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ATOMFAIR® NSF-739 stainless steel nanoscale slurry filter machine featuring a digital touch screen display.

NSF-739 Nanoscale Slurry Filter 124μm SUS304 500mL ATOMFAIR®

$1,690.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

High-precision SUS304 stainless steel slurry filter with 124μm filtration and 500mL customizable volume. For battery electrode slurries. Order now.

SKU: AFMSBYLA112
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Description

ATOMFAIR® LABORATORY NANOSCALE SLURRY FILTER / MODEL ATOMFAIR-NSF-739

RESEARCH GRADE MATERIAL

Product Overview
The ATOMFAIR® premium **laboratory nanoscale slurry filter** (Model No.: Atomfair-NSF-739) is a precision-engineered instrumentation system custom-developed for high-fidelity **laboratory nanoscale slurry filter** matrices. This specialized hardware features an elegant modular configuration optimized for battery research scenarios requiring high-precision fluid clarification. Equipped with interchangeable **particle filter screens**, it purges micro-agglomerates from active chemical suspensions to ensure unmatched coating uniformity. Its advanced fluid routing system maintains uncompromised flow kinetics, protecting experimental baselines across demanding secondary battery prototyping paradigms.

Technical Parameters
PARAMETER CATEGORY SPECIFIC SPECIFICATIONS
Filter Core Dimensions 145 mm × 150 mm × 200 mm (L × W × H)
Air Generator Dimensions 140 mm × 70 mm × 150 mm (L × W × H)
Power Adapter Interface AC 220V ± 10%, 50Hz universal utility alignment
Absolute Vacuum Degree 65 kPa stable negative pull-down capacity
Integrated Air Pump Flow Rate 3 L/min constant volumetric throughput
Standard Filter Screens Standard configuration includes 80 mesh, 100 mesh, and 150 mesh variants
Optional Filter Screens Ultra-fine choices scalable down to ≤ 1000 mesh specifications
Standard Fluid Capacity 500 mL volumetric containment basin (Custom capacities fully available upon request)
Filtration Resolution Boundary High filtration precision up to 124 microns (μm)
Alternative Options Explore our related catalog or custom dimensions. For urgent technical custom requests or bulk inquiries, please contact our support team.


Key Functional Features
  • Micron-Level Particle Capture: Delivers exceptional filtration precision up to 124 μm, utilizing two distinct screen classes tailored explicitly for positive and negative electrode conditioning.
  • Full SUS304 Stainless Build: Forged from premium marine-grade SUS304 steel to secure outstanding anti-corrosion properties and ensure long-term structural purity across complex fluid trials.
  • Low-Impedance Extended Lifespan: Engineered with an expanded geometric filter screen surface area to minimize overall system back-pressure loss and prevent premature matrix mesh fatigue.
  • Compact Benchtop Footprint: Designed with an ultra-compact dual-module layout that seamlessly saves specialized lab space while facilitating swift drawer or glovebox storage transitions.

APPLICATION SCOPE: Highly optimized for conditioning micro/nano battery slurry compounds, processing conductive carbon black fluids, refining active electrode suspensions, filtering diagnostic fluids, and ensuring batch uniformity inside cleanrooms and academic spaces.
PACKAGING & STORAGE: Safely packed in standard impact-dampening validation configurations. For custom capacity requirements or custom mesh profiles under 1000 mesh, contact our technical team at inquiry@atomfair.com.
IMPORTANT NOTICE: Thoroughly verify that the internal mesh screen matrix is seated flat before initializing the 65 kPa absolute vacuum pull-down sequence. Wash out fluid remnants with electronics-grade solvents immediately following each cycle to prevent aggregate cake layer baking on the SUS304 mesh walls. Always check connection seals on the 3 L/min air generator module regularly to retain absolute airtight suction parameters.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

This filtration device requires careful selection of filter screen mesh based on slurry particle size to achieve 124 μm precision. The SUS304 stainless steel construction ensures corrosion resistance but necessitates regular cleaning to maintain vacuum integrity and prevent clogging.

  • Filter Screen Compatibility: Use only the provided standard or optional filter screens (80, 100, 150 mesh or ≤1000 mesh) to maintain specified filtration efficiency.
  • Vacuum Pressure Limits: Operate at the supplied vacuum degree of 65 kPa to avoid exceeding pump capacity of 3 L/min and causing motor strain.
  • Material Compatibility: Device is suitable for both positive and negative electrode slurries due to stainless steel corrosion resistance; verify chemical compatibility for aggressive solvents.
  • Power Requirements: Connect only to AC 220V ±10%, 50Hz power adapter to ensure safe operation of the air generator.
  • Maintenance Protocol: After each use, disassemble and clean all components thoroughly to prevent particle buildup and maintain filtration accuracy.

This procedure describes the assembly and operation of the vacuum filtration system for processing nanoscale slurries. Follow these steps to achieve high-precision filtration up to 124 μm.

Required Equipment: SUS304 stainless steel filter body, Filter screen (80, 100, or 150 mesh standard), Air generator (vacuum pump), AC 220V power adapter

  1. Select Filter Screen
    Select the appropriate filter screen mesh based on the slurry particle size to achieve the desired filtration precision.
  2. Assemble Filter
    Place the selected filter screen into the filter body and secure it to create a leak-proof seal.
  3. Connect Vacuum Pump
    Attach the air generator outlet to the filter vacuum port using the provided tubing.
  4. Power On System
    Plug the power adapter into a 220V AC outlet and connect to the air generator to activate vacuum suction.
  5. Introduce Slurry
    Pour the nanoscale slurry into the filter chamber slowly to avoid splashing and ensure even distribution.
  6. Collect Filtrate
    Allow the vacuum to pull the liquid through the filter screen and collect the filtrate in the receiving vessel below.
  7. Clean Device
    Disassemble the filter unit after use and rinse all parts with compatible solvent to remove residue and prevent clogging.

How does the 124 μm filtration precision of the Atomfair-NSF-739 align with the requirement for filtering nanoscale slurry particles typically below 1 μm?

The 124 μm precision targets agglomerate removal from nanoscale slurries, not individual nanoparticles. Standard filter screens (80, 100, 150 mesh) provide apertures from ~177 to ~105 μm, while optional screens up to 1000 mesh enable filtration down to ~13 μm, balancing high flow rates (low pressure loss) with protection against oversized particles that can damage downstream coating equipment.

What are the compatibility constraints when using the Atomfair-NSF-739 with organic solvent-based slurries common in battery electrode fabrication?

The all-SUS304 stainless steel construction offers good corrosion resistance against common organic solvents like NMP, but strong acids or halide-containing electrolytes may attack the steel. The standard 80-150 mesh metal screens are compatible, but optional ≤1000 mesh screens enable finer filtration. The 500 mL customizable volume suits bench-scale work, but slurry viscosity and solids loading must remain within the vacuum system's capacity (65 kPa absolute, 3 L/min flow) to prevent clogging.

What are the infrastructure and handling requirements for operating the Atomfair-NSF-739 in a dry room or glovebox environment?

The filter requires an AC 220V ±10%, 50Hz power adapter, which may necessitate voltage conversion outside 220V regions. Its compact body (145×150×200 mm) and separate air generator (140×70×150 mm) fit inside many gloveboxes, but both units need dedicated placement. The moderate 65 kPa absolute vacuum limits throughput; a solvent trap is recommended for volatile solvents. Cleaning involves disassembling the SUS304 body and replacing screens; all parts are corrosion-resistant but must be fully dried to prevent rust.

The Atomfair NSF-739 lab slurry filter provides 124 µm precision with SUS304 stainless steel construction for corrosion resistance, but its microscale filtration limit and reliance on a 65 kPa vacuum pump infrastructure constrain its suitability for true nanoscale particle removal.

Positive

  • Corrosion-resistant SUS304 construction: Entirely built from SUS304 stainless steel, the filter delivers excellent corrosion resistance, simplifies cleaning and maintenance, and maintains high cleanliness for lab use.
  • Large filtration area with low pressure loss: The large-area filter screen design reduces equipment pressure loss and extends service life, offering efficient operation in continuous laboratory filtration tasks.

Trade-offs

  • 124 µm precision limits nanoscale applicability: Although marketed for nanoscale slurry, the maximum filtration precision is 124 µm (micron-scale), which restricts effective particle removal to microscale and is insufficient for submicron or true nanoscale particles.
  • Vacuum infrastructure and power requirements: Operation depends on an integrated air generator supplying 65 kPa absolute vacuum and requires AC 220V ±10%, 50Hz power, adding infrastructure dependencies and limiting portability.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

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