality of blanking pieces, it expanded the stamping processing range, at present the thickness of fine blanking processing parts can be up to 25 mm, precisio

51、n can reach IT 16 grade 17; Using liquid, rubber, polyurethane, etc as the soft mode of flexible punch or die forming technology, can work out with ordinaiy processing methods are difficult to machining materials and complex shape parts, under the condition of specific production has obvious economi

52、c effect; Explosion energy efficient, such as forming methods for processing complicated in all sizes, shapes, small bulk, high strength and high accuracy of sheet metal parts, has very important practical significance; Using super molding superplasticity of metal materials, can be used instead of a

53、 forming multichannel common stamping process, for processing complicated shape and large sheet metal parts has prominent advantages; No mold multi-point forming process is highly adjustable punch group instead of traditional moulds for sheet metal surface forming a kind of advanced technology, our

54、country has independent design and manufacture of the international leading level of multi-point forming equipment, to solve the multi-point press forming method, which can change the deformation path and stress state, improves the forming limit of material, at the same time use repeatedly forming t

55、echnology can eliminate the residual stress in the material, forming springback is realized. No mold multi-point forming (MPF) system with CAD/CAM/CAE technology as main means, rapid economy to realize the automation of 3 d surface shape.(2) die is the realization of the basic conditions of stamping

56、 production. In die design and manufacture, at present is developing towards the following two aspects: on the one hand, in order to adapt to high speed, automatic, precise, security, and so on large quantities of the need of modern production, punching die and life expectancy is high efficiency, hi

57、gh precision, high transfer, multi-function direction, by contrast to adapt to the new die material and heat treatment technology, all kinds of high efficiency, precision, CNC automatic mould machine and testing equipment and mould CAD/CAM technology is in rapid development; Upgrading, on the other

58、hand, in order to adapt to the product and the need of trial production and small batch production, zinc base alloy die, polyurethane rubber punching die, die plate and steel belt punch, such as the simple combination die die and manufacturing technology has been developing rapidly.Precision, high e

59、fficiency of multistep progressive die and the multi-function and large complex automotive covering parts die represents the modern technology of progressive die. At present, more than 50 location precision progressive die into the distance can be up to 2 microns, multifunctional and can not only complete the whole stamping process of progressive die, but also can complete the welding, assembly process, etc. In China has been able to design and produce precision h