Description

ATOMFAIR® DRY-PROCESS PP SEPARATOR 16μm (MODEL: AFSPPP16U60mm10m)

RESEARCH GRADE MATERIAL – PRIMARY COMPONENT FOR ION TRANSMISSION

Product Overview

The AFSPPP16U60mm10m is a specialized research-grade dry-process PP separator precisely optimized for rigorous scientific research, university laboratory diagnostics, and advanced electrochemical experimental architectures. Serving as a crucial internal battery component, it delivers highly balanced pore channels and steady mechanical strength to reliably achieve positive and negative electrode isolation while ensuring flawless, highly uniform ion transmission. Dispatched in a standard 60mm × 10m validation profile, it enables convenient baseline testing and exact variable elimination while matching premium battery separator procurement baselines.

Technical Specifications

PARAMETER	DETAILS
1. Primary Model Identification
Product Model	AFSPPP16U60mm10m
Product Code	AF-PP16
Brand Name	Atomfair
Dimension Specification	60 mm × 10 m
2. Model AFSPPP16U60mm10m Core Metrics
Base Film Material / Thickness	PP (Polypropylene) \| 16 μm (Total Thickness: 16 μm)
Physical & Structural Profile	Width: 60 mm \| Surface Density: 8.75 g/m² \| Porosity: 41% \| Air Permeability: 210 S
Thermal Behavior	Longitudinal Thermal Shrinkage MD: 1.6% \| Transverse Thermal Shrinkage TD: 0% \| Melting Temperature: 167 °C
Mechanical Strength Profile	Longitudinal Tensile Strength MD: 140 kg/cm³ \| Transverse Tensile Strength TD: 17 kg/cm³ \| Puncture Strength: 380 g
3. Extended Catalog & Full Reference Matrix
Dry-process PP Matrix	AF-PP16 (16μm) \| AF-PP20 (20μm) \| AF-PP25 (25μm)
Wet-process PE Matrix	AF-PE7 (7μm) \| AF-PE9 (9μm) \| AF-PE12 (12μm) \| AF-PE16 (16μm) \| AF-PE20 (20μm)
4. Compliance & Customization Trace
Manufacturing Standards	Processed under strict ISO 9001 standard compliance conditions.
Custom Frameworks	Alternative width slits, specific roll lengths, or specialized surface treatments are available upon institutional request.

Key Features & Advantages

Homogeneous Material Purity: Features an uncompromised structural configuration with highly uniform elemental distribution across the matrix.
Enhanced Operational Efficiency: Specifically engineered to demonstrate superior electrochemical performance, significantly boosting transfer kinetics at targeted bands.
Optimized Sintering/Microstructure: Advanced synthesis allows for lower required operating temperatures and ideal grain boundary integration during cell fabrication.

APPLICATION SCOPE: Premium wet-process PE and dry-process PP separator for R&D layouts, high-capacity secondary battery coin/pouch cell validation configurations.

PACKAGING: The product is packaged with plastic-sealed bags and cushion pads to ensure integrity during transportation and storage, effectively protecting the film structure from external impacts.

IMPORTANT STORAGE & TRANSPORT NOTICE: This product is highly sensitive to ambient exposure. Handle exclusively within an anhydrous environment to prevent performance degradation before thermal validation. Environmental Requirements: Sealed and stored in a normal or low temperature, dry, and well-ventilated environment. Notes: Keep away from fire and heat sources, and avoid contact with flammable and explosive materials. Transportation Requirements: Avoid exposure to sunlight, fire baking, and rain to prevent product performance from being affected by the environment. Handle with care during transportation to avoid severe collision and extrusion.

TAILORED SOLUTIONS FOR RESEARCH

Contact our engineering team for technical support or official institutional quotations.

EMAIL: inquiry@atomfair.com

Manufacturer: Atomfair LLC

Brand: ATOMFAIR®

Constraints

This separator must be stored in a dry, well-ventilated environment at normal or low temperature, away from fire and heat sources. Mechanical handling must avoid severe collision, extrusion, and exposure to sunlight or rain to prevent performance degradation.

Storage Environment Constraints: Store the separator sealed in a dry, well-ventilated environment at normal or low temperature, away from fire and heat sources.
Transportation Handling Constraints: Avoid exposure to sunlight, rain, fire baking, severe collision, and extrusion during transportation.
Thermal Degradation Constraint: Thermal shrinkage of up to 1.6% in the machine direction and 0% in the transverse direction may occur if exposed to temperatures near the 167°C melting point.
Mechanical Damage Constraint: Puncture and tensile forces must be limited to prevent tearing or deformation of the thin 16μm polypropylene film.
Chemical Compatibility Constraint: The polypropylene base film should be used only with compatible electrolyte systems to avoid swelling or degradation.

FAQ

How does the air permeability of 355 seconds for the 20μm dry-process PP separator influence lithium-ion diffusion and rate capability compared to thinner or wet-process alternatives?

The 20μm dry-process PP separator exhibits an air permeability of 355 seconds and porosity of 40%, indicating higher ionic resistance than thinner variants like the 16μm version (210s) or wet-process PE separators of equal thickness (e.g., 224s). This limits its rate capability in high-power applications, but the trade-off yields superior thermal stability with a melting temperature of 167°C and longitudinal thermal shrinkage of only 1.1%, making it ideal for safety-oriented designs requiring moderate discharge rates.

Can this dry-process PP separator be integrated with high-voltage NMC or LCO cathodes and common carbonate electrolytes without compromising wetting or oxidative stability?

The hydrophobic polypropylene base film with 40% porosity and 355s air permeability requires surface activation or wetting agents to achieve full electrolyte uptake in carbonate-based systems used with NMC and LCO cathodes. Its melting point of 167°C provides a thermal runaway margin, but oxidative degradation at voltages above 4.5V should be validated, as polypropylene may form decomposition products that shorten cycle life. Pre-treatment or ceramic coatings are recommended for high-voltage compatibility.

What specific storage and handling protocols must be followed to preserve the integrity of this 20μm dry-process PP separator before cell assembly?

The separator must be stored sealed in a dry, well-ventilated environment at ambient or low temperature, away from fire and heat sources, per the manufacturer's packaging guidelines. During handling, avoid sunlight, rain, and mechanical shock; the 414g puncture strength and 20μm thickness offer moderate durability, but creasing or folding can introduce defects. Use cleanroom conditions and handle carefully when unrolling the 60mm-wide, 10m-long roll to prevent contamination.

Assessment

This 20μm dry-process polypropylene separator offers low thermal shrinkage (MD 1.1%, TD 0.1%) and a puncture strength of 414 g, making it suitable for research cells requiring dimensional stability and dendrite resistance. Its air permeability of 355 S indicates moderate ionic conductivity, while the transverse tensile strength is only 20 kg/cm³, necessitating careful handling during cell assembly.

Positive

Low thermal shrinkage: Longitudinal thermal shrinkage of 1.1% and transverse shrinkage of 0.1% ensure minimal dimensional change under elevated temperatures, preserving electrode alignment during battery operation.
High puncture strength: Puncture strength of 414 g provides robust resistance to dendrite penetration, enhancing safety in lithium-ion battery research cells.

Trade-offs

Directional mechanical weakness: Transverse tensile strength is only 20 kg/cm³, significantly lower than longitudinal strength (158 kg/cm³), creating potential for tearing during roll processing or cell assembly if orientation is not managed.
Strict storage environment required: Must be stored sealed in a normal or low temperature, dry, and well-ventilated area away from fire and heat sources to preserve separator integrity, limiting lab storage flexibility.

Quality Standards & Performance Verification

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.

Shipping & Returns

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).