Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

Overview of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

Is sraith amháin d'adaimh charbóin é graiféin atá eagraithe i laitís heicseagánach, foirmiú ábhar déthoiseach a bhfuil airíonna suntasacha aige. Thángthas i 2004, ó shin tá sé tar éis an pobal eolaíoch agus an tionscal araon a mhealladh mar gheall ar a chumas uathúil láidreachta, seoltacht, agus solúbthacht. Go bunúsach is graiféin amháin, leathán cothrom de graifít, an t-ábhar a fhaightear i luaidhe peann luaidhe, ach tá a n-airíonna an-difriúil nuair a leithlisítear iad i gciseal adamhach amháin.

Features of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

1. Neart gan mheaitseáil: Is é graphene an t-ábhar is láidre atá ar eolas, le neart teanntachta de thart 130 gigapascals, surpassing cruach ag fachtóir de os a chionn 100.

2. Solúbthacht Mhór: In ainneoin a neart, Tá graphene an-solúbtha agus is féidir é a lúbadh, casta, nó rolladh gan briseadh.

3. Seoltacht Leictreach Eisceachtúil: Seolann sé leictreachas go han-mhaith, le leictreoin ag gluaiseacht ar threoluasanna ag druidim le luas an tsolais, rud a fhágann go bhfuil sé oiriúnach don leictreonaic.

4. Seoltacht Theirmeach: Is seoltóir teirmeach den scoth é Graphene freisin, teas a scaipeadh go héifeachtach, úsáideach in iarratais bainistíochta teasa.

5. Trédhearcacht: Tá sé beagnach trédhearcach, ionsúite amháin 2.3% an tsolais, a, in éineacht lena seoltacht, déanann sé oiriúnach do leictreoidí trédhearcacha i taispeántais.

6. Go ceimiceach támh: Tá graphene an-resistant a chreimeadh agus cobhsaí faoi raon leathan coinníollacha ceimiceacha.

Specification of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

Ultrasonic Diffusion System– 20kHz, 3000W for Graphene Processing

Powerful and Precise Graphene Dispersion

This ultrasonic dispersion system performs at 20kHz with a strong 3000W result , built specifically for breaking down and equally spreading graphene in fluids. It makes use of high-frequency sound waves to create intense cavitation bubbles. When these bubbles collapse, they create effective neighborhood pressures that divide graphene layers without harming their framework.

Consistent outcomes whenever
The unit delivers stable amplitude control, so you obtain the same high-quality dispersion batch after set. Its digital user interface lets you change power degrees, established processing time, and screen efficiency in actual time. This makes it easy to match setups to your precise product demands.

Constructed for durable laboratory or manufacturing use
The titanium alloy probe withstands wear and rust, even during long runs with challenging solvents. The system consists of an automated frequency tracking feature that keeps performance constant as conditions change. Cooling down alternatives assistance manage heat buildup, protecting both your example and the devices.

Easy to run and keep
You do not need special training to use this ultrasonicator. Just place your blend in a container, put the probe, set your parameters, and start. Cleaning up takes just mins. All parts that touch the example are simple to gain access to and replace if needed.

This ultrasonicator functions well with water-based and organic solvent systems. It’s perfect for making conductive inks, composite products, battery slurries, and various other sophisticated applications where uniform graphene distribution matters. Whether you’re running small examinations or scaling up, this system gives you dependable, repeatable dispersion with marginal initiative.

Applications of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

Effective Ultrasonic Diffusion for Advanced Materials

The 20kHz 3000W Ultrasonicator provides high-intensity ultrasonic energy to break apart and evenly disperse bits in fluids. This makes it excellent for collaborating with tough-to-disperse materials like graphene, carbon nanotubes, and ceramic powders.

Why It Functions So Well for Graphene

Graphene often tends to glob together in solvents. Requirement mixing approaches frequently fail to separate these clusters. The ultrasonicator makes use of solid cavitation– small bubbles that create and collapse quickly– to draw graphene sheets apart without damaging them. This causes secure, uniform dispersions that stay blended longer.

Developed for Heavy-Duty Use

With a 3000-watt outcome and a 20kHz frequency, this device manages large quantities and high-viscosity liquids. Its titanium alloy probe stands up to wear and deterioration, even during lengthy processing runs. Users can change amplitude and run time to match their details material demands.

Common Applications

Scientists and suppliers use this ultrasonicator in lots of fields. In battery advancement, it assists produce much better electrode slurries by evenly spreading conductive ingredients. In compounds, it guarantees nanoparticles are spread uniformly via polymers for stronger, lighter parts. It’s also utilized in layers, inks, and pharmaceuticals where bit dimension and circulation influence efficiency.

Straightforward to Run, Consistent Results

The system includes an intuitive control panel and constant or pulse modes for exact handling. Air conditioning jackets stop overheating throughout extended use. Every batch comes out the same– no uncertainty, no rework.

Whether you’re scaling up lab results or enhancing an industrial procedure, this ultrasonicator provides trusted, repeatable diffusion with very little effort.

Applications of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

1. Leictreonaic: I trasraitheoirí, scáileáin tadhaill, agus leictreonaic solúbtha mar gheall ar a seoltacht agus a solúbthacht, d'fhéadfadh dearadh feiste a réabhlóidiú.

2. Stóráil Fuinnimh: Mar leictreoidí i gcadhnraí agus supercapacitors, feabhas a chur ar chumas stórála fuinnimh agus rátaí muirir.

3. Braiteoirí: Déanann íogaireacht ard agus seoltacht graphene iontach do bhraiteoirí ceimiceacha agus bitheolaíocha.

4. Comhdhéanta: Ábhair athneartaithe cosúil le plaistigh, miotail, agus coincréit chun neart agus seoltacht a fheabhsú.

5. Scagachán Uisce: Cumasaíonn a struchtúr adamhach tanaí scagachán éifeachtach ábhar salaithe, salainn san áireamh, víris, agus baictéir.

6. Cógas: Áirítear ar úsáidí féideartha córais seachadta drugaí agus bithbhraiteoirí mar gheall ar a bhith-chomhoiriúnacht agus a n-airíonna uathúla.

Próifíl na Cuideachta

Is soláthraí iontaofa ábhar ceimiceach domhanda é Graphne Aerogels & monaróir a bhfuil taithí os cionn 12 bliain aige ar tháirgí sár-ardchaighdeáin airgel agus graphene a sholáthar.

Tá roinn theicniúil ghairmiúil agus Roinn Maoirseachta Cáilíochta ag an gcuideachta, saotharlann dea-fheistithe, agus atá feistithe le trealamh tástála chun cinn agus ionad seirbhíse do chustaiméirí iar-díolacháin.

Má tá graphene ardchaighdeáin á lorg agat, airgel agus táirgí coibhneasta, bíodh leisce ort teagmháil a dhéanamh linn nó cliceáil ar na táirgí atá ag teastáil chun fiosrúchán a sheoladh.

Modhanna Íocaíochta

L/C, T/T, Aontas Iarthar, Paypal, Cárta Creidmheasa etc.

Loingsiú

D’fhéadfaí é a sheoladh ar muir, ag aer, nó trí nochtadh ASAP chomh luath agus a fhaightear aisíocaíocht.

FAQs of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

C: Is Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion safe for the environment and human health?
A: Tá taighde ar na hiarmhairtí comhshaoil ​​agus sláinte a bhaineann le graphene ar siúl go leanúnach. Cé go meastar go bhfuil graphene féin sách támh, tá imní ann maidir le tocsaineacht ionchasach ocsaíd graphene agus díorthaigh eile, go háirithe in éiceachórais uisceacha.

C: How is Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion produced?
A: Is féidir graphene a tháirgeadh trí roinnt modhanna, lena n-áirítear exfoliation meicniúil (sraitheanna feannadh as graifít ag baint úsáide as téip ghreamaitheach), sil-leagan ceimiceach gaile (CVD), agus laghdú ceimiceach ar ocsaíd graphene.

C: Why is Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion not yet widely used in commercial products?
A: Chuir dúshláin maidir le graphene ardchaighdeáin a tháirgeadh ar bhealach inscálaithe agus cost-éifeachtach bac ar a ghlacadh go forleathan. Ina theannta sin, teastaíonn tuilleadh dul chun cinn teicneolaíochta chun graphene a chomhtháthú sna próisis déantúsaíochta atá ann cheana féin.

C: Can Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion be used to make stronger and lighter materials?
A: Cinnte, Feabhsaíonn breisiú graphene le hábhair chomhchodacha go mór a neart agus a stiffness agus meáchan á laghdú, rud a fhágann go bhfuil siad oiriúnach don aeraspáis, feithicleach, agus trealamh spóirt.

C: Does Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion have any limitations?
A: Cé go bhfuil airíonna den scoth ag graphene, tá dúshláin fós ann maidir le leas iomlán a bhaint as, amhail olltáirgeadh ardchaighdeáin a bhaint amach, bainistiú a dhéanamh ar a chlaonadh chun athstocáil i gcomhchodanna, agus aghaidh a thabhairt ar imní sláinte agus comhshaoil ​​a d’fhéadfadh a bheith ann.

5 FAQs of Ultrasonic Dispersion 20kHz 3000W Ultrasonicator Graphene Dispersion

Frequently Asked Questions

What is this ultrasonicator used for?

This 20kHz 3000W ultrasonic device breaks down and spreads materials like graphene evenly in liquids. It works well for making stable dispersions in research labs and industrial production.

Why choose 20kHz frequency?

20kHz gives strong ultrasonic power. This frequency creates big cavitation bubbles that collapse with enough force to separate graphene layers without damaging them too much. It’s a good balance between effectiveness and control.

How does the 3000W power help?

High power means faster and more complete dispersion. With 3000W, the machine can handle thick or large-volume mixtures. It keeps performance steady even during long runs, which is important for consistent results.

Can it damage graphene?

If used correctly, it won’t harm the material. Too much power or too long a time may break graphene sheets. Always follow recommended settings—like pulse mode and proper probe placement—to keep quality high.

Is it hard to operate?

No. The system has simple controls for time, power, and pulse cycles. Most users set it up quickly after a short training. The probe tip goes into the liquid, and the machine does the rest. Regular cleaning and maintenance keep it running smoothly.