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50 ways to cut yourinjection molding cycle time. 缩短注射周期的50种方法 By JosephOgando
Time ismoney. Opportunities to save some of both are often overlooked. Try out thesetips from experts who spend their time trimming the fat off molding cycles. 时间就是金钱。其实节约时间与金钱的机会无所不在,但是常常为我们所忽略。请试试以下观点,看看专家们在注射过程中如何节约时间的。
Whatmolder doesn't want to reduce cycle times? No, not the kind of shortcuts thatsacrifice part quality. We're talking about cycle-time improvements that feedyour bottom line, not your grinder. 'Just about anyone can cut their cycletimes. The real trick is doing so without ruining the part,' says DonnSeres, president of Injection Molding Industries, a vendor of mold-cooling systemsin Lake Orion, Mich. 什么样的成型商不愿意缩短循环周期?不,并不是以牺牲产品质量为代价去缩短成型周期。我们所说的是通过改进,使循环周期达到最小,而不是像现在磨洋工的方法。注射工业公司是一家位于Lake Orion,Mich的销售模具冷却系统的公司,该公司总裁Donn Seres说:“我们缩短循环周期,真正的诀窍在于并不需要对制件有任何的伤害。”
Withthat challenge in mind, take a look at the following collection of time-andcost-saving tips. It was put together with the help of technical-serviceprofessionals and auxiliary-equipment vendors who spend much of their timecoming up with the kind of cycle-time strategies that can help your processfly. 记住这样一点,然后请看一看下边这样一些专家的忠告。这是一些技术服务专家和辅助设备销售商花费大量时间和精力对各种不同的成型周期战略进行研究总结出来的,我们相信这将有助于您的加工业突飞猛进。
Theirrecommendations are organized by topic areas: the mold, the press, thematerial, and the auxiliaries, among others. When looking for savings, keep inmind this rule of thumb: injection molding cycle times are 5% injection, 80%cooling, and 15% ejection. 这些忠告共分为五部分:模具、注射机、材料、辅助设备、其他。在看以下条目之前,请记住这样一条准则:注射成型周期是由5%注射、80%冷却和15%射胶组成的。
Much ofwhat the experts offer is common sense, pure and simple. But there's probably anugget or two of gold here for even the most experienced molders. Anyone canoccasionally overlook some of the basics. 大多数专家的观点都是最普通,最简洁的。但是其中也不乏几条堪称为金科玉律的观点,甚至对经验丰富的注射成型人员也是如此。同样,任何人也都可能忽略了一些最基本的原则。
Keep inmind that most of these tips work' best as part of a comprehensive strategy. 'Youcan never really separate the contributing factors of cycle time. They arealways related,' explains Blair Souder, manager of injection molding at GEPlastics' Polymer Process Development Center in Pittsfield, Mass. GE塑料聚合物加工开发中心注射成型经理Blair Souder解释说:“你决不能脱离注射周期相关的一些因素而单独谈某一条忠告如何如何。各种影响因素常常是相关的。”因此,我们应该记住,这些观点大多数都是整体战略非常有效的一部分。
In fact,some of the items here don't have much of a direct influence on cycle time -but their indirect influence can be helpful or harmful. To take a commonlycited example, some molders compensate for improperly dried resin by addingexcess heat to the process, which in turn extends cycle times. Or considerscrew selection: Rich Lair, product support manager at Hoechst TechnicalPolymers in Summit, N.J., points out that molders may try to overcome poormixing by increasing barrel heat or backpressure, both of which can needlesslylengthen cycle times. 'Many molders stick with the general-purpose screwall the time, but they may need to choose the right screw for a given application,'says Lair. 事实上,有一些建议对循环周期并没有直接的影响,但是这些间接因素对缩短成型周期可能有利也可能有害。我们引用一个常见的例子,有些成型商为了补偿物料干燥的不足,在加工时额外的增加热量,从而导致成型周期加长。再如,螺杆的选择,Hoechst TechnicalPolymers产品支持经理Rich Lair指出,成型商常常通过增加螺筒温度或背压来改善混合的不足,但是这两种方法常常都会无谓地延长注射周期,他说:“许多成型加工商不管在什么时候都使用普通螺杆,对于某些特定的用途他们可能需要选择正确的螺杆。“
Giventhe vast differences among molding applications, every tip here won't applyacross the board, but the bulk of them can make a difference in just about anyprocess. John Morine, director of engineering for M.A. Hanna ResinDistribution, Lemont, Ill., believes that the biggest and most accessiblecycle-time reductions come from improvements in mold cooling, barrel heating,and resin drying, as well as from holding to proper temperature settings.'Making sure you have these things right can solve most of yourproblems,' he advises. 不同的注塑过程有许多区别,并非每一条建议都可以直接应用,但是其中大多数建议在任何加工过程中都可以有不同的应用。M. A. Hanna 树脂部工程经理John Morine认为,缩短注射成型周期最易于实现的途径来源于模具冷却、螺筒加热和树脂干燥系统的改进以及保持正确的温度设置,“确保这些部分的正确设置可以解决大多数的注射周期问题。”
Afterexhausting the quick fixes, you might still find yourself up against thecycle-time wall. You might then be ready to try more involved and costlymeasures to achieve savings. These factors come into play when you build a newtool or retrofit an old one. Brand-new or rebuilt molding machines and upgradedauxiliary equipment can also remedy long cycles in many cases. 在筋疲力尽的快速检修过后,你可能发现还是要面对成型周期的问题,这时你终于下定决心还是做一些复杂而昂贵的测量以节约注射周期。这些因素当你借助一种新的工具时它们又会发生新的变化。采用新型号或更换一台注射机,升级辅助设备在很多情况下都能解决成型周期过长的问题。
Onceyou've identified and eliminated all the big time wasters in your process,there are still incremental gains to be had by focusing on material selection,screw choice, and process optimization. 'That last tenth of a percent ofimprovement will be the toughest,' notes Morine. 当你识别并消除了加工过程中浪费时间的所有主要因素后,继续关注物料选择、螺杆选择以及加工过程的优化,你还可以有新的收获。Morine说:“最后10%的改进将是最艰苦的。”
KEEPING COOL 保持冷却 1. Loweryour mold temperature if you can. All the technical-service professionalsinterviewed tell of instances where they found mold temperatures higher thanwere needed to provide good physical properties. 1. 如果可以,尽量采用较低的模具温度。所有的技术服务专家都举过这样的例子:即采用较高的模具温度(高于实际需要温度)可以达到较好的物理性能。
2. Whenprocessing amorphous resins, experiment with colder molds, says Rich Lair ofHoechst. Users of crystalline resins, on the other hand, need to be aware thatthey could reduce crystallinity - and part properties - if the mold temperaturedrops too much. Citing nylon as an example, Lair says, 'We recommend atemperature of 150-170 F, but there are cases where molders can get by with acooler mold if they're not concerned about losing crystallinity.' 2. Rich Lair 用较冷的模具进行无定形树脂的成型实验。而结晶型树脂则不同,若模腔温度太低,可能减少晶化,降低制件性能。他说:“对于尼龙加工,我们推荐的模腔温度为150-170F,但是当有时减少晶化对制品质量影响不大时也可以选用较低的模具温度。”
3. Newmetallocene poly-olefin plastomers and elastomers run well at colder-than-usualtemperatures, according to Wendy Hoenig, a research leader at Dow Plastics,Midland, Mich. She says a cool mold can cut cycle times by 25-30% with theseresins. The target mold temperature, she says, is 50 F on both core and cavityside - as opposed to the 80 F you might expect for standard polyethylenes (seePT, April '95, p. 60). 3. 根据Dow塑料公司Wendy Hoenig的研究,新的茂金属塑性体和弹性体可以在比通常的成型温度低的模具内成型良好。她说,对于这些材料,采用冷模具注射周期可以缩短25-30%。芯型和型腔的温度都可以采用50F,而不是标准聚乙烯的80F。
4.Address cooling early in the tool-design process. People too often think ofcooling after the fact,' warns Seres. You may want to perform a coolinganalysis with one of the mold-filling simulation software packages. 4. Sere提醒说,人们经常在发现问题后才考虑冷却问题,这一问题应该在机械设计阶段就及早考虑。你可能希望利用一套充模软件进行一次冷却分析。
5. Makesure you have a high enough coolant flow velocity in your mold. The coefficientof heat transfer can be 10-20 times greater when coolant velocity is highenough to generate turbulent rather than laminar flow, according to dataprovided by AEC, Inc., Wood Dale, Ill. The required velocity to achieveturbulent flow is a function of channel diameter and coolant viscosity. Sinceantifreeze raises cooling-water viscosity, it may be counterproductive to runyour molds colder at the expense of lower flow rate. Cooling-equipmentsuppliers can help you determine whether you have sufficient pumping capacity. 5. 确保模具内的冷却液有足够高的流动速率。根据AEC 公司提供的数据,若冷却液的流动速度足够大产生紊流时,传热系数要比层流时高10-20倍。达到紊流需要的速度是冷却通道直径和冷却液粘度的函数。由于防冻剂可以提高冷却水的粘度,对于在较低的流动速率下想要获得较低的模具温度是不利的。从冷却系统供应商可以了解冷却系统的功率是否足够。
6. Makesure you have enough coolant flow and that it is directed to the right place.'Why overcool a thin part of the mold when you have a heavy boss with nowater going to it?' asks Donn Seres of Injection Molding Industries,pointing out a common mistake. 6. 确保在真正需要冷却的位置得到足够的冷却。Donn Seres指出了人们最常见的一个错误:“为什么要给制件较薄的地方过渡冷却,而制件相当厚的部位一点冷却水也没有?”
7. Don'tforget to bring water to slides, lifters, or any area of the mold that comes incontact with the melt. 'You're missing the boat if you leave any uncooledareas in the path of the melt,' says Seres. 7. 不要忘记冷却型腔侧壁、顶出附近以及其他任何与熔体接触的部位。“如果在熔体的流动路径上有一些部位没有冷却系统,实际上你是失去了你的小船”,Seres说。
8. Bigbaffle holes are best. 'People have a tendency to make their baffle holesand flow holes the same size,' says Seres. That arrangement will result ina pressure loss and diminished cooling capacity. Seres says a good rule ofthumb is to make the baffle hole 40% larger than the flow hole in order to getthe same flow rates throughout the system. 8. 最好选用大的折流孔。“人们习惯于把折流孔和流道加工成同样的尺寸”,Seres说,这种设计会造成压力损失,降低冷却能力,把折流孔设计成比流道孔大40%是一种非常好的设计准则,以保证整个系统具有相同的冷却速率。
9. Treatyour cooling water to prevent scale formation in molds and cooling systems.Just 0.006-in.-thick scale can decrease heat-transfer efficiency by 30%, saysan AEC source (see PT, Oct. '93, p. 54). 9. 做好冷却水的处理,避免模具与冷却系统内形成水垢。根据AEC公司提供的数据,仅仅0.006in厚的水垢就可能使传热效率降低30%。
10. Bewareof a low pressure differential between supply and return in the cooling system.'Supplemental devices,' says Seres, 'can mess up the returnpressure.' He says this flow-inhibiting condition typically occurs whenbeside-the-press mold chillers or heaters are temporarily turned off but stillconnected: They can dump high-pressure water back into the water circuit. Sereshas seen extreme cases where 'the water was almost flowingbackwards.' A good rule of thumb, he adds, is at least 5 psi differentialpressure, though he recommends 20-30 psi or more. 10. 注意冷却系统进水和回水之间应有一个很小的压差。Seres说,“补压设备,可能造成回压紊乱。”他说这种流动过程中禁止发生的现象,当临时关闭模温机却仍然与系统连接时就可能发生。这可能导致高压循环水反向流会系统。Seres曾经看到过这种现象,“水几乎在往回流了”他最后给出了一个重要的规则,至少应保持5psi的压差,而他推荐的压差为20-30psi或更多。
11. Molddehumidification is one way to get to a lower mold temperature withoutsuffering moisture condensation that can mar your parts. Dehumidificationsystems pave the way to cycle-time cuts of as much as 30%, according to MarioRanieri of Cargocaire, a maker of desiccant dehumidifiers in Amesbury, Mass.(see PT, July '96, p. 100). 11. 保持模具干燥是采用较低的模具温度并避免湿气压缩造成制件缺陷的有效途径。Cargocaire公司(位于Amesbury的一家除湿干燥器制造商))Mario Ranieri提供三资料,除湿系统可以使成型周期缩短30%。
12.Consider pulsed cooling, which can rapidly switch between heating and coolingcycles. Seres and others argue that it gives you the best of both worlds as faras cycle-time goes: Faster heat extraction reportedly lets you run molds hotterso they fill faster (see PT, Oct. '95, p. 49). 12. 考虑脉冲形式冷却,以便实现加热和冷却之间的快速切换。Seres和其他一些研究人员给出了实现循环时间节约最好的两个方面:较快的热量排出可以实现在较热的模具中实现快速充模。
13. Forbetter cooling, replace tool steel with a more thermally conductive alloy. Nowthat wrought, machinable beryllium copper comes in 20 and 30 HRC, it offers thesame hardness as P-20 tool steel while providing five times the thermalconductivity. For example, the cycle time for a minivan radiator end tank fellfrom 50 to 35 sec when P-20 mold cores were replaced with Moldmax BeCu fromBrush Wellman Inc., Cleveland. That time savings occurred even though the moldtemperature was raised by 40 [degrees] F, reports Brush Wellman product managerScott Smyers. 13. 为了得到较好的冷却效果,用导热更好的合金钢代替工具钢。现在精炼的铍铜合金硬度可以达到HRC20-30,可以达到与P-20工具钢同样的硬度,可是热传导率是该工具钢的5倍。例如,当成型小货车散热器尾箱时,若用Brush Wellman公司提供的Moldmax BeCu代替P-20钢型芯,成型周期可以由50s缩短到35s。根据Brush Wellman公司产品部经理Scott Smyers的报告,即使模具温度升高40度,同样会缩短成型周期。
14. Makesure your water lines are as close as possible to the areas of greatest heatconcentration. Smyers cites a cup as a simple example: 'At the interfacebetween the base and side wall (tip and core), the thermal energy is threetimes more concentrated than in other sections of the cup,' he says. 14. 确保冷却水道尽可能接近热量最集中的区域、Smyers以一个杯子为例,他说:“在杯子的底部和侧壁(尖部和中心)的结合处,热量最为集中,可以达到其他部位的3倍。”
15.High-tech cooling systems and highly conductive alloys can provide even morebenefit when used together. 'Combine pulsed cooling with beryllium-copperinserts, and you have an animal of a tool,' says Smyers. 15. 当同时使用高技术的冷却系统和高传导率合金时效果更好。Smyres说:“同时使用脉冲式冷却系统和铍铜插件,你仿佛拥有了一个活的工具。”
16.Beware of thick sprues. 'What controls cycle time? Often 50% of it is thesprue,' notes GE's Souder. 'You end up waiting for the sprue tocool.' Switching to hot runners is one way to avoid the problem. Anotheris to select a higher-flow resin or optimize sprue design beforehand with amold-filling analysis. 16. 注意厚重的浇口。GE公司Souder说:“真正控制循环周期的是什么?有50%的时候是浇口,最后的工序常常是等待浇口的冷却。“使用热流道是解决这一问题的一种方法,另一种可选的方法是选择高流动性树脂或预先使用一套充模软件对浇口进行优化设计。 SAVINGS AT THE PRESS 注射过程的节时 17.Don't run your screw recovery faster than you have to. Rick Shaffer, productmanager at Van Dorn Demag Corp. in Strongsville, Ohio, has seen cases whereinjection molders rev up their screws to speed recovery, but that adds enoughshear heat to extend cooling times. He recalls an example where the molder hada 10-sec cooling time and a 3.5-sec recovery time. 'That put too much heatinto the resin more quickly than was needed for a good-quality melt,'Shaffer says. 'By bringing recovery time in line with the cooling time,you can reduce the overall cycle slightly,' he advises. 17. 不要用高于需要的速度退回螺杆。VanDornDemarg公司产品经理RickShaffer看到过有注射成型操作人员提升复位时螺杆转速的现象,但这样会增加剪切热,从而导致冷却时间延长。他提到一个这样的例子,即成型过程中冷却时间占10s,而恢复时间则只有3.5s,“由于转速过高导致树脂温升过快而超过保证制品质量必须的熔融温度。保持恢复时间与冷却时间同步,就可以使循环周期稍微缩短。” 高分子论坛塑料微信群,请加群主:18666186648
18. Pickthe right screw for your molding job. 'You want a screw that will give youthe melt quality you need at the lowest temperature. If you don't put in heatin the first place, you won't have to take it out later,' says Schaffer.For polyolefins, he says, a long screw (25:1 L/D) with a generous transitionzone usually works best. Crystalline resins call for a screw with about a 4:1compression zone, according to Hoechst's Lair. 18. 根据你的注射工作选择合适的螺杆。Schaffer说:“你应该选择一条可以让你在最低的加工温度下保持良好的熔体质量的螺杆。如果你不给熔体太多的热量,你也就没有必要把多余的热量取走。”他说,对于聚烯烃,选择输送区较大的大长径比螺杆最好(长径比25:1)。根据Hoechst公司Lair的说法,对结晶型树脂最好选用压缩段长径比为4:1的螺杆。
19. Payclose attention to temperature setpoints on the feed throat and adjacent barrelzone. Shaffer has seen molders forced to extend cycle times just to compensatefor small temperature fluctuations in the rear barrel zones. 19. 密切注意加料段及相邻区的温度设定。Shaffer看到过成型工为了补偿后部微小的温度波动而延长循环周期的现象。
20. Getyour machines to do two things at once. AC servo screw drives are one way, saysShaffer. 'It makes it easier for the machine to plasticate while it'sinjecting. That can eliminate a chunk of the recovery time.' An upgradedhydraulic package on older machines can accomplish the same thing, adds SteveSchroeder, president of Epco in Toledo, Ohio. 'Older machines can gain theability to perform parallel functions with an extra pump and largermotor,' he says. 20. 保证机器同时做两件事情。采用AC伺服电机驱动螺杆就是一种方法,Shaffer介绍说,“采用这一方法易于在注射的同时实现物料的塑化,从而可以减少恢复时间的积聚。”Epco公司总裁Steve Schroeder补充说,对于老的机型可以采用升级的压力包达成同样的目的,“对于旧机型可以采用附加泵与更换较大的电机实现并行功能。”
21.Watch out for oil-wasting secondary functions and hydraulic-systeminefficiencies. 'The more efficient your hydraulic system, the more usablehorsepower you can extract from your machine,' says Pierre Pinet, servicemanager for Husky Injection Molding Systems Ltd., Bolton, Ont. He explains thatsecondary hydraulic functions - like core pulls - often rely on relief valvesto accommodate different system pressures. He recalls an industrial containerapplication where cycle-time reductions were thwarted by very large mold coresthat were stealing oil from the system. A better strategy, says Ian Crookstonof Husky's control group, is to run all auxiliary functions at system pressure,rather than at lower pressure with higher flow volume. 21. 注意利用油压工作的二次功能部件和液压系统的无效工作。Husky注射系统工程公司服务经理Pierre Piner说,“液压系统工作越有效,你的机器的功率越能充分发挥。”关于二次功能部件,如芯型的抽出常常依赖于减压阀提供的不同的系统压力。他谈到这样一件事,有一次注射机用于成型一个大的工业容器,注射周期缩短遇到的最大障碍是由于模具型芯过大而使系统压力无法保证。Husky控制系统公司Ian Crookston说,较好的方法是,利用整个系统压力驱动所用的辅助功能,而不是用较低的压力,使用高流率来实现。 高分子论坛塑料微信群,请加群主:18666186648
22.Control retrofits, such as motor-speed controllers, can cut cycle times whilesaving energy, too. When custom molder Summit Plastic Solutions, Inc., addedmotor-speed controllers to its presses in Florence, Mass., cycle times on somelarge older presses dropped by as much as 5%. Energy costs also dropped 45-50%(see PT, Jan. '95, p. 15). 22. 采用新的控制方式,如电机速度控制器,在节能的同时还可以缩短循环周期。Summit Plastic Solutions公司在其液压马达上添加速度控制器后,在一些较大型的设备上成型周期缩短了5%,而能耗也同时降低了45-50%。
23.Don't inject too slowly. This is one of the most common ways in which moldersrob themselves of productivity, says Denes Hunkar, CEO of Hunkar LaboratoriesInc., Cincinnati. Most of the time, he says, the first 30-40% ofthe injection stroke can be accelerated to the limit of the machine'shydraulics. Fast injection reduces the melt viscosity and keeps the meltchannels wide open. The overall speed benefit could be 20%, Hunkar says. Justmake sure your controls allow you to back off the speed in the last 10-15% ofstroke so as to prevent flashing. 23. 不要注射太慢。Cincinnati Hunkar实验室CEO DenesHunkar说,这是成型中最常见的影响注射速度的方法之一。他说,初始30-40%的射胶量可以通过调整注射机液压系统加速注射。快速注射注射可以降低熔体粘度并保证熔体槽充分畅通。同时整个周期可以缩短20%,你只是需要注意最后10-15%的射胶量必须使注射速度慢下来以防止飞边。
24. Makesure your hold time isn't too long. Hunkar says this is the number-one reasonfor excessive cycle times that he encounters in the field. Most molders don'tknow how long to set their hold time, Hunkar says, but a cavity-pressure sensorcan remedy that problem. The sensor will show you the drop-off in cavitypressure that occurs when the gate has frozen off. If your hol d time extendspast the gate-freeze point, 'you'll be packing out your sprue, not thepart,' cautions GE's Souder. 24. 确保保压时间不要太长。Hunkar说,保压时间过长是他所见过的循环周期过长最主要的原因。许多成型人员不知道该设定多长的保压时间,采用型腔压力传感器可以解决这一问题。当浇口固化后,传感器会测量到型腔内的压力降低。GE公司Souder提醒说,如果保压时间过长,超过浇口的固化点,你就是在包装你的流道,而不是制件了。
25.Eliminate unneeded ejector strokes. One way to do this is to use machine visionto make sure the parts have left the mold. These devices can detect whether allparts are ejected in a fraction of a second - faster than the parts can fallclear of the mold (see PT, Feb. '96, p. 50). 25. 减少不必要的顶出操作。为了达到这一目的可采用电子眼以确保制件已充分脱模。采用这种装置可以在极短的时间里检查出是否所有制件均以完全射出,甚至比制件完全从模具中脱离出来的速度还要快。
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