The length and width of the deep well plate comply with the SBS international standards. The depth of wells is increased based on the appearance and size of normal plates (mainly 96-well and 384-well plates) to enlarge the volume of each well. In addition, the manufacturing material(currently mostly used is polypropylene (PP)) is changed and the surface treatment process has been improved for this series of deep well plates to adapt to its specific use range. The deep well plates of NEST have a variety of specifications, conforming with the needs of fully automatic workstations and experiments.
Features:
Deep Well Plates,U-Bottom Plastic Comb,Transparent Plastic Comb Sterile,8-Well Plastic Comb Wuxi NEST Biotechnology Co.,Ltd , https://www.nest-biotech.com
Walled In: The Versatility of Carbon Fiber Composite Repair Solutions
In the world of industrial infrastructure—whether we’re talking about petrochemical plants, food and agriculture facilities, or mining operations—the design and construction process often focuses on integrating key components like tanks, vessels, and pipes directly into the structure. While this approach has its advantages, it presents a unique challenge when it comes to maintenance and repair. Traditional methods can be both impractical and prohibitively expensive. However, the introduction of carbon fiber composite repair systems, such as those developed by HJ3, is transforming how we handle asset restoration and preservation.
Let’s consider a situation where a vital component in a processing plant, say a tank or pipe, starts showing signs of structural flaws or corrosion over time. In conventional scenarios, attempting to dismantle the surrounding infrastructure just to access and replace the asset would be incredibly complex and financially burdensome. This is precisely where carbon fiber composites shine.
HJ3’s carbon fiber composite repair solutions provide a budget-friendly alternative to complete asset replacement, cutting costs by up to 80-90%. Moreover, these systems can restore the component to its original operating specifications, ensuring peak performance and extended life. By minimizing downtime and extending the service life of critical infrastructure, this method enhances operational efficiency while reducing risks tied to asset failure.
What sets HJ3 apart is the unparalleled strength-to-weight ratio of their carbon fiber composites. Pound for pound, carbon fiber outperforms steel in terms of strength, making it an excellent choice for structural reinforcement. HJ3’s innovative technology ensures their products are the strongest per-ply option available today. This robustness means fewer layers of composite material are needed for repairs, reducing costs while maintaining top-notch durability and performance.
The adaptability of carbon fiber composite repair systems allows them to address a broad spectrum of issues, from repairing tanks and vessels to reinforcing concrete structures. Whether dealing with corrosion, fatigue, or structural damage, HJ3 offers tailored solutions designed to meet the specific requirements of each project.
By adopting carbon fiber composites, industries can extend the lifespan of their infrastructure and align with sustainability goals. Unlike traditional repair methods, which often lead to significant waste and environmental harm, carbon fiber composites provide a cleaner, less disruptive solution that minimizes ecological impact.
Embracing carbon fiber composite repair systems marks a significant leap forward in asset maintenance and management. With HJ3 at the forefront of this technological revolution, industries can confidently tackle infrastructure upkeep, knowing they have access to cost-effective, eco-friendly options—many of which can even ship same-day. It’s time to embrace innovation and fully capitalize on the potential of carbon fiber composites to transform our industrial infrastructure.
• USP VI Polypropylene material, High chemical stability.
• Temperature range: -80°C to 120°C.
• Autoclavable.
• Centrifugal strength up to 3,000xg.
• Compatible with multichannel Pipettes and automatic equipment.
• Optimized bottom design to minimize residual volume.
• Clear alphanumeric codes for easy identification.
• Conform to SBS/ ANSI.
• Specific 96 well deep plate used in nucleic acid extraction.
• Stackable, reliable tight sealing.
• Non-pryogenic, DNase/RNase free.
• Sample storage: it can replace the conventional 1.5ml Centrifuge Tube to store samples, and can be arranged tidily to save space, with large storage capacity, and can withstand the -80℃ refrigerator condition. Therefore, it`s also called storage plate.
• Sample processing:it can be used and combined with multipass pipettes, high-throughput automatic liquid processors and respective softwares to allow the high-throughput operation of biological samples, for example, protein precipitation, liquid extraction, nucleic acid extraction,etc. Greatly improving the efficiency of sample processing. Can withstand high temperature and high pressure sterilization at 121℃.
• Sample injection:suitable for the automatic devices of various companies, it can be directly placed in the sample compartment of the
automatic device for injection. Compared to conventional sample injection, it can not only double the sample amount placed in the sample
compartment, but also realizes the direct sample injection of samples after processing on the 96-well plate, eliminating the tedious work of pipetting and placing samples back and forth.