冲压模具冷冲压加工毕业论文中英文对照资料外文翻译文献
冲压模具冷冲压加工
中英文对照资料外文翻译文献
冷冲模具使用寿命的影响及对策
冲压模具概述
冲压模具--在冷冲压加工中,将材料(金属或非金属)加工成零件(或半成品)的一种特殊工艺装备,称为冷冲压模具(俗称冷冲模)。冲压--是在室温下,利用安装在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,从而获得所需零件的一种压力加工方法。
冲压模具的形式很多,一般可按以下几个主要特征分类:
1.根据工艺性质分类
(1)冲裁模沿封闭或敞开的轮廓线使材料产生分离的模具。如落料模、冲孔模、切断模、切口模、切边模、剖切模等。
(2)弯曲模使板料毛坯或其他坯料沿着直线(弯曲线)产生弯曲变形,从而获得一定角度和形状的工件的模具。
(3)拉深模是把板料毛坯制成开口空心件,或使空心件进一步改变形状和尺寸的模具。
(4)成形模是将毛坯或半成品工件按图凸、凹模的形状直接复制成形,而材料本身仅产生局部塑性变形的模具。如胀形模、缩口模、扩口模、起伏成形模、翻边模、整形模等。
2.根据工序组合程度分类
(1)单工序模在压力机的一次行程中,只完成一道冲压工序的模具。
(2)复合模只有一个工位,在压力机的一次行程中,在同一工位上同时完成两道或两道以上冲压工序的模具。
(3)级进模(也称连续模)在毛坯的送进方向上,具有两个或更多的工位,在压力机的一次行程中,在不同的工位上逐次完成两道或两道以上冲压工序的模具。
冲冷冲模全称为冷冲压模具。
冷冲压模具是一种应用于模具行业冷冲压模具及其配件所需高性能结构陶瓷材料的制备方法,高性能陶瓷模具及其配件材料由氧化锆、氧化钇粉中加铝、镨元素构成,制备工艺是将氧化锆溶液、氧化钇溶液、氧化镨溶液、氧化铝溶液按一定比例混合配成母液,滴入碳酸氢铵,采用共沉淀方法合成模具及其配件陶瓷材料所需的原材料,反应生成的沉淀经滤水、干燥,煅烧得到高性能陶瓷模具及其配件材料超微粉,再经过成型、烧结、精加工,便得到高性能陶瓷模具及其配件材料。本发明的优点是本发明制成的冷冲压模具及
其配件使用寿命长,在冲压过程中未出现模具及其配件与冲压件产生粘结现象,冲压件表面光滑、无毛刺,完全可以替代传统高速钢、钨钢材料。
冷冲模具主要零件
冷冲模具是冲压加工的主要工艺装备,冲压制件就是靠上、下模具的相对运动来完成的。加工时由于上、下模具之间不断地分合,如果操作工人的手指不断进入或停留在模具闭合区,便会对其人身安全带来严重威胁。
(一)模具的主要零件、作用及安全要求
1.工作零件凸凹模是直接使坯料成形的工作零件,因此,它是模具上的关键零件。凸凹模不但精密而且复杂,它应满足如下要求:
(1)应有足够的强度,不能在冲压过程中断裂或破坏.
(2)对其材料及热处理应有适当要求,防止硬度太高而脆裂。
2.定位零件定位零件是确定坯件安装位置的零件,有定位销(板)、挡料销(板)、导正销、导料板、定距侧刀、侧压器等。设计定位零件时应考虑操作方便,不应有过定位,位置要便于观察,最好采用前推定位、外廓定位和导正销定位等。
3.压料、卸料及出料零件压料零件有压边圈、压料板等。
压边圈可对拉延坯料加压边力,从而防止坯料在切向压力的作用下拱起而形成皱褶。压料板的作用是防止坯料移动和弹跳。顶出器、卸料板的作用是便于出件和清理废料。它们由弹簧、橡胶和设备上的气垫推杆支撑,可上下运动,顶出件设计时应具有足够的顶出力,运动要有限位。卸料板应尽量缩小闭合区域或在操作位置上铣出空手槽。暴露的卸料板的四周应设有防护板,防止手指伸入或异物进入,外露表面棱角应倒钝。
4.导向零件导柱和导套是应用最广泛的一种导向零件。其作用是保证凸凹模在冲压工作时有精确的配合间隙。因此,导柱、导套的间隙应小于冲裁间隙。导柱设在下模座,要保证在冲程下死点时,导柱的上端面在上模板顶面以上最少5至10毫米。导柱应安排在远离模块和压料板的部位,使操作者的手臂不用越过导柱送取料。
5.支承及夹持零件它包括上下模板、模柄、凸凹模固定板、垫板、限位器等。
上下模板是冷冲模具的基础零件,其他各种零件都分别安装固定在上面。模板的平面尺寸,尤其是前后方向应与制件相适应,过大或过小均不利于操作。
有些模具(落料、冲孔类模具)为了出件方便,需在模架下设垫板。这时垫板最好与模板之间用螺钉连接在一起,两垫板的厚度应绝对相等。垫板的间距以能出件为准,不要太大,以免模板断裂。
6.紧固零件它包括螺钉、螺母、弹簧、柱销、垫圈等,一般都采用标准件。冷冲模具的标准件用量较多,设计选用时应保证紧固和弹性顶出的需要,避免紧固件暴露在表面操作位置上,防止碰伤人手和妨碍操作。
冷冲模具的发展
改革开放以来,随着国民经济的高速发展,市场对冷冲模具的需求量不断增长。近年来,冷冲模具工业一直以15%左右的增长速度快速发展,冷冲模具工业企业的所有制成分
也发生了巨大变化,除了国有专业模具厂外,集体、合资、独资和私营也得到了快速发展。
随着与国际接轨的脚步不断加快,市场竞争的日益加剧,人们已经越来越认识到产品质量、成本和新产品的开发能力的重要性。而冷冲模具制造是整个链条中最基础的要素之一,冷冲模具制造技术现已成为衡量一个国家制造业水平高低的重要标志,并在很大程度上决定企业的生存空间。
近年许多冷冲模具企业加大了用于技术进步的投资力度,将技术进步视为企业发展的重要动力。一些国内模具企业已普及了二维CAD,并陆续开始使用UG、Pro/Engineer、I-DEAS、Euclid-IS等国际通用软件,个别厂家还引进了Moldflow、C-Flow、DYNAFORM、Optris和MAGMASOFT等CAE软件,并成功应用于冲压模的设计中。
以汽车覆盖件模具为代表的大型冲压模具的制造技术已取得很大进步,东风汽车公司模具厂、一汽模具中心等模具厂家已能生产部分轿车覆盖件模具。此外,许多研究机构和大专院校开展模具技术的研究和开发。经过多年的努力,在模具CAD/CAE/CAM技术方面取得了显著进步;在提高模具质量和缩短模具设计制造周期等方面做出了贡献。
虽然中国冷冲模具工业在过去十多年中取得了令人瞩目的发展,但许多方面与工业发达国家相比仍有较大的差距。例如,精密加工设备在冷冲模具加工设备中的比重比较低;CAD/CAE/CAM技术的普及率不高;许多先进的模具技术应用不够广泛等等,致使相当一部分大型、精密、复杂和长寿命冷冲模具依赖进口。
随着科学技术的不断进步,现代工业产品的生产日益复杂与多样化,产品性能和质量也在不断提高,因而对冷冲压技术提出了更高的要求.为了使冷冲压技术能适应各工业部门的需要,冷冲压技术自身也在不断革新和发展.冷冲压技术的发展思路就是尽可能地完善和扩充冷冲压工艺的优点,克服其缺点.在冷冲压技术的发展过程中,应注意以下几方面:
(1)冷冲压技术的发展过程中应正确地确定工艺参数及冷冲模具工作部分的形状与尺寸,提高冲压件的质量、缩短新产品试制周期,应在加强冲压成形理论研究的基础上,使冲压成形理论达到能对生产实际起指导作用,逐步建立起一套密切结合生产实际的先进的工艺分析计算方法.国外已开始采用弹塑性有限元法对汽车覆盖零件的成形过程进行应力应变分析和计算机模拟,以预测某一工艺方案对零件成形的可能性和可能出现的问题。
(2)加快产品更新换代,克服模具设计周期长的缺点.应大力开展模具计算机辅助设计和制造(CAD/CAM)技术的研究.在我国,目前要特别注意加强多工位级进模CAD/CAM技术的研究。
(3)满足大量生产需要以及减轻劳动强度.应加强冷冲压生产的机械化和自动化研究,使一般中、小件能在高速压力机上采用多工位级进模生产,达到生产高度自动化,进一步提高冲压的生产率。
(4)扩大冷冲压生产的运用范围.使冷冲压既适合大量生产,也适合小批量生产;既能生产一般精度的产品,也能生产精密零件.应注意开发如精密冲裁(特别是厚料精冲)、高能成形、软模成形、施压和超塑性加工等新成形工艺,还要推广简易模(软模和低熔点合金模)、通用组合模、数控冲床等设备的运用。
此外,对冲压板料性能的改进,模具新材料、模具新加工方法的开发也应进一步加强。
冷冲模具使用寿命的影响及对策
冷冲模具的使用寿命是以冲制出的工件数量来计算的。影响冷冲模寿命的因素很多。主要有模具结构设计、制造模具所用凸模和凹模的材料、模具的热处理质量与表面强化、冲模零件的制造精度和冷冲压材料的选取。除此之外,还有冲模的安装、调整、使用以及维修等。
1.模具设计对寿命的影响
(1)排样设计的影响排样方法与搭边值对模具寿命的影响很大,过小的搭边值,往往是造成模具急剧磨损和凸、凹模啃伤的重要原因。从节约材料出发,搭边值愈小愈好,但搭边值小于一定数值后,对模具寿命和剪切表面质量不利。在冲裁中有可能被拉人模具问隙中,使零件产生毛刺,甚至损坏模具刃口,降低模具寿命。因此,在考虑提高材料利用率的同时,必须根据零件产量、质量和寿命,确定排样方法和搭边值。
(2)凹模结构的影响对容易产生应力集中而开裂的凹模结构,可以采用组合结构或镶拼结构,以及预应力结构,从而提高模具使用寿命。
(3)间隙的影响当间隙过小时,压缩挤压利害,摩擦力增大,磨损增大,侧面的磨损加剧,冲裁后卸料和推件时,材料与凸、凹模之间的摩擦还将造成刃口侧面的磨损比端面的磨大大,同时也容易造成凸、凹模温度很高,把金属碎屑吸附在刃口侧面,形成金属瘤,使凸、凹模出现崩刃或胀裂现象。因此,过小的间隙对模具寿命极为不利。间隙太大,会增加凸模与凹模端面边缘的集中应力,致使压应力急剧增加,于是刃口边很快屈服变形而失去棱角。因此又增加了冲裁力,进而使刃口边更快磨损,降低模具寿命。但为了减小凸、凹模的磨损,延长模具使用寿命,在保证冲裁件质量的前提下,设计时适当采用较大间隙是十分必要的。
(4)模具导向结构对寿命的影响可靠的导向对于减小工作零件的磨损,避免凸、凹模啃伤是非常有效的。特别对无问隙或小问隙冲裁模、复合模和多工位级进模更为重要。为提高模具寿命,必须根据工序和零件精度要求,正确选择导向形式和导向精度,所选择导向精度应高于凸、凹模的配合精度。
(5)冷冲压材料选取的影响冷冲压材料应满足制件的设计要求和冲压工艺要求,否则容易损伤模具,降低模具使用寿命。冷冲压材料表面质量不好,冲压时制件易破裂,也易擦伤模具。冷冲压材料塑性不好,变形量小,冲压时制件易破裂,也易擦伤模具。另外,材料的厚度公差应符合国家标准。因为一副冲模适用于一定材料的厚度,成形、弯曲、翻边、引伸模具的凸、凹模结构间隙是直接根据材料厚度来确定的。所以材料厚度不均匀,会导致废品产生和模具损坏。
2.模具材料对模具寿命的影响
模具材料对模具寿命的影响是模具材料性质、化学成分、组织结构、硬度和冶金质量等的综合反映。其中,材料性质和热处理质量影响最为明显。模具材料性质对模具寿命的影响是很大的。如将同一种工件,使用不同的模具材料做弯曲试验,试验结果:用9Mn2V 材料,其寿命为5万次;用Crl2MoV渗氮,其寿命可达40万次。因此,在选用材料时,应根据制件的批量大小,合理选用模具材料。模具工作零件的硬度对模具寿命的影响也很大。但并不是硬度愈高、模具寿命愈长。这是因为硬度与强度、韧性及耐磨性等有密切的
关系。有的冲模要求硬度高,寿命长。如采用T10钢制造冲模,硬度为54~58HRC,只冲几千次,制件毛刺就很大。如果将硬度提高到60~64HRC,则刃磨寿命可达2~3万次。但如果继续提高硬度,则会出现早期断裂。有的冲模硬度不宜过高,如采用Crl2MoV制造凹模硬度为58~62HRC时,一般寿命为2—3万件,失效形式是崩刃和开裂以及如果将硬度降到54~58HRC,寿命提高到5~6万件,但硬度降低到50~53HRC会出现凹模刃口易磨钝现象。由此可见,模具硬度必须根据材料性质和失效形式而定。应使硬度、强度、韧性及耐磨性、耐疲劳强度等达到特定冲压工序所需要的最佳配合。
3.模具的热处理质量与表面强化对寿命的影响
模具的热处理质量对模具的性质与使用寿命影响很大。实践证明,模具工作零件的淬火变形与开裂,使用过程中早期断裂,虽然与材料的冶金质量、锻造质量、模具结构及加工有关,但与模具的热处理关系更大。根据模具失效原因的分析统计,热处理不当引起的失效占50%以上。实践证明,高级的模具材料必须配以正确的热处理工艺,才能真正发挥材料的潜力。模具工作零件表面强化处理的目的,是获得外硬内韧的效果,从而得到硬度、耐磨性、韧性、耐疲劳强度的良好配合。模具表面强化处理方法很多,表面处理的新技术工艺发展很快。除氮碳共渗和离子氮化、渗硼、渗铌、渗钒、表面镀硬铬和电火花强化外,化学气相沉积(CVD)和物理气相沉积(PVD)已逐步采用。经CVD和PVD处理后,模具表面覆盖一层超硬物质,如TiC、TiN等。硬度极高、耐磨性、耐蚀性、抗黏合性很好,可提高模具寿命几倍到几十倍。
4.冲模零件的制造精度对模具寿命的影响
冲模制造的精度与使用寿命关系很大,特别是模具表面粗糙度对模具影响很大。如用Crl2MoV钢制造落料模,如果表面粗糙度值R =1.6 m时,其寿命为3万件左右。如经精抛光,表面粗糙度值R =0.4 m,寿命可提高到4—5万件。因此,对模具工作零件表面,一般都要经过磨削、研磨、抛光等精加工和精细加工。
5.其他方面对模具寿命的影响
(1)压力机的精度不高,也易使冲模损坏。
(2)冲模在压力机上安装的正确与否及操作者的技术水平高低,对模具寿命也有很大影响。
(3)冲模的保管和维护好坏,以及使用润滑剂的情况,也影响模具使用寿命。
6.结语
在实际生产中,对于薄板冲模使用,很少出现非正常磨损的情况。但对于厚板冲模时则发现易出现非正常磨损,我们总是针对出现的问题进行研究总结。因为一副冷冲模,从设计、加工制造、装配、调试到安装、使用,都耗费了众多工时,同时冲模的凸、凹模使用的材料,大都是优质合金钢。因此,冲模的成本都是比较高的。所以在生产中了解影响冲模寿命的因素及采取相应的对策来指导生产,具有重大的现实意义。
Die Life of cold stamping die and mprovements
Overview of stamping die
Stamping Die - Stamping in the cold, the material (metal or non-metallic) processing into parts (or half) of a special technical equipment, called cold stamping die (commonly known as Die). Press - is at room temperature, using the die installed in the press to put pressure on the material to produce a separation or plastic deformation, and thus to obtain the necessary parts of a pressure processing method.
Stamping die in the form of many, the general categories according to the following main features:
1. According to the technical nature of
(1) Die along the closed or open contour the material are derived from mold. If blanking die, punch die, cut off the mold, cut mode, cutting mode, split mode, etc..
(2) bending mode to blank or blank sheet along a straight line (curved line) to bend, deform, and thus obtain a certain angle and shape of the workpiece in the mold.
(3) The drawing die is made of the blank sheet opening hollow, or hollow pieces of further changes to the shape and size of the mold.
(4) Die rough or semi-finished workpiece is convex according to plan, direct copy the shape of the die shape, the material itself, generate only local plastic deformation of the mold. Such as the bulging mode, reducing the die, expansion die, forming die rolling, flanging mold, plastic mold.
2. According to the degree classification process combination
(1) single process model in a press tour, just completed a die stamping process.
(2) composite model is only one station, in a press tour, at the same station at the same time to complete more than two or two die stamping process.
(3) Progressive Die (also known as the modulus of continuity) in the feeding direction, rough, with two or more of the station, at the press of a visit, work in different places on the completion of two or two successive Road over stamping
die process.
Chong called cold stamping die Die-wide.
Cold stamping die is used in cold stamping die mold industry, and accessories required for high-performance structural ceramic materials, preparation methods, high-performance ceramic materials, molds and accessories from the zirconium oxide and yttrium aluminum powder increases, Pr element composition, Preparation is the solution of zirconia, yttria solution, praseodymium oxide solution, according to a certain percentage of alumina solution when mixed liquor, ammonium bicarbonate infusion, by co-precipitation synthesis of ceramic materials, molds and accessories needed for raw materials, reaction precipitate generated by the treatment, drying, calcining and accessories by high performance ceramic mold material superfine powder, and then after forming, sintering, finishing, they will have high-performance ceramic materials, molds and accessories. Advantages of this invention is the invention made of cold stamping dies and parts and long service life, the process does not appear in the press and its parts and stamping die bond generated the phenomenon of stamping surface is smooth, no glitches, can replace traditional high-speed steel, tungsten steel.
Die with the main parts
Die stamping tools is the main process equipment, stamping rely on the relative movement under the mold completed. Processing time because the upper and lower mold between the constant division and, if continued operation of the fingers of workers to enter or remain in the mold closed, there will certainly pose a serious threat to their personal safety.
(A) of the mold main parts, function and safety requirements
1. Working parts is a direct punch to blank forming the working parts, therefore, it is the key to mold parts. Punch not only sophisticated and complex, it should meet the following requirements:
(1) be of sufficient strength, can not be broken or destroyed during stamping.
(2) should be appropriate to its material and heat treatment requirements, to prevent too high hardness and brittle fracture.
2. Positioning parts positioning part is to determine the location of the parts installed blank, there are pins (board), gauge pin (plate), lead is sold, guide plate, knife set from the side, side pressure etc.. Design should be considered when positioning parts easy to operate and should not have had orientation, location to facilitate observation, preferably in the forward position, contouring to correct the pin location and positioning.
3. Binder, unloading and discharging parts binder components are blank holder,
binder board.
Blank holder pressure can drawing blank holder force, thereby preventing billets under the action of the tangential pressure arch formed folds. The role of pressure plate to prevent movement and bounce blank. Top of the device, discharge board's role is to facilitate the pieces and clean up waste. Them by the spring, rubber and equipment, putting on the air-cushion support, can move up and down, knocking out pieces of the design should have enough top output, movement to the limited spaces. Stripper plate area should be minimized or closed position in the operating groove milling out empty-handed. Exposure of the stripper plate should have protection around the plate, to prevent finger inserted into or foreign objects inside, exposed surface edges should be blunt down.
4. Guide parts and guide sleeve guide pin is the most widely used part of a guide. Its role is to ensure punch the punching clearance when accurate match. Therefore, the guide posts, guide cover the gap should be less than the blanking clearance. Guide Post located next mold base, to ensure that the stroke bottom dead center, the lead column in the template on the face over the top for at least 5 to 10 mm. Guide columns should be arranged far away from the module and the pressure plate in the area, so the operator's arms do not get to take over the lead column material.
5. Supporting and clamping the upper and lower parts which includes templates, die handle, fixed plate punch, plate, stopper, etc..
Up and down the template is the basis of the cold die parts, other parts are respectively fixed at the top. Template plane size, especially around the direction to be compatible with the workpiece, too large or too small are not conducive to action.
Some molds (blanking, punching type mold) to the pieces of convenience, be set up under the mold plate. At this time the best and the template plate connected between the screw, the two plate thickness should be absolutely equal. Plate spacing out the pieces to be able to prevail, not too much, so as not to break the template.
6. Fastening parts which includes screws, nuts, springs, pins, washers, etc., are generally used standard parts. Die more with the amount of standard parts, design choice and flexibility should be tightened to ensure the top out of the need to avoid exposure to the surface fastener operating position, the staff and impede operation to prevent bumps.
Die with the development of
Since reform and opening, with the rapid development of the national economy, the market demand with the growing Die. In recent years, Die with the industry has
been around 15% growth rate of the rapid development of industrial enterprises with ownership Die components also changed dramatically, in addition to the professional mold factory outside of state-owned, collective, joint ventures, wholly-owned and private has been a rapid development.
As with the accelerating pace of international integration, the increasing competition in the market, it has been increasingly recognized product quality, cost, and new product development capacities. The cold die manufacturing is the most basic elements of the chain, one of the cold die manufacturing technology to measure a country's manufacturing sector has become an important symbol of the level, and largely determine the viability of enterprises.
Die with enterprises to increase in recent years many technological advances for investment, technological progress will be seen as an important driving force for enterprise development. Some domestic enterprises have popularized the two-dimensional mold CAD, and gradually began to use UG, Pro / Engineer, I-DEAS, Euclid-IS and other international common software, individual manufacturers have also introduced Moldflow, C-Flow, DYNAFORM, Optris and MAGMASOFT etc. CAE software, and successfully applied in stamping die design.
A car cover mold as the representative of a large stamping die manufacturing technology has made great progress, Dongfeng Motor Corporation mold factory, mold manufacturers such as FAW mold center has been able to produce some car cover mold. In addition, many research institutions and universities to carry out technology research and development of mold. After years of effort, in the mold CAD / CAE / CAM technology has made remarkable progress; in improving quality and reducing mold die design and manufacturing cycle, and so contributed.
Although China Die with the industry over the past decade has made remarkable development, but in many ways compared with the industrialized countries there is still a large gap. For example, the precision machining equipment, processing equipment in Die with the relatively low proportion; CAD / CAE / CAM technology penetration is not high; many advanced mold technology not widely so, resulting in a considerable number of large, sophisticated, complex and long Die life with dependence on imports.
With the continuous progress of science and technology, modern industrial production of increasingly complex and diverse, product performance and quality is ever increasing, thus the cold stamping technology put forward higher requirements. In order to adapt to the cold stamping technology industry needs, cold stamping technology itself also in innovation and development. cold stamping technology idea is to improve and expand as much as possible the advantages of the cold stamping process, to overcome its shortcomings. in the cold stamping
technology development, should note the following aspects:
(1) cold stamping technology process parameters should be properly identified and Die with the work of some of the shape and size, to improve the quality of stamping parts and shorten the new product production cycle should be in strengthening the metal forming the basis of theoretical studies, to metal forming theory to practice can produce a direction, and gradually establish a close connection with the actual production of the advanced process of calculation. abroad have begun to use plastic finite element method, automobile parts forming process of the stress and strain analysis and computer simulation to predict the forming part of a process plan on the possibilities and potential problems.
(2) to accelerate product replacement, mold design to overcome the shortcomings of a long cycle. Should vigorously carry out computer-aided design and manufacture of molds (CAD / CAM) Research. In my country, paying particular attention to strengthening the multi-position progressive die CAD / CAM Technology.
(3) to meet the needs of mass production, and reduce labor intensity. Should strengthen cold stamping of mechanized and automated, so that the average, small pieces of high-speed presses in a multi-position progressive die production, production reached a high degree of automation to further improve stamping productivity.
(4) expand the scope of application of cold stamping production. So cold pressing both suitable for mass production, but also for small batch production; both the general accuracy of product production, but also can produce precision parts. Should pay attention to development such as fine blanking (especially thick material fine blanking), forming high-energy, soft mold forming, pressure and processing new superplastic forming process, but also promote the easy mode (soft mode and the low melting point alloy mold), Universal Hybrid model, the use of CNC punch press and other equipment.
In addition, the performance improvement of sheet metal stamping, mold new material, die development of new processing methods should be further strengthened.
Die with life and Countermeasures
Die with the life of the workpiece by punching out the number of terms. Many factors affect the life Die. There are die structure design, manufacture molds used in the punch and die materials, die quality and surface hardening heat treatment, precision die manufacturing parts and cold stamping materials selection. In addition, there are die installation, adjustment, use and maintenance.
1. Die Design on Life
(1) Layout design of layout methods and take the boundary value a great impact
on the die life, too small to take the boundary value, often causing rapid wear and convex mold, die bite wounds on the. Starting from material savings, take the boundary value smaller the better, but take the edge is less than some value, the cut surface of the mold and the quality of life adversely. There will be left behind in the blanking die Q-gap were to produce spare parts glitch, or even damage the die edge, reduce die life. Therefore, consider increasing the material utilization of the same time, parts must yield, quality and life expectancy to determine the layout methods and take the boundary.
(2) die structure prone to stress concentration on the cracking of the die structure, composite structure can be used or mosaic structure, and prestressed structure to enhance the mold life.
(3) the impact of clearance when the gap is too small, compressed extrusion of interest, increased friction, increased wear, the wear side of aggravated discharge and push pieces after blanking time, materials and convex, the friction between die will cause wear and tear than the end edge on the side of the grinding much, but also easily lead to convex, concave mold temperature is high, the adsorption of metal debris in the side edge to form a metal tumor, so that male and female die chipping or expansion occurs crack phenomenon. Therefore, the gap is too small to Die Life very bad. Gap is too large will increase the punch and the die face the edge of the concentration of stress, resulting in a sharp increase in stress, so blade edge quickly lose angular yield deformation. Therefore, addition of blanking force, thereby enabling faster edge edge wear, reduce die life. But in order to reduce the male and female die wear, extending mold life, while ensuring quality of stamping pieces under the premise that larger space designed properly it is necessary.
(4) Die-oriented structure of the life of a reliable guide for the working parts reduce wear, prevent male and female die bite wound is very effective. In particular, non-small-Q gap Q gap or Die, compound die and multi-position progressive die even more important. To improve the die life, must be based on processes and the demand of precision, the correct choice-oriented form and orientation accuracy, the choice should be higher than the accuracy-oriented convex, concave mold with precision.
(5) the impact of cold stamping materials, cold stamping materials selected should meet the design requirements of workpieces and stamping process requirements, or easy to mold damage and reduce mold life. Poor surface quality of cold stamping, punching, cracking when the workpiece is also easy to scratch mold. Bad cold stamping plastic materials, deformation is small, easy to press when the workpiece rupture, but also easy to scratch mold. In addition, the material thickness
tolerances shall comply with national standards. Die because of a certain thickness of material suitable for forming, bending, flanging, drawing die of the male and female die structure gap is directly determined by the thickness of the material. Therefore, uneven thickness, will result in waste generation and mold damage.
2. Die Die Life of
Die Die Life of a mold material properties, chemical composition, structure, hardness and comprehensive reflection of metallurgical quality. Among them, the material properties and heat treatment affect the quality of the most obvious. Mold material properties on the impact of die life is great. If the same workpiece, using a different mold material of the bending test, the test results: The 9Mn2V material, the life of 5 million; with Crl2MoV nitriding, the life of up to 40 million. Therefore, the choice of materials, the batch size should be based on workpiece, rational use of mold materials. The hardness of the die parts to Die Life a great impact. But not the higher hardness, longer die life. This is because the hardness and strength, toughness and abrasion resistance are closely related. Some die demands of high hardness, long life. Such as the use of T10 steel dies, hardness 54 ~ 58HRC, only washed thousands of times a burr on the workpiece great. If the hardness to 60 ~ 64HRC, the grinding life of up to 2 to 3 million. However, if continue to improve hardness, fracture occurs earlier. Some die hardness should not be too high, as the die manufacturing using Crl2MoV 58 ~ 62HRC hardness, the general life of 2-3 million, invalid form of chipping and cracking, and if the hardness down to 54 ~ 58HRC, life expectancy increased to 5 ~ 60 000, but decreased to 50 ~ 53HRC hardness appears easy to blunt the die edge phenomenon. Thus, mold hardness must be based on material properties and failure modes may be. Should enable the hardness, strength, toughness and wear resistance, resistance to fatigue strength needed to achieve a particular stamping process the best match.
3. The surface of the mold heat treatment to strengthen the quality and impact on life
Mold heat treatment the nature and quality of life of the mold a great impact. Practice shows that the die parts of the quenching distortion and cracking, early fracture during use, while the metallurgical and materials quality, forging quality, mold structure and process related, but related more to die of heat treatment. According to statistical analysis of failure causes of mold, heat treatment failure due to improper accounting for more than 50%. Practice shows that the mold material must be accompanied by high heat treatment process properly, can really play a material's potential. Parts surface hardening mold work purpose is to obtain the effect of external hard tough inside, so be hardness, wear resistance, toughness, good resistance to fatigue with. Many ways to die surface
hardening, surface treatment technology of new technologies developed rapidly. In addition to Nitrocarburizing and ion nitride, boride, seepage niobium, vanadium permeability, hard chrome plated and spark strengthening, the chemical vapor deposition (CVD) and physical vapor deposition (PVD) has been gradually adopted. By CVD and PVD treatment, the mold surface covered with super-hard material, such as TiC, TiN, etc.. High hardness, wear resistance, corrosion resistance, adhesion is very good, can improve the die life several times to several times.
4. Manufacturing precision of the die parts of die life
Precision die manufacturing and life in it in particular, mold surface roughness on the mold a great impact. If using Crl2MoV steel blanking die, if the surface roughness value R = 1.6 m, its life span is about 30,000. Such as polished by the precision, surface roughness value R = 0.4 m, life can be increased to 4-5 million. Therefore, the working parts of the mold surface, the general must go through grinding, grinding, polishing and other finishing and fine processing.
5. Other aspects of the impact of die life
(1) Press the accuracy is not high, but also easy to make die damage.
(2) die in the press or not installed properly and the operator's technical level, on the tool life is also greatly affected.
(3) dies in the custody and maintenance of good and bad, and the use of lubricant condition also affects mold life.
6. Conclusion
In actual production, sheet metal dies for use, rare case of non-normal wear and tear. But when the die plate was found prone to irregular wear, we always study for the problems summarized. Because of a cold die, from the design, manufacture, assembly, commissioning and installation and use, all spent many hours, while the convex die, die material used, mostly high-quality alloy steel. Therefore, the die cost is relatively high. Therefore, in the production of understanding the factors that affect the die life and take the appropriate measures to guide the production of great practical significance.
(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。
冲压模具文献综述
文献综述1 引言冲压模具是冲压生产必不可少的工艺装备,是技术密集型产品。冲 压件的质量、生产效率以及生产成本等,与模具设计和制造有直接关系。模具设计与制造技术水平的高低,是衡量一个国家产品制造水平高低的重要标志之一,在很大程度上决定着产品的质量、效益和新产品的开发能力。2005 年—2008 年,我国冲压模具产品均出口较大幅度的增长。2009 年在全球高压锅炉管市场总需求量下降的情况下,国际采购商通过国内某网站采购冲压模具的数量仍逆势上扬。我国冲压模具的国际竞争力正在不断提升。根据我国海关统计资料显示,2005 年—2008 年,我国冲压模具产品均出口较大幅度的增长。2008 年,即使遭受全球金融危机,我们冲压模具出口金额达4.11 亿美元,比2007 年的3.26 亿美元增长了26 。另外,2009 年在全球高压锅炉管市场总需求量下降的情况下,国际采购商通过国内某网站采购冲压模具的数量仍逆势上扬。从全年采购情况来看,总体趋于上涨的趋势。其中,2009 年下半年回暖明显,国际采购商借此网站采购频次约616 频次,比上半年的288 频次增长了114%。虽然近年来我国模具行业发展迅速,但是离国内的需要和国际水平还有很大的差距。差距较大主要表现在:(1 )标准化 程度低。(2)模具制造精度低、周期长。解决这些问题主要体现在模具设计上,故改善模具设计的水平成为拉近差距的关键性问题。若要很好的设计出一副冲压模具,就必须去了解冲压模具的历史、现状以及发展趋势。2 主体2.1 冲压模具的发展历史我国考古发现,早在2000 多年前,我国已有冲压模具被用于制造铜器,证明了中国古代冲压成型和冲压模具方面的成就就在世界领先。1953 年,长春第一汽车制造厂在中国首次建立了冲模车间,该厂于1958 年开始制造汽车覆盖件模具。我国于20 世纪60 年代开始生产精冲模具。在走过了温长的发展道路之后,目前我国已形成了300 多亿元(未包括港、澳、台 的统计数字,下同)各类冲压模具的生产能力。浙江宁波和黄岩地区的“模具之乡”;广东一些大集团公司和迅速崛起的乡镇企业,科龙、美的、康佳等集团纷纷建立了自己的模具
中英文文献翻译-加工中心数控技术
加工中心数控技术 出处:数控加工中心的分类以及各自特点 出版社:化学工业出版社; 第1版 (2009年3月16日) 作者:徐衡、段晓旭 加工中心是典型的集高技术于一体的机械加工设备,它的发展代表了一个国家设计制造的水平也大大提高了劳动生产率,降低了劳动成本,改善了工人的工作环境,降低了工人的劳动强度。本文经过对不同运动方案和各部件的设计方案的定性分析比较确定该教立式加工中心的进给传动方案为:采用固定床身,电主轴通过安装座安装在床身导轨的滑座上,床身导轨采用滚动导轨,可以实现Y 方向的进给运动。由X-Y双向精密数控工作台带动工件完成X,Y两个方向的进给运动;X,Y,Z三个方向的进给运动均滚珠丝杠,并由交流伺服电机驱动。导轨、滚珠丝杠有相应的润滑、防护等装置。 加工中心(英文缩写为CNC 全称为Computerized Numerical Control):是带有刀库和自动换刀装置的一种高度自动化的多功能数控机床。在中国香港,台湾及广东一代也有很多人叫它电脑锣。 工件在加工中心上经一次装夹后,数字控制系统能控制机床按不同工序,自动选择和更换刀具,自动改变机床主轴转速、进给量和刀具相对工件的运动轨迹及其他辅助机能,依次完成工件几个面上多工序的加工。并且有多种换刀或选刀功能,从而使生产效率大大提高。 加工中心数控机床是一种装有计算机数字控制系统的机床,数控系统能够处理加工程序,控制机床完成各种动作。与普通机床相比,数控机床能够完成平面曲线和空间曲面的加工,加工精度和生产效率都比较高,因而应用日益广泛。 数控机床的组成 一般来说,数控机床由机械部分、数字控制计算机、伺服系统、PC控制部分、液压气压传动系统、冷却润滑和排泄装置组成。数控机床是由程序控制的,零件的编程工作是数控机床加工的重要组成部分。伺服系统是数控机床的驱动部分,计算机输出的控制命令是通过伺服系统产生坐标移动的。普通的立式加工中心有三个伺服电机,分别驱动纵向工作台、横向工作台、主轴箱沿X向、Y向、Z向运动。X、Y、Z是互相垂直的坐标轴,因而当机床三坐标联动时可以加工空
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
冲压模具的基本结构及工作原理
冲裁模具的基本结构及工作原理 一、冲裁模具按工序组合程度可分为:简单冲裁模、连续冲裁模、复合冲裁模。 (一)简单冲裁模即敞开模 1、定义:它是指在一次冲裁中只完成冲孔或落料的一个工序。 2、简单冲裁模按其导向方式可分为: (1)无导向单工序模它的特点是结构简单,重量轻、尺寸较小、模具制造容易、成本低廉。但冲模使用安装时麻烦,模具寿命低,冲栽件精度差,操作也不安全。 无导向简单冲模适用于精度要求不高、形状简单、批景小或试制的冲裁件。 (2)导板式简单冲裁模模精度高、寿命长、使用安装帧、操作安全,.但制造比较复杂。一般适用于形状较简单、尺寸不大的工件。 (3)导柱式简单冲裁模由于这模具准确可靠,能保证冲裁间隙的均匀,冲裁的工件精度较高、模具使用寿命 ,适合大批量生产。 (二)连续冲裁模(连续模) 1、连续冲裁模的定义:按一定的先后程序,在冲床的滑块的一次到和中,在模具的不同位置上,完成冲孔,落料导两个的上的冲后工序的冲裁模,又称及进模或跳步模。 2、连续冲裁模的定位原理可分为:导正销定位原理、侧刃定距原理 (三)复合冲裁模 1、复合冲裁模的定义:在部床滑块的一次行程中,在冲模的同一工位上同时完成内孔和外形两种的上工序的冲裁模。 2、复合冲裁模按结构可分为:正装式复合模、倒装式复合模 二、我们请看看这三种模具的比较表
无导向单工序模 冲模的上模部分由模、凸模组成,通过模柄安装在冲床滑块上。下模部分由卸料板、导尺、.凹模、下模座、定位板组成,通过下模座安装在冲床工作台上。上模与下模没有直接导向关系,靠冲床导轨导向。
导板式简单冲裁模 上模部分主要由模柄、上模板、垫板、击模固定板、击模组成。下模部分主要由下模板凹模、导尺、导板、回带式挡料销、托料板组成。这种模具的特点是上模通过.击模利用导板上的孔迸行导向,导板兼作卸料板。工作时击模始终不脱离导板.以保证模具导向精度。因而,要求使用的压力机行程不大于导板厚度。 这种冲模的工作过程是:条料沿托料板、导尺从右向左送科,首次冲裁时使用临时挡料销定位,首次冲裁以后再往前送料,搭边越过活动挡料销后再反向拉拽条料,使挡料销后端面抵住条料搭边进行定位,击模下行实现冲裁。
冲压 文献综述
文献综述 摘要:在科技技术日益发展的今天,冲压工艺得到不断的发展,在工业生产中的作用越来越重要。冲压技术在新技术、新工艺、新设备、新材料的涌现下,不断革新和发展。 关键词:冲压工艺、复合模、工艺设计 Abstract: In the increasing development of science and technol ogy today,the stamping process to get continuous dev elopment and plays more and more important role in the industrial produ ction.Stamping technology in the new technology, new technology, new equipment, the emergence of new mat erials, continuous innovation and development. Keywords: stamping process, compound die, process design 一.冲压的概念及其优点 1.1冲压的概念 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。 1.2冲压的优点 冷冲压和线切割相比较,具有生产效率高、加工成本低、材料利用率高、产品尺寸精度稳定、操作简单容易实现机械化和自动化等一系列有点,特别适合于大批量生产。 冲压模具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
机械类数控车床外文翻译外文文献英文文献车床.doc
Lathes Lathes are machine tools designed primarily to do turning, facing and boring, Very little turning is done on other types of machine tools, and none can do it with equal facility. Because lathes also can do drilling and reaming, their versatility permits several operations to be done with a single setup of the work piece. Consequently, more lathes of various types are used in manufacturing than any other machine tool. The essential components of a lathe are the bed, headstock assembly, tailstock assembly, and the leads crew and feed rod. The bed is the backbone of a lathe. It usually is made of well normalized or aged gray or nodular cast iron and provides s heavy, rigid frame on which all the other basic components are mounted. Two sets of parallel, longitudinal ways, inner and outer, are contained on the bed, usually on the upper side. Some makers use an inverted V-shape for all four ways, whereas others utilize one inverted V and one flat way in one or both sets, They are precision-machined to assure accuracy of alignment. On most modern lathes the way are surface-hardened to resist wear and abrasion, but precaution should be taken in operating a lathe to assure that the ways are not damaged. Any inaccuracy in them usually means that the accuracy of the entire lathe is destroyed. The headstock is mounted in a foxed position on the inner ways, usually at the left end of the bed. It provides a powered means of rotating the word at various speeds . Essentially, it consists of a hollow spindle, mounted in accurate bearings, and a set of transmission gears-similar to a truck transmission—through which the spindle can be rotated at a number of speeds. Most lathes provide from 8 to 18 speeds, usually in a geometric ratio, and on modern lathes all the speeds can be obtained merely by moving from two to four levers. An increasing trend is to provide a continuously variable speed range through electrical or mechanical drives. Because the accuracy of a lathe is greatly dependent on the spindle, it is of heavy construction and mounted in heavy bearings, usually preloaded tapered roller or ball types. The spindle has a hole extending through its length, through which long bar stock can be fed. The size of maximum size of bar stock that can be machined when the material must be fed through spindle. The tailsticd assembly consists, essentially, of three parts. A lower casting fits on the inner ways of the bed and can slide longitudinally thereon, with a means for clamping the entire assembly in any desired location, An upper casting fits on the lower one and can be moved transversely upon it, on some type of keyed ways, to permit aligning the assembly is the tailstock quill. This is a hollow steel cylinder, usually about 51 to 76mm(2to 3 inches) in diameter, that can be moved several inches longitudinally in and out of the upper casting by means of a hand wheel and screw. The size of a lathe is designated by two dimensions. The first is known as the swing. This is the maximum diameter of work that can be rotated on a lathe. It is approximately twice the distance between the line connecting the lathe centers and the nearest point on the ways, The second size dimension is the maximum distance between centers. The swing thus indicates the maximum work piece diameter that can be turned in the lathe, while the distance between centers indicates the maximum length of work piece that can be mounted between centers. Engine lathes are the type most frequently used in manufacturing. They are heavy-duty machine tools with all the components described previously and have power drive for all tool movements except on the compound rest. They commonly range in size from 305 to 610 mm(12 to 24 inches)swing and from 610 to 1219 mm(24 to 48 inches) center distances, but swings up to 1270 mm(50 inches) and center distances up
模具毕业设计外文翻译7081204
(此文档为word格式,下载后您可任意编辑修改!) 冷冲模具使用寿命的影响及对策 冲压模具概述 冲压模具--在冷冲压加工中,将材料(金属或非金属)加工成零件(或半成品)的一种特殊工艺装备,称为冷冲压模具(俗称冷冲模)。冲压--是在室温下,利用安装在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,从而获得所需零件的一种压力加工方法。 冲压模具的形式很多,一般可按以下几个主要特征分类: 1?根据工艺性质分类 (1)冲裁模沿封闭或敞开的轮廓线使材料产生分离的模具。如落料模、冲孔模、切断模、切口模、切边模、剖切模等。 (2)弯曲模使板料毛坯或其他坯料沿着直线(弯曲线)产生弯曲变形,从而获得一定角度和形状的工件的模具。 (3)拉深模是把板料毛坯制成开口空心件,或使空心件进一步改变形状和尺寸的模具。 (4)成形模是将毛坯或半成品工件按图凸、凹模的形状直接复制成形,而材料本身仅产生局部塑性变形的模具。如胀形模、缩口模、扩口模、起伏成形模、翻边模、整形模等。2?根据工序组合程度分类 (1)单工序模在压力机的一次行程中,只完成一道冲压工序的模具。 (2)复合模只有一个工位,在压力机的一次行程中,在同一工位上同时完成两道或两道以上冲压工序的模具。 (3)级进模(也称连续模) 在毛坯的送进方向上,具有两个或更多的工位,在压力机的一次行程中,在不同的工位上逐次完成两道或两道以上冲压工序的模具。 冲冷冲模全称为冷冲压模具。 冷冲压模具是一种应用于模具行业冷冲压模具及其配件所需高性能结构陶瓷材料的制备方法,高性能陶瓷模具及其配件材料由氧化锆、氧化钇粉中加铝、错元素构成,制备工艺是将氧化锆溶液、氧化钇溶液、氧化错溶液、氧化铝溶液按一定比例混合配成母液,滴入碳酸氢铵,采用共沉淀方法合成模具及其配件陶瓷材料所需的原材料,反应生成的沉淀经滤水、干燥,煅烧得到高性能陶瓷模具及其配件材料超微粉,再经过成型、烧结、精加工,便得到高性能陶瓷模具及其配件材料。本发明的优点是本发明制成的冷冲压模具及其配件使用寿命长,在冲压过程中未出现模具及其配件与冲压件产生粘结现象,冲压件表面光滑、无毛刺,完全可以替代传统高速钢、钨钢材料。 冷冲模具主要零件冷冲模具是冲压加工的主要工艺装备,冲压制件就是靠上、下模具的相对运动来完成的。 加工时由于上、下模具之间不断地分合,如果操作工人的手指不断进入或停留在模具闭合区,便会对其人身安全带来严重威胁。 1
冲压模具的基本结构及工作原理完整版
冲压模具的基本结构及 工作原理 Document serial number【NL89WT-NY98YT-NC8CB-NNUUT-NUT108】
冲裁模具的基本结构及工作原理 一、冲裁模具按工序组合程度可分为:简单冲裁模、连续冲裁模、复合冲裁 模。 (一)简单冲裁模即敞开模 ?1、定义:它是指在一次冲裁中只完成冲孔或落料的一个工序。 2、简单冲裁模按其导向方式可分为: (1)无导向单工序模它的特点是结构简单,重量轻、尺寸较小、模具制造容易、成本低廉。但冲模使用安装时麻烦,模具寿命低,冲栽件精度差,操作也不安全。 ?无导向简单冲模适用于精度要求不高、形状简单、批景小或试制的冲裁件。 (2)导板式简单冲裁模模精度高、寿命长、使用安装帧、操作安全,.但制造比较复杂。一般适用于形状较简单、尺寸不大的工件。 (3)导柱式简单冲裁模由于这模具准确可靠,能保证冲裁间隙的均匀,冲裁的工件精度较高、模具使用寿命长而且在冲床上安装使用方便,因此导柱式冲裁模是应用最广泛的一种冲模,适合大批量生产。 (二)连续冲裁模(连续模) ?1、连续冲裁模的定义:按一定的先后程序,在冲床的滑块的一次到和中,在模具的不同位置上,完成冲孔,落料导两个的上的冲后工序的冲裁模,又称及进模或跳步模。 2、连续冲裁模的定位原理可分为:导正销定位原理、侧刃定距原理 (三)复合冲裁模 ?1、复合冲裁模的定义:在部床滑块的一次行程中,在冲模的同一工位上同时完成内孔和外形两种的上工序的冲裁模。 2、复合冲裁模按结构可分为:正装式复合模、倒装式复合模 二、我们请看看这三种模具的比较表
无导向单工序模 冲模的上模部分由模、凸模组成,通过模柄安装在冲床滑块上。下模部分由卸料板、导尺、.凹模、下模座、定位板组成,通过下模座安装在冲床工作台上。上模与下模没有直接导向关系,靠冲床导轨导向。
开关过电片冲压模具设计(一)
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数控激光加工的技术水平以及应用外文文献翻译、中英文翻译
英文文献 Numerical control laser processing technology and application Pick to: as the main symbol of science and Technology development in the 20th century and the modern information society one of the pillars of optoelectronic Technology, Laser Technology, Laser Technology) and the development of Laser industry attaches great importance to by the advanced countries in the world. Numerical control and integrated the Laser and the optical system of the computer numerical control technology, advanced and high precision and automation of the workpiece positioning, the combination of formation, development and production of machining center has become a Laser machining, Laser Processing) is an important trend of development. Key words: CNC; Laser machining, Laser Processing); Level; application Before: laser is regarded as one of the most important scientific discoveries of the twentieth century, as soon as it was caused the great attention of materials scientists. In November 1971, gm pioneered the use of a 250 w CO2 laser to improve wear resistance materials using laser radiation test and research, and in 1974 successfully completed automobile redirector shell
冲压模具毕业设计——文献综述报告
浙江理工大学本科毕业设计(论文)文献综述报告
灯罩拉深成形分析及模具设计 1前言 全国数家家具企业在灯罩的加工中还是采用传统的以塑料位原材料的工艺进行生产,存在着“三低”(材料利用率低、设备效率低及生产率低)和“二高”(劳动强度高及制品成本高)等严重缺点。人们逐渐走上了健康、快乐、充满新意的现代化室内装潢,铝制灯罩代替塑料灯罩明显不断扩大,与塑料灯罩相比,铝制灯罩不仅是使用寿命长,还具有自身重量轻及外形色泽美观等特点。 目前,在我国已加入世界贸易组织的形势下,各种型号铝制灯罩的产量及价格不能满足灯具行业中剧烈竞争的要求,为了改革工艺,提高制品质量及生产效率,改善工人的劳动条件及降低制品成本,经研究表明,铝制灯罩采用冷挤压方法是一种行之有效的、具有高质量、高精度、高产量、低消耗、低投资及低成本等优点。该冷挤压技术的出现,对灯具行业的大批量生产是一场革命[1]。 现在冲压板材技术的广泛应用,对铝板进行拉伸成形为复杂板件以不是一个难题,关键在于设计过程中的优化,使其更加具有经济性。 2铝制品的广泛应用 铝板,顾名思义是指用铝材或铝合金材料制成的板型材料。或者说是由扁铝胚经加热、轧延及拉直或固溶时效热等过程制造而成的板型铝制品。目前铝板冲压形成的成品有各种类型:1、照明灯饰2、太阳能反射片3、建筑外观4、室内装潢:天花板,墙面等5、家具、橱柜6、电梯7、标牌、铭牌、箱包8、汽车内外装饰9、家用电器:冰箱、微波炉、音响设备等10、航空航天以及军事方面,比如中国目前的大飞机制造,神舟飞船系列,卫星等方面。 随着科学技术的发展,对压铸件产品的安全性和造型美观的要求不断提高。根据使用的不同,对零件的质量的评价有所不同。具体来说,若零件在力学性能、几何形状、尺寸精度、缩孔、气孔、粗糙度等方面满足使用要求,就是合格品;零件比图纸要求质量稍差些,但还能勉强使用,该零件就是次品。如果完全不符合使用要求,该零件就是废品。如何生产出高质量的零件,对节约材料、能源和
数控机床刀具设计论文中英文资料外文翻译文献综述
数控机床刀具设计 中英文资料 英语原文: Design Of Tool Machine Prop Research significance The original knife machine control procedures are designed individually, not used tool management system, features a single comparison, the knife only has to find the tool knife, knife positioning the shortest path, axis tool change, but does not support large-scale tool. Automatic knife in the knife election, in the computer memory knife-election on the basis of using the Siemens 840 D features, and the election procedures knife more concise, and complete the space Daotao View. ATC use the knife rapid completion of STEP-7 programming, and have been tested in practice. In the positioning of the knife, PLC controlled modular design method, which future production of similar machines will be very beneficial, it is easy to use its other machine. Automatic tool change systems will be faster growth, reduced tool change time, increase the positioning accuracy tool is an important means to help NC technology development. Tool and inventory components of modern production is an important link in the management, especially for large workshop D features, and the election procedures knife more concise, and complete the space Daotao View. ATC use the knife rapid completion of STEP-7 programming, and have been tested in practice. In the positioning of the knife, PLC controlled modular design method, which future production of similar machines will be very beneficial, it is easy to use its oth management. The traditional way of account management, and low efficiency, high error rate, and not sharing information and data, tools and the use of state can not track the life cycle, are unable to meet the current information management needs. With actual production, we have to establish a workshop tool for the three-dimensional tool storage system to meet the knife workshop with auxiliary storage and management needs. The system uses optimization technology, a large number of computer storage inventory information, timely, accurate, and comprehensive tool to reflect the inventory situation. The entire system uses a graphical interface, man-machine dialogue tips from the Chinese menu, select various functions can be realized and the importation of all kinds of information. Management system using online help function. Through the workshop management, network management and sharing of information. Have automated inventory management, warehousing management tool, a tool for the management and statistical functions. 1.System components and control structure The entire system, including the structure and electrical machinery control systems. 1.1.1Mechanical structure and working principle Tool from the stent, drive, drive system, Turret, shielding, control system, and electrical components. Support from the column, beam, the upper and lower guide Central track, and track support component.
数控机床改造中英文对照外文翻译文献
中英文对照外文翻译文献 (文档含英文原文和中文翻译) 原文: The Numerical Control Engine Bed Transforms Harvey B.M ackey First numerical control system development summary brief hi story and tendency. In 1946 the first electronic accounting machine was born the world,this indicated the humanity created has been possib le to strengthen and partially to replace the mental labor the tool. It with the humanity these which in the agricultu re, the industry society created only is strengthens the phy sical labor the tool to compare, got up the quantitive leap ,entered the information society for the humanity to lay the foundation. After 6 years, in 1952, computer technology applied to t he engine bed , the first numerical control engine bed were born in US. From this time on, the traditional engine bed has had the archery target change. Since nearly half centu ry, the numerical control system has experienced two stages and six generation of development.