20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

Overview of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

Graphene ialah satu lapisan atom karbon yang tersusun dalam kekisi heksagon, membentuk bahan dua dimensi dengan sifat yang luar biasa. Ditemui di 2004, sejak itu ia telah memikat komuniti saintifik dan industri kerana gabungan kekuatannya yang unik, kekonduksian, dan fleksibiliti. Graphene pada asasnya adalah tunggal, kepingan grafit yang rata, bahan yang terdapat dalam plumbum pensel, tetapi sifatnya adalah jauh berbeza apabila diasingkan ke dalam satu lapisan atom.

Features of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

1. Kekuatan yang tiada tandingan: Graphene adalah bahan yang paling kuat diketahui, dengan kekuatan tegangan sekeliling 130 gigapascals, melebihi keluli dengan faktor lebihan 100.

2. Fleksibiliti Melampau: Walaupun kekuatannya, graphene sangat fleksibel dan boleh dibengkokkan, berpusing, atau digulung tanpa putus.

3. Kekonduksian Elektrik yang Luar Biasa: Ia mengalirkan elektrik dengan sangat baik, dengan elektron bergerak pada halaju menghampiri kelajuan cahaya, menjadikannya sesuai untuk elektronik.

4. Kekonduksian Terma: Graphene juga merupakan pengalir haba yang sangat baik, menyebarkan haba dengan cekap, berguna dalam aplikasi pengurusan haba.

5. Ketelusan: Ia hampir telus, menyerap sahaja 2.3% daripada cahaya, yang, ditambah dengan kekonduksiannya, menjadikannya sesuai untuk elektrod lutsinar dalam paparan.

6. Lengai secara kimia: Graphene sangat tahan terhadap kakisan dan stabil di bawah pelbagai keadaan kimia.

(20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri)

Specification of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

The 20 kHz ultrasonic spreading probe is constructed for commercial graphene production. It uses high-frequency sound waves to disintegrate and uniformly spread graphene in liquids. This procedure helps make stable diffusions without damaging the graphene structure. The probe operates at a regularity of 20,000 cycles per secondly. That regularity is strong sufficient to separate graphene layers however mild enough to maintain them intact.

The probe tip is made from titanium alloy. This material stands up to wear and corrosion, even throughout long terms. It connects to a generator that provides regular power. Power result varieties from 500 to 2000 watts. Individuals can adjust the amplitude to match their specific requirements. This control aids tweak the diffusion high quality.

Cooling is dealt with via an incorporated system. It maintains the probe and example at safe temperatures. Overheating can mess up the graphene or decrease manufacturing. The cooling configuration stops that. Operation is straightforward. Workers place the probe into a container or circulation cell. They start the system and let it run. No added actions are needed.

This probe matches existing assembly line. It collaborates with water-based or solvent-based mixes. Set or continuous handling is feasible. Cleaning up takes simply a couple of minutes. Upkeep is reduced. The style prevents intricate components that usually stop working.

Industries utilize this tool to make conductive inks, compounds, batteries, and coverings. Great diffusion implies far better efficiency in the final product. The probe delivers consistent outcomes every single time. It lowers waste and conserves time. Manufacturing scales smoothly from lab to complete factory size. Operators obtain dependable output without continuous monitoring.

(20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri)

Applications of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

The 20 kHz ultrasonic spreading probe plays an essential duty in industrial graphene production. It utilizes high-frequency acoustic waves to disintegrate graphite into thin layers of graphene. This method works quickly and gives regular results. The probe develops strong cavitation in fluids. This action helps separate graphene sheets without harming them.

Graphene made in this manner maintains its electrical and mechanical properties. That matters for making batteries, sensors, and compounds. The probe blends well with solvents and surfactants. This mix stops the graphene sheets from sticking back with each other. The process runs at area temperature level. It does not require harsh chemicals or high stress.

Manufacturing facilities utilize this probe since it ranges quickly. Little batches in laboratories can transfer to complete assembly line without big changes. The system fits into existing mixing storage tanks. It also utilizes much less power than various other techniques like round milling or chemical peeling. Upkeep is straightforward. The probe has couple of moving parts and lasts a long period of time.

Operators manage the strength and time of sonication. This allows them tweak the density and dimension of the graphene flakes. Quality remains high across big volumes. The result fulfills criteria for electronics and innovative products.

This ultrasonic approach cuts down on waste. It also stays clear of hazardous byproducts. That makes it much safer for employees and better for the setting. Numerous producers now pick it over older strategies. It delivers pure graphene much faster and with much less expense. The 20 kHz regularity hits the right balance in between power and control. It offers dependable efficiency day after day in busy plants.

Applications of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

1. elektronik: Dalam transistor, skrin sentuh, dan elektronik fleksibel kerana kekonduksian dan fleksibilitinya, berpotensi merevolusikan reka bentuk peranti.

2. Penyimpanan Tenaga: Sebagai elektrod dalam bateri dan supercapacitors, meningkatkan kapasiti penyimpanan tenaga dan kadar pengecasan.

3. Penderia: Kepekaan dan kekonduksian yang tinggi menjadikan graphene sesuai untuk penderia kimia dan biologi.

4. Komposit: Bahan pengukuh seperti plastik, logam, dan konkrit untuk meningkatkan kekuatan dan kekonduksian.

5. Penapisan Air: Struktur atomnya yang nipis membolehkan penapisan bahan cemar yang cekap, termasuk garam, virus, dan bakteria.

6. Ubat: Kegunaan berpotensi termasuk sistem penyampaian ubat dan bio-sensor kerana biokompatibiliti dan sifat uniknya.

Profil Syarikat

Graphne Aerogels ialah pembekal bahan kimia global yang dipercayai & pengilang dengan pengalaman lebih 12 tahun dalam menyediakan produk aerogel dan graphene berkualiti tinggi.

Syarikat ini mempunyai jabatan teknikal profesional dan Jabatan Penyeliaan Kualiti, makmal yang serba lengkap, dan dilengkapi dengan peralatan ujian termaju dan pusat khidmat pelanggan selepas jualan.

Jika anda sedang mencari graphene berkualiti tinggi, airgel dan produk relatif, sila hubungi kami atau klik pada produk yang diperlukan untuk menghantar pertanyaan.

Kaedah Pembayaran

L/C, T/T, Western Union, Paypal, Kad Kredit dll.

Penghantaran

Ia boleh dihantar melalui laut, melalui udara, atau dengan mendedahkan ASAP sebaik sahaja resit pembayaran balik.

FAQs of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

Q: Is 20 kHz Ultrasonic Dispersing Probe for Industry Graphene Production safe for the environment and human health?
A: Penyelidikan tentang kesan alam sekitar dan kesihatan graphene sedang dijalankan. Manakala graphene sendiri dianggap agak lengai, wujud kebimbangan mengenai potensi ketoksikan graphene oksida dan derivatif lain, terutamanya dalam ekosistem akuatik.

Q: How is 20 kHz Ultrasonic Dispersing Probe for Industry Graphene Production produced?
A: Grafena boleh dihasilkan melalui beberapa kaedah, termasuk pengelupasan mekanikal (mengelupas lapisan grafit menggunakan pita pelekat), pemendapan wap kimia (CVD), dan pengurangan kimia graphene oxide.

Q: Why is 20 kHz Ultrasonic Dispersing Probe for Industry Graphene Production not yet widely used in commercial products?
A: Cabaran dalam menghasilkan graphene berkualiti tinggi pada cara berskala dan kos efektif telah menghalang penggunaannya yang meluas. Selain itu, mengintegrasikan graphene ke dalam proses pembuatan sedia ada memerlukan kemajuan teknologi selanjutnya.

Q: Can 20 kHz Ultrasonic Dispersing Probe for Industry Graphene Production be used to make stronger and lighter materials?
A: betul-betul, Penambahan graphene kepada bahan komposit dengan ketara meningkatkan kekuatan dan kekukuhannya sambil mengurangkan berat badan, menjadikannya sesuai untuk aeroangkasa, automotif, dan peralatan sukan.

Q: Does 20 kHz Ultrasonic Dispersing Probe for Industry Graphene Production have any limitations?
A: Manakala graphene mempunyai sifat yang luar biasa, cabaran kekal dalam memanfaatkan potensi sepenuhnya, seperti mencapai pengeluaran besar-besaran yang berkualiti tinggi, menguruskan kecenderungannya untuk menyusun semula dalam komposit, dan menangani kebimbangan kesihatan dan alam sekitar yang berpotensi.

5 FAQs of 20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri

What is a 20 kHz ultrasonic dispersing probe used for in graphene production?
It breaks down graphene agglomerates in liquid. This helps make stable, uniform dispersions needed for coatings, composites, or inks.

Why choose 20 kHz frequency?
Lower frequencies like 20 kHz create stronger cavitation. This gives more energy to separate graphene layers without damaging them too much.

How does it improve graphene quality?
The probe evenly spreads graphene sheets in solvent. This reduces clumping and keeps the material’s electrical and mechanical properties intact.

Is it suitable for large-scale production?
Yes. Industrial probes run continuously and handle high volumes. They work with batch or flow-through systems for consistent output.

What maintenance does the probe need?
Check the tip for wear regularly. Clean it after each use to avoid buildup. Replace worn parts to keep performance steady.

The probe uses high-intensity sound waves. These waves form tiny bubbles that collapse and push graphene apart. This method works faster than stirring or shaking. It also uses less energy over time. Operators control power and time to match their material needs. The system fits into existing production lines. It works with water or organic solvents. Safety guards protect users from noise and vibration. Most units include cooling to manage heat during long runs. Graphene made this way meets industry standards for purity and layer count. Users see better results in final products like batteries or sensors. The process cuts waste and saves raw materials. It also lowers the need for extra chemicals. Companies get reliable output with less downtime. Training takes only a few hours. Support teams help with setup and troubleshooting. Spare parts are easy to order. The probe lasts years with proper care.

(20 Probe Penyerakan Ultrasonik kHz untuk Pengeluaran Graphene Industri)