鼠标上盖注塑模具设计【1模2腔斜顶顶出含SW三维及18张CAD图带外文翻译】
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1模2腔斜顶顶出含SW三维及18张CAD图带外文翻译
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鼠标上盖注塑模具设计【1模2腔斜顶顶出含SW三维及18张CAD图带外文翻译】,1模2腔斜顶顶出含SW三维及18张CAD图带外文翻译,鼠标,注塑,模具设计,顶顶,SW,三维,18,CAD,外文,翻译
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附录1:外文翻译注塑成型模具的新设计特点 减少废料1.介绍 过去一个世纪观察到塑料的迅速增长及其向所有市场的扩散。根据世界原材料消耗量的重量,塑料是最高的与其他旧材料相比铝,钢,橡胶,铜和锌,由其性能和降低生产成本1,2。注塑是塑料制品生产中最重要的工艺之一,约占三分之一的所有塑料通过注塑成型工艺转化成零件3。注塑成型的应用工艺在许多行业如包装,航空航天和建筑中显着增加建筑,汽车部件和家用物品1,3,4。注射部件的最终质量成型取决于材料特性,模具设计和工艺条件4-6。有三种注塑成型的基本操作。首先,塑料颗粒将转变成熔体。然后,熔融塑料将通过浇道,浇道和浇口系统在压力下注入模腔中最后,模具工具将被打开以将部件从空腔1,7,8中排出。 将评估注射部件的质量的参数之一是流道系统。 流道系统是一个浇口和浇口之间的连接线。流道系统的主要目的是转移熔融塑料浇口到门。在冷流道系统中,废料的主要来源是在浇注之后来自浇道和浇口系统的废料。因此,将评估不同的规则用于转轮系统设计,以证明转轮的重要性注塑成型中的系统如(a)较小的流道尺寸以最小化废料; (b)容易从模具中取出工具和从模制部件中移除; (c)用最小的凹痕和熔接线快速填充空腔9-12。将被认为是流道系统设计的基本参数的三个因素是横截面流道形状,直径和腔体布局9。转轮的横截面形状有7种系统为不同的应用9,10,13。最后,根据要求,不同类型的转轮交叉可以推荐14。 本文在考虑现有不同横截面形状之后的贡献是定义流道系统的椭圆几何形状作为有效横截面形状。我们的基本目标设计和使用本文定义的椭圆形横截面形状基本上是具有较小的流道尺寸以最小化废料,减少注射的总循环时间并且容易地从模具中弹出部件。除了我们的预期,检测到与工艺参数和新的相关的显着现象将在另一篇论文中讨论的转轮系统的几何形状。对于本文,将介绍流道系统的椭圆形或横截面形状的设计标准,并进行流道系统的圆形和半椭圆形之间的比较。作者最好的知识,在注塑中已经对工艺参数和材料进行了许多尝试特征,然而对于包括浇道,浇口和浇道的注射系统,存在一些出版物,但没有提及分析和模拟流道系统的椭圆形横截面形状。在本文中,简单介绍了转轮系统的结构,并对椭圆转轮的优点进行了评价。然后,注塑部件带浇道和浇口系统是通过SolidWorks设计的。为了得到准确的仿真结果,通过SolidWorks Plastic有限元法进行考虑。2.流道系统的横截面形状 流道系统的主要目的是通过浇口将熔融塑料从浇口转移到所有腔体。有流道系统的不同横截面形状和它们中的每一种具有不同的应用13。设计师应评估不同因素,为特定产品选择适当的流道系统形状。最多两板模具具有最高效率的流道系统的流行形状是圆形。适用于Threeplate工具,梯形和修改的梯形是最好的选择,如果跑步只有在制造一半的模板,但仍然是不能接受的,因为门不能放在一条线上中心流10。从具有矩形,正方形和多边形形状的腔中推出流道系统具有挑战性的。它是从不同横截面的现有拐角产生的。压降导致如果设计者没有完全填充空腔和高水平的热传递到模具壁将发生确定流道系统的适当横截面形状及其尺寸9,13,15。因此,不同可以考虑流道系统的横截面来调节熔融塑料的流速。最后,形状和通道的长度对于具有最佳流动和因此具有较少缺陷的最佳产品是重要的16。3.具有椭圆形横截面形状的转轮系统在注塑成型中,流道系统最常见的截面形状是圆形。在选择轮形状对于特定零件设计,应评估的三个主要元素是(a)较小的流道尺寸,以最小化废料; (b)更容易从模具中弹出; (c)用最小的凹痕快速填充空腔,焊接线和没有短射。 9-11。因此,考虑用于流道系统的新几何形状以最小化废料,以与门的中央流动流成直线,适当地填充一个或多个腔,并且弹出该部分容易从模具工具是本文的目标。最后,考虑椭圆形横截面形状转轮系统。为了得到具有最小塑料缺陷的注塑部件,进行准确的比较需要在转轮系统的圆形和椭圆形横截面形状之间。为了证明转子的椭圆形横截面形状的意义及其选择的原因在模具设计中的重要问题,评估其他几何形状的浇道系统是必要的。最好的几何截面来比较圆和椭圆是矩形和正方形。矩形是一种有不同的正方形宽度。根据不同的应用,将选择具有不同宽度比的矩形浇道系统。与正方形相比,矩形形状的优点之一是最小化流道系统的废料,并且更容易从模具中弹出,但是压降是将会发生的缺点之一减小方形的宽度13。圆和椭圆之间具有与正方形和矩形相同的结构。 D是圆的直径,a是长轴长度,b是椭圆的短轴长度。主轴长度固定,短轴长度具有不同的速率,这取决于不同的工业应用。虽然为减少废料,更容易将部件排出腔外,并且减少循环时间,最好减少次要的长度轴,这取决于零件设计。因此,b的不同比率取决于部件设计的许多因素,例如尺寸和厚度。减少废料,更容易将部件排出腔,循环时间减少和中心流动的浇口系统与圆形相比具有椭圆形横截面形状的优点。附录2:外文原文Available online at ScienceDirectProcedia Manufacturing 2 (2015) 241 2452nd International Materials, Industrial, and Manufacturing Engineering Conference, MIMEC2015, 4-6 February 2015, Bali IndonesiaNew Design Feature of Mold in Injection Molding For ScrapReductionMehdi Moayyediana,*Kazem Abharya, Romeo MarianaaUniversity of South Australia, School of Engineering, Mawson Lakes CampusAbstractThis paper presents a new cross sectional shape of runner system in the injection molding. The aim of the new geometry is to reduce the scrap and cycle time and also the easier ejection of runner system from mold tools. Short shot defect in the plastic part during the injection molding process is analyzed by SolidWorks Plastic to validate the new proposed geometry. Runner system with elliptical cross section is proposed with different ratio for two circular flat plates with thickness of 1mm. Finite Element Method (FEM) is employed in SolidWorks Plastic for simulation of injected part. Filling time, melt temperature, mold temperature, pressure holding time, and pure cooling time are chosen as input for the injection machine. The contribution of this study is the design of new geometry of cold runner system for reduction in scrap and cycle time and also easier ejection of runner system in injection molding. This study outcomes show no short shot defect with the new geometry. Also, it was shown the significant reduction in scarp and cooling time. 25% and 2.5% reduction in scrap and cooling time were achieved compared to round cross section, respectively. Reduction in contact surface of runner system with mold walls improved the easier ejection of runner system out of the cavity as well. 2015 The Authors. Published by ElsevierB.V. This is an open access article under the CC BY-NC-ND license.byB.V.(/licenses/by-nc-nd/4.0/).Selection and Peer-review under responsibility of the Scientific Committee of MIMEC2015.Selection and Peer-review under responsibility of the Scientific Committee of MIMEC2015Keywords:Injection molding process, Mold design, Runner geometry, Short shot defect1. IntroductionThe past century has observed the rapid increase of plastics and their proliferation into all markets. According to world consumption of raw materials by weight, plastic is the highest in comparison with other old materials such as aluminum, steel, rubber, copper, and zinc, resulting from its properties and lower production cost 1, 2. Injection* Mehdi Moayyedian. Tel.: +61883025561E-mail address: Mehdi.moayyedian.au2351-9789 2015 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (/licenses/by-nc-nd/4.0/).Selection and Peer-review under responsibility of the Scientific Committee of MIMEC2015 doi:10.1016/mfg.2015.07.042242Mehdi Moayyedian et al. / Procedia Manufacturing 2 (2015) 241 245molding is one of the most significant processes for manufacturing of plastic products and approximately one-third of all plastics are converted into parts using injection molding processes 3. The application of injection molding processes is increasing significantly in many industries like packaging, aerospace and aviation, building and construction, automotive parts and household articles 1, 3, 4 . the final quality of injected parts in injection molding depends on the material characteristics, the mold design and the process conditions 4-6. There are three fundamental operations in injection molding. First, the Plastic granules will be converted into a melt. Then, the molten plastic will be injected into the mold cavity or cavities under pressure via sprue, runner and gate systems and finally, the mold tools will be opened to eject the part from the cavities 1, 7, 8.One of the parameters which will assess the quality of injected part is Runner system. Runner system is a connection line between sprue and gates. The main purpose of runner system is to transfer the molten plastic from sprue to gates. In cold runner system, the main source of scrap is the scrap from runner and gate system after de-gating. Hence, different rules will be evaluated for runner system design to demonstrate the significance of runner systems in the injection molding such as (a) smaller runner size to minimize the scrap; (b) easy ejection from mold tools and removal from molded parts; (c) filling the cavities quickly with minimum sink marks and weld lines 9-12. Three factors which will be considered as fundamental parameters for runner system design are cross sectional shape of runner, the diameter and the cavity layout 9. There are 7 types of cross sectional shapes for runner systems for different applications 9, 10, 13. Finally, depending on the requirements, different types of runner cross sections can be recommended 14.The contribution of this paper after the consideration of existing different cross sectional shapes is to define the elliptical geometry for runner system as an effective cross sectional shape. Our fundamental objectives, for designing and using the elliptical cross sectional shape defined in this paper, are basically to have smaller runner size to minimize the scrap, to reduce the total cycle time of injection and to eject the part easily from the mold tools. Further than our anticipation, remarkable phenomena was detected which are related to process parameters and new geometry of runner system that will be discussed in another paper.For this paper, the design criteria of elliptical or cross sectional shape for runner system will be introduced, and a comparison between round shape and semi-elliptical shape of runner system will be conducted. To the authors best of knowledge, many attempts have been taken in injection molding for process parameters and material characteristics, however for injection system which includes runner, gate, and sprue, there are a few publications, but there is no reference to analyze and simulate the elliptical cross sectional shape of runner system. In this paper, the structure of runner system is simply introduced and advantages of elliptical runner will be evaluated. Then, the injected part with runner and gate system is designed via SolidWorks. For accurate result of simulation, FEM is considered via SolidWorks Plastic.2. Cross sectional shape of runner systemThe main purpose of runner system is to transfer the molten plastic from sprue to all cavities via gate. There are different cross sectional shapes of runner systems and each of them have different applications 13. A designer should evaluate different factors for selecting the right shape of runner system for a specific product. The most popular shape of runner system which has the highest efficiency for two plates mold tools is round shape. For Three-plate tools, the trapezoidal and modified trapezoidal are the best options if the runner is to be manufactured only in one half of the mold plates, but still they are not acceptable because the gate cannot be positioned in line with the central flow stream 10. Ejecting a runner system from the cavity with rectangular, square, and polygon shape is challenging. It has resulted from the existing corners of different cross sections. Pressure drop which leads to incomplete filling of cavities and high level of heat transfer to the mold walls will occur if a designer does not determine the appropriate cross sectional shape of runner system and their dimensions9, 13, 15. Hence, different cross-sections of runner system can be considered to regulate the flow rate of molten plastic. Finally, the shape and the length of the channel are significant to have an optimal flow and therefore the best product with less defects 16.3. Runner system with elliptical cross sectional shape8In injection molding, the most common cross section shape for runner system is round shape. In selecting the round shape for specific part design, three main elements which should be evaluated are (a) smaller runner size toMehdi Moayyedian et al. / Procedia Manufacturing 2 (2015) 241 245243minimize the scrap; (b) easier ejection from mold tools; (c) filling the cavity quickly with minimum sink marks, weld lines and no short shot. 9-11. Hence, consideration of new geometry for runner system to minimize the scrap, to be positioned in line with the central flow stream of gate, fill the cavity or cavities properly, and eject the part easily from mold tools is the goal of this paper. Finally, elliptical cross sectional shape is taken into account for runner system. In order to yield an injection-molded part with minimal plastic defects, an accurate comparison between round and elliptical cross sectional shape of runner system is necessary.To demonstrate the significance of elliptical cross sectional shape of runner and the reason it is selected as a significant issue in mold design, evaluation of other geometries of runner system is necessary. The best geometry of cross section to compare the circle and ellipse is rectangle and square. Rectangle is a kind of square with different width. According to different applications, rectangular runner system with different ratios of width will be chosen. One of the advantages of rectangular shape in comparison with square is in minimizing the scrap of runner system, and easier ejection from mold tools, but pressure drop is one of the disadvantages which will be happen by decreasing the width of the square 13.The comparison between circle and ellipse has the same structure with square and rectangle. D is the diameter of circle, a is major axis length, and b is minor axis length of ellipse. Major axis length is fixed and the minor axis length has different rates which depend on different industrial applications. Although for reducing the scrap, easier ejection of part out of cavity, and reduction in cycle time it is better to reduce the length of the minor axis, it depends to the part design. Hence, different ratio of b depends on many factors of part design such as size and thickness. Reduction in scrap, easier ejection of part out of cavity, cycle time reduction, and central flow stream of gate with runner system are the advantages of elliptical cross sectional shape in comparison with round shape.4. SimulationAfter designing two circular parts as two samples for this application, the next step is to simulate the part using SolidWorks Plastic. For simulation part, defining the injection system is necessary. Hence, designing the sprue, runner with b=0.7a and gate system is considered as shown in Fig. 1a. To make sure that the analysis results are accurate, Finite Element Analysis (FEM) will play a significant role in simulation as shown in Fig. 1b. According to the geometry of samples, the triangle shape of surface meshes for finite element analysis will be chosen. The selected material for this simulation is polypropylene (P.P). Different sizes were evaluated for the surface mesh and finally surface mesh size of 1mm are chosen for injected part but for the injection system which include sprue, runner and gate, smaller sizes were considered, resulting from the sensitivity of injection system as a critical area of this simulation. Hence, surface mesh size of 0.3mm for sprue and runner and 0.2mm for gate are selected for both elliptical and round cross sectional shape of runner in SolidWorks Plastic. The runner and gate length in total is 28mm for two circular parts with diameter of 100mm. Also, the sprue has 60 mm length with draft angle 1.5.(a)(b)Fig.1 (a) Finalized part with sprue, runner and gate system; (b) Finite element analysis of finalized partThe next step is to define the process parameters. Based on the selected materials and injection machine, filling time is 0.59 sec , melt temperature is 230C, mold temperature is 50C, pressure holding time is 2.04 sec, and pure cooling time is 3.9 sec. The geometry and size of the injection system are evaluated as significant criteria whose effect the operation cycle time, cooling time, different defects such as sink mark and short shot. The main factors to check if the new runner system is acceptable in terms of new geometry and size, are ease of fill, filling time analysis, sink mark analysis, and injection pressure at the end of injection. As shown in Fig. 2a, ease of fill for elliptical cross section is at green area which is in the most acceptable level. Another common defect which is related to gate and runner dimension and geometry is sink marks. A sink mark is the depression on the surface of244Mehdi Moayyedian et al. / Procedia Manufacturing 2 (2015) 241 245injection molded plastic which occur during the cooling process 17. As shown in Fig. 2b, there is no sink marks for the injected part except for the sprue which is not in a critical region and also the surface quality of sprue and runner are not significant because they consider as scrap at the end of the injection. Therefore the surface quality of injected part for both round and elliptical cross section is the same.(a)(b)Fig. 2 (a) Easy filling of injected part with elliptical cross; (b) Sinks marks simulation for elliptical cross sectional shape of runner systemOne of the common defects in injection molding is short shot. Short shot will occur far from the gate if there are long flow distances or on thin walls 17. According to the simulation result, this part can be successfully filled and even the filling time for elliptical cross sectional shape of runner is lower than that of for the round cross sectional shape as shown in Fig. 3.(a)(b)Fig. 3 Filling time for (a) Elliptical cross section and (b) Round cross sectionAnother parameter to make sure that there is no short shot for the injected part is to evaluate the flow front central temperature which represents the flow front temperature at every region of injected part. SolidWorks Plastic recently added this module which is suitable for short shot analysis. As shown in Fig. 4, based on SolidWorks Plastic simulation, the flow front central temperature in every region of the injected part is 230.15C for both elliptical cross sectional shape of runner and round cross sectional shape. It means that the possibility of short shot in the cavities is low for both geometries.(a)(b)Fig. 4 Flow front central temperature for (a) Elliptical cross section and (b) Round cross sectionOne of the most significant parameter which is necessary to evaluate for determination of the right size of runner and gate system is the maximum inlet pressure. This part can be successfully filled with injection pressure 42.1 MPa. The injection pressure is less than 66% of the maximum injection pressure limit which is satisfactory as shown in Fig. 5. The injection pressure for round cross section is 39.655 MPa which is close to elliptical crossMehdi Moayyedian et al. / Procedia Manufacturing 2 (2015) 241 245245section.50Pressure4030 MaximumInlet(Mpa)Round2010Elliptical000.51Time(Sec)Fig. 5 Injection pressure for both round and elliptical cross section shape of runner system5. ConclusionThe main reason of scrap in cold runner system of injection molding is the feeding system which consists of sprue, runner and gate system. Runner has different cross sections for different applications. In this study, new geometry of runner system with elliptical cross section in comparison with round cross section was successfully developed for injecting two circular plates with thickness 1mm. filling time, melt temperature; mold temperature; pressure holding time and pure cooling time are evaluated as process parameters.Elliptical cross section in comparison with round cross section which has the highest efficiency among current geometries of cross section has 25% reduction in scrap and 2.5% in cooling time for injected parts. The result from simulation demonstrates that the elliptical cross sectional shape of runner is an effective geometry to reduce the scrap and total cycle time and also the easy ejection of molded part out of the cavity. It demonstrates the robustness of new geometry of runner system. Further than our anticipation, remarkable phenomena was detected which is related to process parameters and new geometry of runner system that will be discussed in another paper. The experimental set up will be conducted to justify the simulation result.References1. Zhou, H., Computer Modeling For Injection Molding. 2013: A John Wiley & Sons, Inc., Publication.2. Salimi, A., et al.
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