冲压模具成型外文翻译参考文献
冲压模具成型外文翻译参考文献
(文档含中英文对照即英文原文和中文翻译)
4 Sheet metal forming and blanking
4.1 Principles of die manufacture
4.1.1 Classification of dies
In metalforming,the geometry of the workpiece is established entirely or partially by the geometry of the die.In contrast to machining processes,ignificantly greater forces are necessary in forming.Due to the complexity of the parts,forming is often not carried out in a single operation.Depending on the geometry of the part,production is carried out in several operational steps via one or several production processes such as forming or blanking.One operation can also include several processes simultaneously(cf.Sect.2.1.4).
During the design phase,the necessary manufacturing methods as well as the sequence and number of production steps are established in a processing plan(Fig.4.1.1).In this plan,the
availability of machines,the planned production volumes of the part and other boundary conditions are taken into account.
The aim is to minimize the number of dies to be used while keeping up a high level of operational reliability.The parts are greatly simplified right from their design stage by close collaboration between the Part Design and Production Departments in order to enable several forming and related blanking processes to be carried out in one forming station.
Obviously,the more operations which are integrated into a single die,the more complex the structure of the die becomes.The consequences are higher costs,a decrease in output and a lower reliability.
Fig.4.1.1 Production steps for the manufacture of an oil sump
Types of dies
The type of die and the closely related transportation of the part between dies is determined in accordance with the forming procedure,the size of the part in question and the production volume of parts to be produced.
The production of large sheet metal parts is carried out almost exclusively using single sets of dies.Typical parts can be found in automotive manufacture,the domestic appliance industry and radiator production.Suitable transfer systems,for example vacuum suction systems,allow the installation of double-action dies in a sufficiently large mounting area.In this way,for example,the right and left doors of a car can be formed jointly in one working stroke(cf.Fig.4.4.34).
Large size single dies are installed in large presses.The transportation of the parts from one
forming station to another is carried out mechanically.In a press line with single presses installed one behind the other,feeders or robots can be used(cf.Fig.4.4.20 to 4.4.22),whilst in large-panel transfer presses,systems equipped with gripper rails(cf.Fig.4.4.29)or crossbar suction systems(cf.Fig.4.4.34)are used to transfer the parts.
Transfer dies are used for the production of high volumes of smaller and medium size parts(Fig.4.1.2).They consist of several single dies,which are mounted on a common base plate.The sheet metal is fed through mostly in blank form and also transported individually from die to die.If this part transportation is automated,the press is called a transfer press.The largest transfer dies are used together with single dies in large-panel transfer presses(cf.Fig.4.4.32).
In progressive dies,also known as progressive blanking dies,sheet metal parts are blanked in several stages;generally speaking no actual forming operation takes place.The sheet metal is fed from a coil or in the form of metal https://www.360docs.net/doc/301087650.html,ing an appropriate arrangement of the blanks within the available width of the sheet metal,an optimal material usage is ensured(cf.Fig.4.5.2 to 4.5.5). The workpiece remains fixed to the strip skeleton up until the la
Fig.4.1.2 Transfer die set for the production of an automatic transmission for an automotive application
-st operation.The parts are transferred when the entire strip is shifted further in the work flow direction after the blanking operation.The length of the shift is equal to the center line spacing of the dies and it is also called the step width.Side shears,very precise feeding devices or pilot pins ensure feed-related part accuracy.In the final production operation,the finished part,i.e.the last part in the sequence,is disconnected from the skeleton.A field of application for progressive blanking tools is,for example,in the production of metal rotors or stator blanks for electric motors(cf.Fig.4.6.11 and 4.6.20).
In progressive compound dies smaller formed parts are produced in several sequential operations.In contrast to progressive dies,not only blanking but also forming operations are
performed.However, the workpiece also remains in the skeleton up to the last operation(Fig.4.1.3 and cf.Fig.4.7.2).Due to the height of the parts,the metal strip must be raised up,generally using lifting edges or similar lifting devices in order to allow the strip metal to be transported mechanically.Pressed metal parts which cannot be produced within a metal strip because of their geometrical dimensions are alternatively produced on transfer sets.
Fig.4.1.3 Reinforcing part of a car produced in a strip by a compound die set
Next to the dies already mentioned,a series of special dies are available for special individual applications.These dies are,as a rule,used separately.Special operations make it possible,however,for special dies to be integrated into an operational Sequence.Thus,for example,in flanging dies several metal parts can be joined together positively through the bending of certain metal sections(Fig.4.1.4and cf.Fig.2.1.34).During this operation reinforcing parts,glue or other components can be introduced.
Other special dies locate special connecting elements directly into the press.Sorting and positioning elements,for example,bring stamping nuts synchronised with the press cycles into the correct position so that the punch heads can join them with the sheet metal part(Fig.4.1.5).If there is sufficient space available,forming and blanking operations can be carried out on the same die.
Further examples include bending,collar-forming,stamping,fine blanking,wobble blanking and welding operations(cf.Fig.4.7.14 and4.7.15).
Fig.4.1.4 A hemming die
Fig.4.1.5 A pressed part with an integrated punched nut
4.1.2 Die development
Traditionally the business of die engineering has been influenced by the automotive industry.The following observations about the die development are mostly related to body panel die construction.Essential statements are,however,made in a fundamental context,so that they are applicable to all areas involved with the production of sheet-metal forming and blanking dies.
Timing cycle for a mass produced car body panel
Until the end of the 1980s some car models were still being produced for six to eight years more or less unchanged or in slightly modified form.Today,however,production time cycles are set for only five years or less(Fig.4.1.6).Following the new different model policy,the demands ondie makers have also changed https://www.360docs.net/doc/301087650.html,prehensive contracts of much greater scope such as Simultaneous Engineering(SE)contracts are becoming increasingly common.As a result,the die maker is often involved at the initial development phase of the metal part as well as in the planning phase for the production process.Therefore,a much
broader involvement is established well before the actual die development is initiated.
Fig.4.1.6 Time schedule for a mass produced car body panel
The timetable of an SE project
Within the context of the production process for car body panels,only a minimal amount of time is allocated to allow for the manufacture of the dies.With large scale dies there is a run-up period of about 10 months in which design and die try-out are included.In complex SE projects,which have to be completed in 1.5 to 2 years,parallel tasks must be carried out.Furthermore,additional resources must be provided before and after delivery of the dies.These short periods call for pre-cise planning,specific know-how,available capacity and the use of the latest technological and communications systems.The timetable shows the individual activities during the manufacturing of the dies for the production of the sheet metal parts(Fig.4.1.7).The time phases for large scale dies are more or less similar so that this timetable can be considered to be valid in general.
Data record and part drawing
The data record and the part drawing serve as the basis for all subsequent processing steps.They describe all the details of the parts to be produced. The information given in the
Fig.4.1.7 Timetable for an SE project
part drawing includes: part identification,part numbering,sheet metal thickness,sheet metal quality,tolerances of the finished part etc.(cf.Fig.4.7.17).
To avoid the production of physical models(master patterns),the CAD data should describe the geometry of the part completely by means of line,surface or volume models.As a general rule,high quality surface data with a completely filleted and closed surface geometry must be made available to all the participants in a project as early as possible.
Process plan and draw development
The process plan,which means the operational sequence to be followed in the production of the sheet metal component,is developed from the data record of the finished part(cf.Fig.4.1.1).Already at this point in time,various boundary conditions must be taken into account:the sheet metal material,the press to be used,transfer of the parts into the press,the transportation of scrap materials,the undercuts as well as the
sliding pin installations and their adjustment.
The draw development,i.e.the computer aided design and layout of the blank holder area of the part in the first forming stage–if need bealso the second stage–,requires a process planner with considerable experience(Fig.4.1.8).In order to recognize and avoid problems in areas which are difficult to draw,it is necessary to manufacture a physical analysis model of the draw development.With this model,the
forming conditions of the drawn part can be reviewed and final modifications introduced,which are eventually incorporated into the data record(Fig.4.1.9).
This process is being replaced to some extent by intelligent simulation methods,through which the potential defects of the formed component can be predicted and analysed interactively on the computer display.
Die design
After release of the process plan and draw development and the press,the design of the die can be started.As a rule,at this stage,the standards and manufacturing specifications required by the client must be considered.Thus,it is possible to obtain a unified die design and to consider the particular requests of the customer related to warehousing of standard,replacement and wear parts.Many dies need to be designed so that they can be installed in different types of presses.Dies are frequently installed both in a production press as well as in two different separate back-up presses.In this context,the layout of the die clamping elements,pressure pins and scrap disposal channels on different presses must be taken into account.Furthermore,it must be noted that drawing dies working in a single-action press may be installed in a double-action press(cf.Sect.3.1.3 and Fig.4.1.16).
Fig.4.1.8 CAD data record for a draw development
In the design and sizing of the die,it is particularly important to consider the freedom of movement of the gripper rail and the crossbar transfer elements(cf.Sect.4.1.6).These describe the relative movements between the components of the press transfer system and the die components during a complete press working stroke.The lifting movement of the press slide,the opening and closing movements of the gripper rails and the lengthwise movement of the whole transfer are all superimposed.The dies are designed so that collisions are avoided and a minimum clearance of about 20 mm is set between all the moving parts.
4 金属板料的成形及冲裁
4. 模具制造原理
4.1.1模具的分类
在金属成形的过程中,工件的几何形状完全或部分建立在模具几何形状的基础上的。与机械加工相比,在成形时明显更大的压力是必要的。由于零件的复杂性,往往不是只进行一次操作就能成形的。根据零件的几何形状,通过由一个或几个生产过程例如成形或冲裁的几个操作步骤进行生产。一个操作也可以同时完成几个过程。
在设计阶段,合理的生产步骤、生产次序以及生产工序数都由生产计划来决定(如图4.1.1)。在这个计划中,应该对机器的可利用性、零件的计划生产量和其他限制条件予以考虑。
其目的是在保证高水平的操作可靠性的同时最大限度地减少需要使用的模具数量。通过部件设计部和生产部之间的紧密合作促使几个成形和有关的冲裁过程能在一个成形操作中完成,如此一来,仅仅在设计阶段就可以大大地简化部件。
显然,越是更多的操作集成到一个单独的模具上,模具结构就必然更为复杂。其后果是成本较高、产量下降和可靠性较低。
图4.1.1 油底壳的生产步骤
模具类型
模具的类型和模具之间零部件的密切相关运输是根据成形步骤、预算的部件的尺寸、要生产的部件的生产量来确定的。
大型钣金零件的生产几乎完全采用单套模具来实现的。典型零件可在汽车制造、国内家电业以及散热器的生产中找到。适当的转移系统,例如真空抽吸系统,可以使双动模安装在一个足够大的安装面上。例如,用这种方式可以使汽车左右车门在一个工作行程中一起成形。(参考图4.4.34)。
尺寸大的单套模具需安装在大型压力机上。部件从一个成形点到另一个成形点的运输是机械化地执行的。工人或机器人可以使用与单工序压力机一前一后安装的冲压线(对比图4.4.20与 4.4.22),同时,在大型多工位压力机上,系统还配备了夹钳轨(如图4.4.29)或交叉抽吸系统(如图4.4.34)来运输部件。
多工位转换模是用于小型和中型零件的大批量生产(如图4.1.2)。它们由几个安装在同一个基准平面上的单工序模具组成。金属板料的送进主要以机械手运送的方式,也可以人工地从一个模具运到另一个模具。如果这部分的运输自动化,那么此时的压力就称为转换压力。在大板料转换冲压线上,最大的多工位转换模要与单工序模具配合使用(参考图4.4.32)。
级进模,也称为渐进冲裁模,钣金件是分阶段冲裁的;一般来说,没有实实在在的成形操作。钣金是以金属圈或金属条的形式送进的。通过使用尺寸适宜的金属板料和优化的材料利用率可以达到对板料的合理利用(对比图Fig.4.5.2与图4.5.5)。工件一直固定在载体上,直到最后一次操作。冲裁完成后,整个条料按照工序流动方向移动时,该部件随着转移。移动的长度等于模具间中心线的距离,它也被称为步距。切边,通过使用非常精确的进给装置或试点引脚确保相关进给零件精度。在最后一个工位,即最后一道工序,已成形的部分于载体断开。例如电动机金属转子和定子的生产就是渐进冲裁模的一个应用领域(如图.4.6.11和4.6.20)。
模具毕业设计外文翻译(英文+译文)
Injection Molding The basic concept of injection molding revolves around the ability of a thermoplastic material to be softened by heat and to harden when cooled .In most operations ,granular material (the plastic resin) is fed into one end of the cylinder (usually through a feeding device known as a hopper ),heated, and softened(plasticized or plasticized),forced out the other end of the cylinder, while it is still in the form of a melt, through a nozzle into a relatively cool mold held closed under pressure.Here,the melt cools and hardens until fully set-up. The mold is then opened, the piece ejected, and the sequence repeated. Thus, the significant elements of an injection molding machine become: 1) the way in which the melt is plasticized (softened) and forced into the mold (called the injection unit); 2) the system for opening the mold and closing it under pressure (called the clamping unit);3) the type of mold used;4) the machine controls. The part of an injection-molding machine, which converts a plastic material from a sold phase to homogeneous seni-liguid phase by raising its temperature .This unit maintains the material at a present temperature and force it through the injection unit nozzle into a mold .The plunger is a combination of the injection and plasticizing device in which a heating chamber is mounted between the plunger and mold. This chamber heats the plastic material by conduction .The plunger, on each stroke; pushes unbelted plastic material into the chamber, which in turn forces plastic melt at the front of the chamber out through the nozzle The part of an injection molding machine in which the mold is mounted, and which provides the motion and force to open and close the mold and to hold the mold close with force during injection .This unit can also provide other features necessary for the effective functioning of the molding operation .Moving
冲压模具技术外文翻译(含外文文献)
前言 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
(完整版)冲压类外文翻译、中英文翻译冲压模具设计
附件1:外文资料翻译译文 冲压模具设计 对于汽车行业与电子行业,各种各样的板料零件都是有各种不同的成型工艺所生产出来的,这些均可以列入一般种类“板料成形”的范畴。板料成形(也称为冲压或压力成形)经常在厂区面积非常大的公司中进行。 如果自己没有去这些大公司访问,没有站在巨大的机器旁,没有感受到地面的震颤,没有看巨大型的机器人的手臂吧零件从一个机器移动到另一个机器,那么厂区的范围与价值真是难以想象的。当然,一盘录像带或一部电视专题片不能反映出汽车冲压流水线的宏大规模。站在这样的流水线旁观看的另一个因素是观看大量的汽车板类零件被进行不同类型的板料成形加工。落料是简单的剪切完成的,然后进行不同类型的加工,诸如:弯曲、拉深、拉延、切断、剪切等,每一种情况均要求特殊的、专门的模具。 而且还有大量后续的加工工艺,在每一种情况下,均可以通过诸如拉深、拉延与弯曲等工艺不同的成形方法得到所希望的得到的形状。根据板料平面的各种各样的受应力状态的小板单元体所可以考虑到的变形情形描述三种成形,原理图1描述的是一个简单的从圆坯料拉深成一个圆柱水杯的成形过程。 图1 板料成形一个简单的水杯
拉深是从凸缘型坯料考虑的,即通过模具上冲头的向下作用使材料被水平拉深。一个凸缘板料上的单元体在半径方向上被限定,而板厚保持几乎不变。板料成形的原理如图2所示。 拉延通常是用来描述在板料平面上的两个互相垂直的方向被拉长的板料的单元体的变形原理的术语。拉延的一种特殊形式,可以在大多数成形加工中遇到,即平面张力拉延。在这种情况下,一个板料的单元体仅在一个方向上进行拉延,在拉长的方向上宽度没有发生变化,但是在厚度上有明确的变化,即变薄。 图2 板料成形原理 弯曲时当板料经过冲模,即冲头半径加工成形时所观察到的变形原理,因此在定向的方向上受到改变,这种变形式一个平面张力拉长与收缩的典型实例。 在一个压力机冲程中用于在一块板料上冲出一个或多个孔的一个完整的冲压模具可以归类即制造商标准化为一个单工序冲孔模具,如图3所示。
概率论毕业论文外文翻译
Statistical hypothesis testing Adriana Albu,Loredana Ungureanu Politehnica University Timisoara,adrianaa@aut.utt.ro Politehnica University Timisoara,loredanau@aut.utt.ro Abstract In this article,we present a Bayesian statistical hypothesis testing inspection, testing theory and the process Mentioned hypothesis testing in the real world and the importance of, and successful test of the Notes. Key words Bayesian hypothesis testing; Bayesian inference;Test of significance Introduction A statistical hypothesis test is a method of making decisions using data, whether from a controlled experiment or an observational study (not controlled). In statistics, a result is called statistically significant if it is unlikely to have occurred by chance alone, according to a pre-determined threshold probability, the significance level. The phrase "test of significance" was coined by Ronald Fisher: "Critical tests of this kind may be called tests of significance, and when such tests are available we may discover whether a second sample is or is not significantly different from the first."[1] Hypothesis testing is sometimes called confirmatory data analysis, in contrast to exploratory data analysis. In frequency probability,these decisions are almost always made using null-hypothesis tests. These are tests that answer the question Assuming that the null hypothesis is true, what is the probability of observing a value for the test statistic that is at [] least as extreme as the value that was actually observed?) 2 More formally, they represent answers to the question, posed before undertaking an experiment,of what outcomes of the experiment would lead to rejection of the null hypothesis for a pre-specified probability of an incorrect rejection. One use of hypothesis testing is deciding whether experimental results contain enough information to cast doubt on conventional wisdom. Statistical hypothesis testing is a key technique of frequentist statistical inference. The Bayesian approach to hypothesis testing is to base rejection of the hypothesis on the posterior probability.[3][4]Other approaches to reaching a decision based on data are available via decision theory and optimal decisions. The critical region of a hypothesis test is the set of all outcomes which cause the null hypothesis to be rejected in favor of the alternative hypothesis. The critical region is usually denoted by the letter C. One-sample tests are appropriate when a sample is being compared to the population from a hypothesis. The population characteristics are known from theory or are calculated from the population.
冲压模具文献综述
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毕业论文 外文翻译#(精选.)
毕业论文(设计)外文翻译 题目:中国上市公司偏好股权融资:非制度性因素 系部名称:经济管理系专业班级:会计082班 学生姓名:任民学号: 200880444228 指导教师:冯银波教师职称:讲师 年月日
译文: 中国上市公司偏好股权融资:非制度性因素 国际商业管理杂志 2009.10 摘要:本文把重点集中于中国上市公司的融资活动,运用西方融资理论,从非制度性因素方面,如融资成本、企业资产类型和质量、盈利能力、行业因素、股权结构因素、财务管理水平和社会文化,分析了中国上市公司倾向于股权融资的原因,并得出结论,股权融资偏好是上市公司根据中国融资环境的一种合理的选择。最后,针对公司的股权融资偏好提出了一些简明的建议。 关键词:股权融资,非制度性因素,融资成本 一、前言 中国上市公司偏好于股权融资,根据中国证券报的数据显示,1997年上市公司在资本市场的融资金额为95.87亿美元,其中股票融资的比例是72.5%,,在1998年和1999年比例分别为72.6%和72.3%,另一方面,债券融资的比例分别是17.8%,24.9%和25.1%。在这三年,股票融资的比例,在比中国发达的资本市场中却在下跌。以美国为例,当美国企业需要的资金在资本市场上,于股权融资相比他们宁愿选择债券融资。统计数据显示,从1970年到1985年,美日企业债券融资占了境外融资的91.7%,比股权融资高很多。阎达五等发现,大约中国3/4的上市公司偏好于股权融资。许多研究的学者认为,上市公司按以下顺序进行外部融资:第一个是股票基金,第二个是可转换债券,三是短期债务,最后一个是长期负债。许多研究人员通常分析我国上市公司偏好股权是由于我们国家的经济改革所带来的制度性因素。他们认为,上市公司的融资活动违背了西方古典融资理论只是因为那些制度性原因。例如,优序融资理论认为,当企业需要资金时,他们首先应该转向内部资金(折旧和留存收益),然后再进行债权融资,最后的选择是股票融资。在这篇文章中,笔者认为,这是因为具体的金融环境激活了企业的这种偏好,并结合了非制度性因素和西方金融理论,尝试解释股权融资偏好的原因。
开关过电片冲压模具设计(一)
开关过电片冲压模具设计(一) 毕业设计文献综述一切从实际出发根据厂方现有的实际情况与客户所提供的资料及有关 要求,科学的、高质量的、完成客户所要求的任务。二、研究内容及预期目标在实习 期间亲自通过设计、组装、调试、修配模具等一系列的操作过程,对冲压模具的原理及有关注意事向有进一步的了解并达到对简单模具能独立完成的成度。三、研究方案对冲压 件进行结构分析,从各方面考虑其结构,到模具车间进行模具制造学习,积累生产实际经验,了解一些相关技术要求及注意事项。并通过每次对模具的调试与修配,记录有关数据认真分析提出最合理的方案解决出现的一系列问题。指导教师签字时 间年月日目录第一章、绪论 6 1.1概述 6 1.2 冲压技术的进步 6 1.3 模具的发展与现 状 7 1.4 模具CAD/CAE/CAM技术 7 第二章、冲压工艺方案的制定 9 2.1、工艺分析 10 2.2、排样图设计 10 第三章、模具总体结构设计 12 3.1 条料定位装置 12 3.2、出料装置 14 第 四章、模具零件的设计与计算 15 4.1、凸、凹模的刃口尺寸计算 15 4.2、凸凹模的设 计 21 4.3、模板的设计 24 4.4、卸料弹簧的选用 25 4.4、其他零件的设计 25 第五章、冲 压设备的选用 26 5.1、冲压力的计算 26 5.2、选择压力机 27 第六章、压力中心的计算 27 总结 29 致谢 30 31 第1章绪论 1.1 概述冲压成形作为现代工业中一种十分重要的加工方法,用以生产各种 板料零件,具有很多独特的优势,其成形件具有自重轻、刚度大、强度高、互换性好、成 本低、生产过程便于实现机械自动化及生产效率高等优点,是一种其它加工方法所不能相比和不可替代的先进制造技术,在制造业中具有很强的竞争力,被广泛应用于汽车、能源、机械、信息、航空航天、国防工业和日常生活的生产之中。在吸收了力学、数学、金属 材料学、机械科学以及控制、计算机技术等方面的知识后,已经形成了冲压学科的成形基本理论。以冲压产品为龙头,以模具为中心,结合现代先进技术的应用,在产品的巨大市场需求刺激和推动下,冲压成形技术在国民经济发展、实现现代化和提高人民生活水平方面发挥着越来越重要的作用。 1.2 冲压技术的进步进几十年来,冲压技术有了飞速的发展,它不仅表现在许多新工艺与新技术在生产的广泛应用上,如:旋压成形、软模具成形、高能率成形等,更重要的是人们对冲压技术的认识与掌握的程度有了质的飞跃[1]。现 代冲压生产是一种大规模继续作业的制造方式,由于高新技术的参与和介入,冲压生产方式由初期的手工操作逐步进化为集成制造(图1-1)。生产过程逐步实现机械化、自动化、并且正在向智能化、集成化的方向发展。实现自动化冲压作业,体现安全、高效、节材等优点,已经是冲压生产的发展方向。冲压自动化生产的实现使冲压制造的 概念有了本质的飞跃。结合现代技术信息系统和现代化管理信息系统的成果,由这三方面
ABS塑件的注射成型工艺分析及模具设计外文翻译
毕业设计(论文)外文资料翻译 学生姓名: 学号: 专业: 指导教师: 学院: 日期:
外文资料翻译要求 一、译文内容须与课题研究或调研内容高度一致。 二、译文翻译得当、语句通顺,不少于4000字。 三、译文格式要求:译文题目(即一级标题)采用小三黑体、二级 标题采用四号黑体、三级标题采用13磅黑体;图题和表题采用五号宋体,外文和符号采用五号Times New Roman;正文采用小四宋体,外文和符号采用小四Times New Roman,行间距为20磅;A4纸双面打印。 四、原文及译文一起装订,顺序依次为封面(背面为外文资料翻译 要求)、译文评阅(单面打印)、译文、外文原文。
译文评阅 评分:___________________(百分制)指导教师(签名):___________________ 年月日
原文 Treating and the modern mould make high speed One, summarizes 1 the present situation that the mould makes at present and trend The mould is important handicraft equipment , occupies decisive position in industrid departments such as consumer goods , electrical equipment electron , automobile , aircraft fabrication. The mould is important handicraft equipment , occupies decisive position in industrid departments such as consumer goods , electrical equipment electron , automobile , aircraft fabrication. Industrial product part rough process 75%, the finish machining 50% and plastic part 90% will be completed from the mould. The Chinese mould market demand already reaches scale of 500 hundred million yuan at present. The automobile mould , the annual growth rate covering piece of mould especially will exceed 20 %; Also prompt building material mould development , various heterotype material the mould , wall surface and floor mould become new mould growth point , plastic doors and windows and plastic drain-pipe increase to exceeding 30 by in the upcoming several years %; The home appliance mould annual growth rate will exceed 10 %; The IT industry year increases % speed equally exceeding 20 , the need to the mould accounts for 20 of mould marketplace %.2004 annual Chinese machine tools implements industry output value will continue to increase. Our country mould fabrication market potential is enormous. The basis data counts , in recent years, our country mould year gross output value reaches 3 billion U. S. dollar , entrance exceeds 1 billion U. S. dollar, exceed 100 million U. S. dollar outlet. Increase by from 25% to increase to 2005 50% of 1995. The expert foretells that abroad: Asia portion being occupied by in mould fabrication in the whole world, will from 25% to increase to 2005 50% of 1995.
机械图纸中英文翻译汇总
近几年,我厂和英国、西班牙的几个公司有业务往来,外商传真发来的图纸都是英文标注,平时阅看有一定的困难。下面把我们积累的几点看英文图纸的经验与同行们交流。 1标题栏 英文工程图纸的右下边是标题栏(相当于我们的标题栏和部分技术要求),其中有图纸名称(TILE)、设计者(DRAWN)、审查者(CHECKED)、材料(MATERIAL)、日期(DATE)、比例(SCALE)、热处理(HEAT TREATMENT)和其它一些要求,如: 1)TOLERANCES UNLESS OTHERWISE SPECIFIAL 未注公差。 2)DIMS IN mm UNLESS STATED 如不做特殊要求以毫米为单位。 3)ANGULAR TOLERANCE±1°角度公差±1°。 4)DIMS TOLERANCE±0.1未注尺寸公差±0.1。 5)SURFACE FINISH 3.2 UNLESS STATED未注粗糙度3.2。 2常见尺寸的标注及要求 2.1孔(HOLE)如: (1)毛坯孔:3"DIAO+1CORE 芯子3"0+1; (2)加工孔:1"DIA1"; (3)锪孔:锪孔(注C'BORE=COUNTER BORE锪底面孔); (4)铰孔:1"/4 DIA REAM铰孔1"/4; (5)螺纹孔的标注一般要表示出螺纹的直径,每英寸牙数(螺矩)、螺纹种类、精度等级、钻深、攻深,方向等。如: 例1.6 HOLES EQUI-SPACED ON 5"DIA (6孔均布在5圆周上(EQUI-SPACED=EQUALLY SPACED均布) DRILL 1"DIATHRO' 钻1"通孔(THRO'=THROUGH通) C/SINK22×6DEEP 沉孔22×6 例2.TAP7"/8-14UNF-3BTHRO' 攻统一标准细牙螺纹,每英寸14牙,精度等级3B级 (注UNF=UNIFIED FINE THREAD美国标准细牙螺纹) 1"DRILL 1"/4-20 UNC-3 THD7"/8 DEEP 4HOLES NOT BREAK THRO钻 1"孔,攻1"/4美国粗牙螺纹,每英寸20牙,攻深7"/8,4孔不准钻通(UNC=UCIFIED COARSE THREAD 美国标准粗牙螺纹)