Product Description
Battery Material Grinders: Low-Metallic Contamination for Li-ion Production
In the rapidly evolving landscape of lithium-ion battery production, the quality and efficiency of battery materials are paramount. As the demand for high-performance batteries surges, driven by advancements in electric vehicles and portable electronics, manufacturers are increasingly focusing on optimizing their processes. One critical aspect of this optimization is the use of advanced battery material grinders that ensure low-metallic contamination, thereby enhancing the performance and safety of lithium-ion batteries.
Lithium-ion batteries are composed of several key components: the anode, cathode, and separator membrane. The quality of these components significantly influences the battery's performance, safety, and longevity. Low-metallic contamination in battery materials is crucial because metallic impurities can lead to short circuits, reduced battery life, and even safety hazards like thermal runaway.
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Precision Grinding: Advanced grinders offer precise control over particle size distribution, ensuring uniformity in the battery materials. This uniformity is critical for the consistent performance of lithium-ion batteries.
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Low-Metallic Contamination: Utilizing materials and technologies that minimize metallic contamination is essential.
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Efficiency and Scalability: Modern grinding solutions are designed to be efficient and scalable, accommodating the growing demands of the lithium-ion battery market.
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Nanoparticle Processing: The ability to process nanoparticles is a significant advantage, as it enhances the performance of electrode active materials. This capability is crucial for producing high-performance lithium-ion batteries.
The latest advancements in grinding technology offer comprehensive solutions for lithium-ion battery production. Companies are integrating automated systems for feeding, premixing, dispersion, and intelligent batching. These systems not only improve efficiency but also ensure the digital, standardized, and intelligent management of production processes.
Wet grinding is a critical process in the preparation of battery slurries. It involves mixing binders, active materials, and additives to create a homogeneous slurry. The quality of this slurry directly impacts the performance of the battery.
Physical Parameters
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Technical Parameters of 304 Stainless Steel Mill Balls
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Items
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Data
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Tensile Strength
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100,000-180,000 psi
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Yield Strength
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50,000-150,000 psi
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Tensibility
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55%-60%
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Modulus of Elasticity
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29,000,000 psi
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Chemical Composition Content of 304 Stainless Steel Mill Balls
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Chemical Element
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Percentage of Content (%)
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Fe
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67.4-70.6
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C
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0.1
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Si
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1
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Mn
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2
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P
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0.045
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Features
1. Anti-erosion and corrosion resistance.
2. No magnetic and demagnetization character, HRC≤26.
3. It applies to grinding of various materials.
4. Good shape of ball with Smooth and gloss surface.
5. Its one of the most Cost- effective ball mill media.
Factory equipment
Exhibition & Partner
Case
Ship to Poland
Ship to France
FAQ
1. What are stainless steel mill balls?
Stainless steel mill balls are spherical components made from stainless steel, used primarily in grinding, milling, and mixing applications. They are known for their durability, corrosion resistance, and ability to withstand high-stress environments.
2. What materials are stainless steel mill balls made from?
Common materials include:
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304 Stainless Steel: General-purpose, corrosion-resistant.
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316 Stainless Steel: Higher corrosion resistance, ideal for harsh environments.
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420 Stainless Steel: Harder and more wear-resistant.
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440C Stainless Steel: High hardness and wear resistance, suitable for heavy-duty applications.
3. What are the primary uses of stainless steel mill balls?
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Grinding and milling media in industries like mining, chemicals, and pharmaceuticals.
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Mixing and dispersing in paint, ink, and food production.
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Precision components in bearings, valves, and pumps.
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Decorative or functional elements in furniture and art.
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