Specialized in manufacturing compensators, expansion joints, baffle doors
A comprehensive scientific and technological enterprise integrating design and development, production, product sales, installation and debugging
Specialized in the production of metal compensator, non-metal compensator, baffle door equipment for 18 years
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Specialized in manufacturing a variety of high-quality industrial equipment to meet your diverse needs
Metal rectangular expansion joint
Product introduction of metal rectangular expansion jointProduct Structure and C...
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Universal corrugated expansion joint
The universal corrugated expansion joint is a kind of flexible compensation elem...
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Single axial expansion joint
I. Structural compositionThe single axial expansion joint is mainly composed of ...
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About Us
Nantong Chuangxin Machinery Co., Ltd. is located in the plain of central Suzhou, close to Nantong and Ningjingyan Expressway with convenient transportation, and less than 2 hours drive from Shanghai, Suzhou, Wuxi, Nanjing and other large and medium-sized cities.
The company is a comprehensive scientific and technological enterprise integrating design and development, production, product sales, installation and debugging. The company has successively communicated and cooperated with the National Cement Research Institute and the general contractor!
The company's main products are metal compensator (expansion joint), non-metal compensator (expansion joint), baffle door and other series products, providing excellent and cheap complete sets of equipment for the majority of users at home and abroad.
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金属煤粉膨胀节选型指南:耐磨、防爆与高温补偿的关键设计
煤粉管道为什么需要专用膨胀节?普通的波纹膨胀节用在煤粉管道上,三个月就磨穿了——这不是危言耸听。煤粉这玩意儿,颗粒细、硬度高、流速快,加上输...
金属膨胀节波纹数量怎么定?选多了浪费,选少了出事
波纹数量到底是个啥?别小看膨胀节上那一个个“褶子”,每个波都是吸收位移的基本单元。波纹数量直接决定了膨胀节的补偿能力、刚度和疲劳寿命。比如咱...
高温非金属管道补偿器:当温度超过600°C,金属软管也得靠边站
1. 高温工况下管道补偿的痛点:金属膨胀节为什么扛不住?前两天碰到个客户,烟气管道温度冲到750°C,他一开始选的是普通不锈钢波纹膨胀节,没...
角向型非金属补偿器到底怎么选?别等管道崩了才后悔
1. 什么是角向型非金属补偿器?先搞懂它的“角”在哪儿说白了,角向型非金属补偿器就是专门用来吸收管道角度位移的玩意。你想象一下,管道转弯的地...
非金属补偿器对照表:从织物纤维到橡胶四氟,选型一步到位
为什么你需要一张非金属补偿器对照表?去年有个电厂客户,为了省钱给脱硫烟道装了橡胶补偿器,结果运行不到三个月就爆了。为什么?温度超了120℃,...
鹤管非金属补偿器到底能解决哪些问题?——从密封到减振的功能拆解
一、先搞清楚:鹤管非金属补偿器是什么玩意儿?——在装卸臂管道里它扮演什么角色?说白了,鹤管(也就是装卸臂)是用来连接槽车和储罐的管道系统,油...
Frequently asked questions
Answers to your frequently asked questions about compensators and baffle doors
金属膨胀节的接法?先搞清楚该用哪种型号
前两天接到一个客户电话,说蒸汽管道装完膨胀节才三个月就漏了。我问他用的什么型号,答曰“就是普通的金属膨胀节”。啧,问题就出在这儿——金属膨胀节的接法不是一把扳手拧螺丝的事,选错型号,后面全白搭。
通用型波纹膨胀节适合轴向位移为主的管道;大拉杆膨胀节能扛横向位移,但拉杆是核心;压力平衡型(比如直管压力平衡型膨胀节、曲管压力平衡型膨胀节)专门对付高压大口径,让盲板力不外传。还有高温轴向型膨胀节、外压单式轴向型膨胀节、复式铰链横向型膨胀节……每种结构决定了它的接法差异。你拿高温型当通用型用,波纹管直接烧穿,这不是笑话,是真事。
安装前的关键检查:拉杆、螺杆该拆还是该留?
很多师傅拿到膨胀节,看见拉杆和调节螺杆就犯嘀咕:这玩意儿是运输保护件还是永久件?
对于通用型波纹膨胀节和高温轴向型膨胀节,出厂时带的限位拉杆和调节螺杆,在安装前必须拆除或松到设计位置。为什么?因为它们的作用是防止波纹管在运输和吊装时被压缩或拉伸过度。管道对接完成后,如果还把拉杆拧得死死的,那膨胀节就失去了补偿功能,跟一段钢管没区别。前两天一个电厂项目,工人没拆拉杆,试压时波纹管直接鼓包——压力都让拉杆扛了,波纹管反而被憋坏。
大拉杆膨胀节和压力平衡型膨胀节上的拉杆,是结构件,不能拆!因为大拉杆要承受内压产生的盲板力,你把拉杆拆了,波纹管瞬间变形。所以安装前一定要看铭牌和图纸,区分“运输限位”和“工作拉杆”。
安装步骤详解:对中、焊接与固定支架的要点
第一步,对中。管道法兰面必须平行,偏差控制在1-2mm以内。你拿水平仪打一下,不然后期波纹管受扭,寿命直接打五折。第二步,焊接。如果是焊接式膨胀节,先点焊固定,观察变形量,再分层焊接,每层厚度不超过焊条直径。焊接电流别太大,防止热影响区烧伤波纹管薄壁。建议在波纹管外壁包湿布冷却。第三步,固定支架。记住一个原则:膨胀节两端的第一个支架必须是固定支架或导向支架,防止管道轴向推力把膨胀节推歪。尤其是空冷岛真空管道双铰链膨胀节这种大尺寸产品,支架间距必须按设计图来做,少一个支架都可能导致铰链失效。
很多现场图省事,把膨胀节直接焊在未固定的管子上,结果一升温,管子带着膨胀节一起漂移,补偿量全浪费了。你猜怎么着?最后返工拆下来,波纹管已经永久变形。
不同类型膨胀节的接法差异
- 通用型波纹膨胀节:轴向位移,安装时把限位拉杆拆掉,保证波纹管自由伸缩。注意导流筒方向——箭头必须指向介质流向,不然导流筒会被冲刷脱落。
- 大拉杆膨胀节:用于横向位移,比如L型管道拐角。安装时拉杆不能拆,并且要调整螺母使拉杆处于受力平衡位置。常见问答里问“膨胀节拉杆螺母怎么调整”?一般先预紧到设计长度的80%,待管道水压试验后再微调。
- 直管压力平衡型膨胀节:两端有工作波纹管和平衡波纹管,中间有拉杆。安装时三个腔室必须同时承受压力,所以拉杆绝对不许动。而且这种膨胀节通常自带固定支架,现场只需设置导向支架即可。
- 曲管压力平衡型膨胀节:结构更复杂,用于需要吸收轴向和横向组合位移的弯管段。安装时要注意两端法兰的同轴度,偏差超过2mm会导致波纹管扭曲。
- 复式铰链横向型膨胀节:由两个铰链和一组波纹管组成,只能吸收平面内的横向位移。安装时铰链销轴必须润滑,且不允许承受扭转力矩。
另外还有外压单式轴向型膨胀节,它的波纹管在外部,承受外压,安装方向有严格要求,壳体上那个排气孔必须朝上,否则冷凝水排不出去——这是很多新手翻车的地方。
安装后的调试与验收:位移检查与泄漏试验
用千分表或游标卡尺测量膨胀节在冷态下的长度,记录初始值。然后通入介质(水或气),缓慢升温至工作温度,再测量一次长度,看实际位移量是否在设计范围内。如果实际位移比设计值大,说明管道固定支架失效或导向支架间距太大。如果没变化,恭喜你,可能忘了拆限位拉杆。
泄漏试验也必须做。对于电站行业用波纹膨胀节或者水泥行业金属波纹膨胀节,通常要求1.5倍设计压力下保压30分钟,无渗漏。小口径的可以用压缩空气加肥皂水,大口径的用超声波检漏仪。特别注意焊缝和波纹管波峰处——那是最容易开裂的位置。
金属膨胀节的接法不是孤立操作,它得跟管道设计、支架布置、介质特性配合。同一个型号,用在蒸汽管道和用在烟气管道上,应力分析完全不同。所以,别拿“通用型”当万能膏药。如果拿不准,翻翻站上的产品资料,或者直接问厂家的技术工程师——比你自己瞎琢磨省事多了。
客户问“算设备吗”?先搞清楚非金属补偿器到底是什么
前两天有个做脱硫项目的采购打电话过来,开口就问:“非金属补偿器到底算不算设备?我们老板让我走设备采购流程,但财务说这玩意儿就是个管件,吵了半天。”这个问题其实挺典型的。你说它是一根管子吧,它确实装在管道上;但你说它只是管件,它又带法兰、带导流筒、带保温层,甚至还有拉杆和限位装置。啧,搁谁都懵。
非金属补偿器,也叫非金属膨胀节、织物纤维膨胀节、橡胶补偿器、橡胶四氟补偿器,本质上是一个柔性连接装置。它由蒙皮(氟胶布、硅胶布、聚四氟乙烯等)、保温棉、钢结构框架、压条和螺栓组成。跟金属膨胀节用波纹管来吸收位移不同,非金属是靠纤维材料和弹性体来变形。它吸收的热位移幅度大、补偿方向多,还能耐腐蚀、耐高温。电站烟风道、水泥窑尾烟气、脱硫塔进出口,到处都是它的影子。那它到底算不算设备?咱们往下看。
按工业标准归类:它属于“管道附件”还是“设备”?
翻一下国标JB/T 12235-2015《非金属膨胀节》,标准名称里写的是“膨胀节”,目录分类放在机械行业标准里,跟泵、阀这些设备并列。但在GB/T 20801《压力管道规范》里,非金属补偿器被归入“管道组成件”(也就是管道附件)。这就出现了一个有意思的局面:从管道系统的角度看,它只是管道的一个柔性段;但从制造和设计角度看,它有独立的结构设计、承压计算、疲劳寿命评估。
打个比方,就像汽车上的涡轮增压器——它在发动机上算一个附件,但你单独买它的时候,它就是一台设备。非金属补偿器也一样:它在管道里负责热补偿,但实际上它的蒙皮、保温、框架、密封都得根据工况单独设计。你见过哪个管子卖1500还要做有限元分析?非金属补偿器就可以。所以从工程采购角度,我更倾向于把它当成设备来对待。不然呢?你拿它当管件买,结果现场装不上,谁负责?
对比金属膨胀节,非金属的“设备属性”是弱是强?
金属膨胀节(比如通用型波纹膨胀节、高温轴向型膨胀节)通常只用波纹管加端管,结构相对简单。但非金属膨胀节结构更复杂:蒙皮至少三层(防腐层、气密层、保温层),内衬还有导流筒,外面有型钢框架和压紧螺栓。如果是矩型非金属膨胀节,那框架还是焊接件,涉及下料、组对、焊接、气密性检验。这么一套东西,能叫管件吗?
再说选购。金属膨胀节你按公称通径、压力、补偿量选型即可,但非金属膨胀节你得提供介质成分(酸雾?湿烟气?)、温度区间(瞬间高温多少?)、三维位移量(轴向、横向、角向)、安装空间尺寸。来,你跟我说说哪个管件需要这么复杂的技术参数?所以说,非金属补偿器的“设备属性”不但不弱,反而比金属膨胀节更强。它本质上是个定制化的柔性结构组件。
从电站、水泥到脱硫烟气,现场怎么认定和选型?
电站行业用的非金属补偿器,比如电站行业用波纹膨胀节有时候也会选非金属的,但更多是在烟风道用矩形非金属膨胀节。选型时重点关注温度——锅炉出口烟气温度可达450℃,蒙皮必须用氟胶布加多层陶瓷纤维。水泥行业金属波纹膨胀节和非金属都常用,但预热器出口的粉尘大、温度波动剧烈,非金属的耐疲劳性能更好。脱硫烟气这块就更典型了——烟气含湿量大、有腐蚀性,经常跟烟气挡板门、脱硫烟气挡板门配合使用。现场采购时,有的单位把它归类到“阀门附件”里,有的归到“锅炉辅机”中。反正很少有直接扔给五金库的。
我见过一个电厂,把非金属补偿器当成普通管件买,结果到货后法兰螺栓孔对不上,蒙皮材质也不对,最后退货重做。一来一回耽误了半个月工期。你说这不是设备是什么?设备就得有技术协议、有图纸确认、有出厂检验报告。非金属补偿器的标准里明确要求做气密性试验和耐压试验,每台都要做。管件哪有这待遇?
结论:非金属补偿器就是设备——但别拿它当普通管件买
非金属补偿器属于设备吗?答案是:从功能和使用方式上看,它就是设备。你可以走设备采购流程,按设备管理建档、写技术协议、做到货验收。但关键不在于名分,而在于怎么用。你把它当设备,就自然会重视选型参数、安装规范、后期维护;你把它当管件,大概率会忽略安装方向固定支架设置、蒙皮紧力控制这些细节。而那些细节,恰恰是它能不能用满寿命的关键。
唉,说到底,名字不重要,重要的是别把它当成一根能弯的管子来对待。下回再有人问你“非金属补偿器算不算设备”,你就让他看看JB/T 12235的检测条款——光气密性试压这一项,就足够让它跟普通管件划清界限了。
What the hell are fixed rods on non-metallic compensators for? Don't wait until the equipment breaks
Although it is called "non-metal", in fact, the skeleton and fixtures are still inseparable from metal. Many people thought that the bright fixed rod was used for lifting or convenient transportation-two days ago, a customer asked me if this thing could be removed, and I thought it was in the way. Disassembled? You try to disassemble it. As soon as the pipe heats up, the compensator will directly blow you into a balloon. The role of the fixed rod is far more important than you think.
The core task of the fixed rod is one word: limit
Limit excessive tension or compression of the non-metallic compensator in the axial direction (i.e. along the pipe direction). The non-metal loop strap itself is soft and elastic, but it can't stand hard tugging. When the pipe is displaced by thermal expansion and contraction, the compensator should absorb this displacement, but if the displacement exceeds the design value, the ring belt will be torn or folded. The retaining bar acts like a seat belt, telling you: At most you can run this far, and it will be dangerous further forward. In fact, both ends of the fixed rod are connected with connecting pipes or flanges, and a preset installation length is locked by a nut to ensure that the compensator works within a predetermined stroke range.
What's the difference between it and the tie rod on the expansion joint? That's a good question. Tie rods are usually used for metal corrugated expansion joints (such as the general corrugated expansion joints and compound hinge transverse expansion joints in our station). Its main function is to bear the blind plate force generated by internal pressure and prevent the bellows from being crushed to death by axial thrust. The fixed rod of the non-metal compensator is more to bear external loads and limit excessive displacement. In terms of material, the fixed rod of non-metallic compensator is generally made of carbon steel or stainless steel, and the surface is anti-corrosion treated. After all, the supporting flue gas and dust environment is often very harsh-such as the "flue gas baffle door" and "rectangular non-metallic expansion joint" in our product list, which are often used in desulfurization and dust removal pipelines. When corrosive gas rushes, if the pole rusts, the strength will drop, and something will happen.
How to judge if the fixed rod is adjusted properly?
Our product information mentioned the question and answer of "How to adjust the tie rod nut of the expansion joint". Although it is a tie rod, the adjustment logic of the fixed rod is similar. The core parameter is the mounting length-this length must correspond to the free length of the compensator in the cold state. For example, the working temperature of the pipeline is 300℃. When it is installed in a cold state, the fixed rod should be artificially compressed or stretched to a certain amount, leaving a margin for thermal displacement. You fit too tightly, there's no room to stretch when it's hot; Loaded too loosely, the loop straps sag when cold. Many on-site failures, nine times out of ten, are that the nut of this pole is not screwed correctly.
Another real case. A non-metallic compensator is connected in parallel next to our "metal corrugated expansion joint in cement industry" used in a cement factory to absorb the vertical displacement. On-site workers suspected that the fixed pole was in the way, so they dismantled it privately. Results After half a year of operation, the non-metallic ring belt was partially torn and the air leakage was serious. Change the ring belt and shut down for two days, resulting in hundreds of thousands of losses. Later, when the engineer checked, it was the lack of fixed rods that caused the deflection displacement to exceed the standard. Think about it, a pole costs hundreds of dollars, and a circle belt costs tens of thousands of dollars. This account is not unknown.
Finally, let's be honest
When selecting, don't just stare at the material and temperature resistance grade of the ring belt. The design and material of the fixed rod should also be checked. Especially for large-size rectangular non-metallic expansion joints, pole cross-section, thread specifications, and the strength of connecting ear plates at both ends have to be calculated. If you are not sure, read directly the article "National Standard for Non-metallic Expansion Joints JB/T 12235-2015" in our station, which clearly states the requirements for structural parts. With this pole, the compensator really locks the safety bottom line.
1. What material is the non-metallic compensator made of? Let's start with the conclusion: Not all non-metals are afraid of fire
When many people hear the word "non-metal", they automatically associate "plastic", "rubber" and "flammable" in their minds. This idea needs to be corrected quickly. Non-metallic compensator-to be precise, the one on our websiteNon-metallic expansion joint (fabric fiber expansion joint)— — The main material is a composite layer of high-strength glass fiber cloth, silicone rubber coated cloth and polytetrafluoroethylene film. Glass fiber itself is a Grade A non-combustible material with a melting point of more than 1000°C. What is really likely to burn is the rubber coating on the surface or the PTFE for sealing-but neither is at once. Silicone rubber is a flame-retardant material, which extinguishes itself from fire; Polytetrafluoroethylene (PTFE) is virtually nonflammable and only breaks down toxic gases in extreme heat. Therefore, the answer to the question "Can a non-metallic compensator catch fire?" depends on where it is used, at what temperature, and what medium it contacts. Think about it, if the material itself could be burned, then the thousands of degrees of smoke in the flue of the power plant would have set it on fire long ago, and it would have lasted for decades?
Second, under which working conditions the non-metallic compensator may indeed burn? Don't take any chances, these cases are worth watching
Seriously, the most common fire scenario for non-metallic compensators is the flue gas duct. For example, desulfurization system, cement kiln tail, power station flue and other places. The smoke often carries unburned sparks, oil mist or pulverized coal. Two days ago, a customer from a cement factory called and asked,Rectangular non-metallic expansion jointWill it burn through? I asked him if there were any sparks in the pipes and he said that the electrostatic precipitator occasionally ignites. This is dangerous. Once the surface coating of the fabric is continuously burned by high-temperature sparks, the silicone rubber will carbonize. Then, although the glass fiber cloth does not burn, it loses its sealing performance, the smoke leaks out, the temperature is higher, and finally the whole compensator will be scrapped. Another situation is that there is a leakage of flammable media in the pipeline. For example, the tail gas of chemical plants contains benzene steam, which may ignite when it touches high-temperature surfaces. Remember one sentence: the non-metallic compensator is not a source of fire itself, but it is a "carrier of combustion support"-if its surface is stained with oil and coal tar, it is equivalent to providing fuel for the fire. And guess what? At the end of many fire accidents, they were not burned by the compensator itself, but the ash and oil accumulated around them were ignited.
3. How do manufacturers prevent fires? Flame retardant coating, multi-layer structure, plus explosion-proof layer
Since there are risks, regular manufacturers must have countermeasures. When we make non-metallic expansion joints, we will select materials according to the medium temperature and composition provided by customers. For high-temperature flue gas pipelines (above 400℃), the structure of "ceramic fiber cloth + stainless steel wire mesh reinforced layer" is generally adopted. The refractory temperature of ceramic fiber can reach 1260℃, and it is okay to directly fight the flame. In the case of spark shock, the non-metallic compensator will be covered with a metal protective net or a metal skin-this is actually a bit like the one on our websiteHigh temperature axial expansion jointThe idea is that the high-temperature axial type is pure metal, and the non-metal type is only used as an inner liner. In addition, fluororubber or PTFE coating itself has good flame retardancy, which meets the fire protection requirements in JB/T 12235-2015 standard. Another point: when installing, it is necessary to ensure that no combustible materials, such as oil rags and cables, accumulate around the compensator. This is a problem of on-site management, but many accidents are precisely here. We often tell customers: You bought a fireproof compensator, and as a result, there is a pile of pulverized coal piled around, which is the same as not buying it.
Fourth, the easiest pit for users to step on: confusing rubber compensator and fabric compensator
We have a product list on our siterubber compensatorAndRubber PTFE compensator, there are alsoNon-metallic expansion joint (fabric fiber expansion joint)。 Although they are all classified as non-metals, the temperature resistance grade is much worse. The continuous working temperature of ordinary rubber compensators (such as nitrile rubber and neoprene rubber) generally does not exceed 120℃, and the instantaneous temperature resistance may reach 150℃. Beyond this temperature, the rubber will soften, decompose and even burn. However, the temperature resistance range of fabric fiber expansion joint (non-metallic expansion joint) is usually between 200℃ and 650℃, and it can be higher if the right model is selected. Therefore, if the user uses a fabric compensator in low-temperature pipelines (such as air-conditioning water systems), it is overqualified; But if a pure rubber compensator is used on a steam pipe at 300℃, it is a joke with your life. Before, a customer consulted, saying that the temperature of their flue gas pipe was only 180℃, and they used a rubber PTFE compensator. As a result, it burned through half a year later. Only after asking did I know that the actual temperature fluctuation peak of the pipeline reached 220℃, and the rubber layer had been carbonized. Therefore, when selecting the model, you can't only look at the average value, but also the peak temperature, duration and whether there are sparks in the medium. Is that the case?
5. Fire prevention starts from type selection: collect these three hard indicators
First, it is necessary to clarify the maximum operating temperature, instantaneous overtemperature temperature and frequency of the pipeline. If it is smoke with Mars, skip the rubber directly, choose a fabric fiber compensator and add a metal explosion-proof layer. Second, see if the compensator has flame retardant certification. The national standard JB/T 12235-2015 has clear requirements for the combustion performance of non-metallic expansion joints, such as oxygen index and horizontal combustion grade. On our stationRectangular non-metallic expansion jointAndNon-metallic expansion joint (fabric fiber expansion joint)Proof of flame retardant rating can be provided on demand. Third, don't ignore the installation environment. If the compensator is installed outdoors or has corrosive gases, the surface coating will age and the flame retardancy will decrease, requiring regular inspection and replacement. To put it bluntly, the deciding factor in whether a non-metallic compensator can catch fire is not whether there is "non-metallic" in the name, but whether you have put the right product in the right place. Choose right, it can hold thousands of degrees of high temperature; If you choose the wrong one, tens of degrees of oil fume can light it.
Let's ask a question first: Why use non-metallic ones if the pipeline is equipped with metal compensators?
Friends who have been in contact with power plants and cement plants know that metal parts can't bear corrosion and dust accumulation in high-temperature flue gas pipelines and desulfurization systems. Although the metal bellows has high strength, it will rust out in a few months when it encounters acidic medium and wet smoke. Non-metallic compensators use fabric fibers, rubber, PTFE and other materials to deal with these "soft knives". This site'sNon-metallic expansion joint (fabric fiber expansion joint)Andrubber compensatorIt is to make up for the shortcomings of metal parts-to put it bluntly, it is to wear a layer of "body armor" on the pipeline.
The structure is actually not complicated
A flexible loop strap, plus flanges, frame and insulation. The band material may be silicone cloth, fluororubber,PTFE (rubber PTFE compensator)。 The key lies in design: how can it be resistant to both temperature and pressure? Generally, multi-layer composite, inner layer insulation, outer layer sealing. Two days ago, a customer asked: YouRectangular non-metallic expansion jointDifference from round? To put it bluntly, rectangles are mainly used in square pipes such as smoke ducts, which have large compensation and convenient installation-and the four corners of rectangular pipes are prone to stress concentration, which can be digested by the flexibility of non-metals.
Function Article 1: Absorb multidimensional displacement
During thermal expansion and contraction, the pipe will expand and contract axially, yaw laterally and even twist angularly. Because of its flexibility, the non-metallic compensator can absorb the displacement in these directions at the same time, and is not afraid of twisting like metal bellows. Like those used in the cement industryMetal Corrugated Expansion Joints in Cement IndustryAlthough it can also be compensated, when encountering large rectangular flues, non-metallic rectangular expansion joints are more cost-saving and easier to maintain. Think about it, when the temperature of a flue dozens of meters long changes, the displacement is often more than ten millimeters or even tens of millimeters, and the metal parts will get stuck directly if they are not properly designed. The non-metallic band is like a "soft joint", which is not afraid of twisting.
Function 2: Carry high temperature, carry corrosion, and reduce noise
The pipeline behind the desulfurization flue gas baffle door of the power plant is not high in temperature, but the acid corrosion is serious, and the metal parts will rust through in a few months. useNon-metallic expansion joints (fabric fiber expansion joints)With PTFE lining, the life can be extended by two or three years. In addition, it has a vibration damping effect-the vibration of the fan is transmitted to the pipeline, and the non-metallic band can eat some energy, and the noise is low. Some data show that under the same working conditions, the non-metallic compensator can reduce the noise of pipeline system by 8~12 dB. Tsk, this thing is easier than a silencer.
Compared with metal compensators, what are the advantages of non-metal?
Low pressure capacity, cannot be used in high pressure steam pipeline. Moreover, non-metallic materials will age, and their life span generally has to be replaced after 3-5 years. What about that? Calculate clearly when selecting: the medium temperature exceeds 600℃ or the pressure exceeds 0.1MPa, and honestly use metal parts orHigh temperature axial expansion joint; Low temperature and low pressure, large diameter, corrosive media, non-metal is the first choice. Is that the truth?
Finally, a reminder of the main points of purchasing
The national standard JB/T 12235-2015 stipulates the technical requirements of non-metallic expansion joints, mainly depending on the material of the ring belt, compensation amount and connection mode. Pay attention to the direction of the guide tube during installation-refer to the Q&AArrow direction of expansion jointThe tie rod nut should be adjusted according to the on-site displacement, and do not screw it (see for detailsHow to adjust the tie rod nut of expansion joint)。 If you are not sure, you can compare this siteUniversal corrugated expansion jointAndRectangular non-metallic expansion jointProduct parameters, or just ask the technology – they have more experience than me.
In summary, the role of a universal non-metallic compensator? It is to solve the "difficult and complicated diseases" that metal compensators can't handle: high-temperature corrosion, multi-dimensional displacement, large-diameter special-shaped pipes, vibration and noise reduction. If you choose the right one, the equipment is worry-free; Wrong choice, post-maintenance is enough for you to drink a pot.
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