Hot Product

China: Graphene Dispersion Ultrasonic Homogenizer

Short Description:

China's ultrasonic homogenizer for graphene dispersion ensures high stability and efficient performance in various applications.

  • Model: H-UH20-1000/2000/3000
  • Frequency: 20KHz
  • Power: 1000VA/2000VA/3000VA
  • Generator: Digital Type
  • Horn Material: Titanium Alloy
  • Brand: Hanstyle

Product Detail

Product Tags

Product Main Parameters

ModelFrequencyPowerVoltage
H-UH20-1000S20KHz1000W220V
H-UH20-100020KHz1000W220V
H-UH20-200020KHz2000W220V
H-UH20-300020KHz3000W220V
H-UH20-3000Z20KHz3000W220V

Common Product Specifications

PressureIntensity of SoundMaterial of Probe
Normal>10 W/cm²Titanium Alloy
35 MPa>40 W/cm²Titanium Alloy
35 MPa>60 W/cm²Titanium Alloy

Product Manufacturing Process

According to recent authoritative studies, the ultrasonic homogenization process involves the use of high-power ultrasonic waves to create cavitation in liquid media. This process is controlled to ensure the optimal dispersion of graphene within various solvents, which is critical for maintaining the unique properties of graphene. The cavitation effect generated by the ultrasonic waves causes the breakdown of agglomerates, resulting in enhanced uniformity and stability of the dispersion. The production process involves precise control of ultrasonic parameters and rigorous quality checks to ensure the highest standards of performance and reliability.

Product Application Scenarios

Graphene dispersion using ultrasonic homogenizers is essential in multiple industrial applications. In composites, the dispersed graphene enhances mechanical and thermal properties, leading to superior product performance. Energy storage technologies benefit from improved conductivity and energy density in batteries when graphene is evenly dispersed. Additionally, conductive inks and coatings utilize dispersed graphene for enhanced electrical properties. In biomedical applications, ultrasonic dispersion ensures the accurate and reliable formulation of sensor matrices and drug delivery systems. Recent studies confirm that consistent dispersion significantly enhances the efficacy and application versatility of graphene across various fields.

Product After-Sales Service

  • Comprehensive technical support available online and onsite
  • Extended warranty options for product assurance
  • Efficient repair and maintenance services provided by trained professionals
  • Replacement parts readily available to minimize downtime
  • Regular updates and upgrades to improve product performance

Product Transportation

  • Secure packaging to prevent damage during transit
  • Worldwide shipping with reliable logistics partners
  • Tracking information provided for all shipments
  • Customs handling and documentation support
  • Express delivery options available for urgent orders

Product Advantages

  • Advanced ultrasonic technology for superior graphene dispersion
  • Customizable settings for optimal performance
  • High efficiency with low operational costs
  • Robust construction with durable materials for longevity
  • Complies with international quality standards

Product FAQ

  • Q: How does the ultrasonic homogenizer enhance graphene dispersion?
    A: The ultrasonic homogenizer utilizes cavitation to improve the dispersion of graphene sheets in solvents, breaking down agglomerates to produce a stable suspension with enhanced properties. This method significantly boosts the physical and chemical performance of the dispersed material.
  • Q: Why is China a leading provider of ultrasonic homogenizers?
    A: China manufactures high-quality ultrasonic homogenizers with advanced technology and competitive pricing. The country's expertise in precision engineering and industrial machinery contributes to its leadership in this field.
  • Q: What are the key components of the ultrasonic homogenizer?
    A: The primary components include an ultrasonic drive generator and an ultrasonic vibrator (comprising a transducer, booster, and probe). These elements work together to achieve effective homogenization and dispersion.
  • Q: Can the homogenizer be used for other applications apart from graphene dispersion?
    A: Yes, it is widely used in food processing, pharmaceuticals, essential oil extraction, and more. Its versatility makes it suitable for various industries requiring particle size reduction and dispersion enhancement.
  • Q: What materials are used in the construction of the homogenizer?
    A: The ultrasonic probe is made from a titanium alloy, known for its strength and durability, making it suitable for various industrial applications. The overall design ensures longevity and reliability.
  • Q: Is customization available for specific industrial needs?
    A: Yes, Hanspire offers custom reactor designs and consulting services to cater to unique industrial requirements. Tailored solutions ensure optimal performance and integration within existing processes.
  • Q: How does the power adjustability feature benefit users?
    A: The power adjustability allows users to modify the output from 1% to 99%, providing flexibility to cater to different materials and dispersion requirements, while optimizing energy usage.
  • Q: How does the automatic frequency tracking feature work?
    A: The digital generator automatically searches and tracks the optimal frequency during operation, ensuring consistent performance and efficiency throughout the dispersion process.
  • Q: What is the significance of the safety alarm protection?
    A: The automatic alarm protection system enhances operational safety by alerting users to any anomalies or issues during the dispersion process, preventing potential equipment damage or process interruption.
  • Q: How does Hanspire ensure product quality?
    A: Hanspire Automation adheres to strict quality control measures, has passed the IS9001-2000 quality system certification, and utilizes state-of-the-art equipment and technology to maintain high standards of manufacturing excellence.

Product Hot Topics

  • Efficiency of Ultrasonic Homogenizers in China
    China's ultrasonic homogenizers lead the way in efficiency, offering unmatched performance in achieving ideal graphene dispersion for diverse industrial applications. The combination of advanced technology and precise engineering ensures that these homogenizers meet and exceed industry standards, resulting in enhanced product quality and uniformity.
  • Graphene Dispersion Techniques: Ultrasonication vs. Ball Milling
    In the realm of graphene dispersion, ultrasonication stands out as a superior method compared to ball milling. While ball milling provides mechanical exfoliation, ultrasonication delivers finer dispersions by utilizing cavitation. This process not only preserves the integrity of graphene sheets but also enhances the stability of dispersions, making it a preferred choice in China and globally.
  • The Role of China in Advancing Graphene Technology
    China's commitment to technological advancement is evident in its leadership in graphene technology. By investing in innovative dispersion methods, such as ultrasonic homogenization, China is at the forefront of harnessing graphene's potential across industries. This proactive approach fuels research and development, paving the way for novel applications and market expansion.
  • Enhancing Battery Performance with Graphene Dispersion
    Graphene dispersion plays a crucial role in enhancing battery performance by improving conductivity and energy density. Ultrasonic homogenizers, particularly those from China, ensure the even distribution of graphene in battery components, leading to longer lifespan and increased efficiency. This technological edge supports the ongoing evolution of energy storage solutions.
  • Improving Conductive Inks with Graphene
    Conductive inks enriched with well-dispersed graphene offer remarkable improvements in electronic printing applications. The uniform dispersion achieved through ultrasonic homogenizers guarantees consistent conductivity and flexibility, essential for high-quality prints. China's cutting-edge solutions in this domain drive progress and innovation in printed electronics.
  • The Future of Graphene in Composite Materials
    The incorporation of graphene into composite materials is transforming industries by enhancing durability and thermal conductivity. Effective dispersion methods, such as those pioneered in China, ensure that graphene maintains its unique properties within composites. This advancement opens new avenues for lightweight, high-strength materials in aerospace, automotive, and construction sectors.
  • Ultrasonic Extraction of Essential Oils: A China-Led Innovation
    China's expertise in ultrasonic extraction is revolutionizing the production of essential oils, offering superior yields and improved quality. The precision and efficiency of China's ultrasonic homogenizers ensure that natural fragrances and bioactive compounds are extracted with minimal degradation, preserving their aromatic and therapeutic properties.
  • Graphene in Biomedical Applications
    Graphene's potential in biomedical applications is increasingly being realized through reliable dispersion techniques. China's ultrasonic homogenizers enable the consistent formulation of graphene-based sensor matrices and drug delivery systems, enhancing sensitivity and efficacy. This progress is pivotal in advancing medical diagnostics and therapeutics.
  • Challenges in Achieving Stable Graphene Dispersions
    Despite significant advancements, achieving stable graphene dispersions continues to challenge researchers and industry leaders. China's ongoing research into green solvents and innovative surfactants is addressing these challenges, aiming to further improve the environmental footprint and scalability of graphene technologies.
  • Environmentally Friendly Graphene Dispersion Techniques
    As environmental sustainability becomes a priority, China is at the forefront of developing eco-friendly graphene dispersion techniques. By incorporating green solvents and minimizing waste, China's ultrasonic homogenizers align with global sustainability goals, ensuring that technological progress does not compromise ecological well-being.

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