Ploughshare Mixer for PP, PVE, PVC, cellulose, granule
Plough shear mixer is a single shaft compulsory mixing equipment. Several pieces of plough shears are installed on the main shaft in dislocation and continuously, which avoid the mixing dead zone in structure. When operating, material in mixer tank move following the direction of the continuous vortex centrifugal force generated by the continuously blending plough shears, thus to achieve scattering, dispersing and fast mixing of material.
Plough mixer is widely used to mix powder, granule, and small liquid additives in food, chemical, and construction line.
It is particularly good at handling food additives, mortar, fertilizing, sludge, plastic, and special building material. The powerful shearing effect makes it high efficiency, and good mixing result.
Technical parameter:
Batch working volume: 0.1-20cbm
Batch weight: 0.3-15tons
Material: 316L, 304, mild steel
Plough shear mixer for Food Industry, Battery Industry, Agricultural Industry, Construction Industry, Chemical Industry, Comprehensive Industry
Our equipment plays a crucial role in the production of battery materials, specifically those used in lithium batteries and other storage batteries. With the increasing demand for energy storage solutions, especially in mobile devices, electric vehicles, and other high-tech applications, your mixers ensure that the raw materials are precisely and uniformly blended, enabling optimal battery performance. Here’s a breakdown of how your equipment is used across various battery types:
1. Lithium Battery Positive Materials:
- Lithium Cobalt Oxide (LiCoO2): This material is commonly used in mobile phones, laptops, and other portable electronics. Your equipment ensures the even mixing of lithium and cobalt for improved electrochemical performance and long cycle life.
- Lithium Manganese Oxide (LiMn2O4): Known for its safety, stability, and high discharge rate, this material is often used in power tools and electric vehicles. Your mixers help evenly blend the materials, ensuring uniformity and high conductivity.
- Manganese, Nickel, and Cobalt Composite Oxides: These materials are used in lithium-ion battery cathodes for better energy density and stability. The precise mixing by your equipment ensures that the composite oxides are uniformly dispersed, resulting in higher efficiency and performance.
- Lithium Vanadium Oxide (LiVO2): Used in high-performance batteries for specialized applications, your mixers help achieve the necessary uniformity and homogeneity in the material to maximize its electrochemical properties.
- Lithium Iron Phosphate (LiFePO4): Known for its long cycle life and safety, this material is commonly used in electric vehicles and energy storage systems. The mixing process facilitated by your equipment ensures that the lithium iron phosphate material is evenly blended, ensuring consistent energy output.
2. Lithium Battery Negative Materials:
- Artificial and Natural Graphite: Graphite is one of the most commonly used anode materials in lithium-ion batteries. Whether it’s artificial or natural graphite, your equipment ensures the perfect blend with binder and conductive additives, improving the anode’s electrochemical properties and enhancing charge-discharge efficiency.
- MCMB (Mesocarbon Microbeads): These are advanced carbon-based materials used in the anodes of lithium batteries to enhance energy density. Your mixers ensure a uniform distribution of the MCMB with other materials for optimal anode performance.
- Petroleum Coke: Often used in lithium battery anodes due to its high conductivity, your equipment facilitates the even mixing of petroleum coke with other materials to improve battery charge and discharge cycles.
- Carbon Fiber: Carbon fiber is used as an additive in battery anodes for improved conductivity and mechanical strength. Your equipment ensures the consistent integration of carbon fibers into the anode material for better performance.
- Pyrolytic Carbon Materials: These materials are used in high-performance batteries, especially for energy storage applications. Your mixers ensure uniform mixing of pyrolytic carbon with other ingredients to enhance battery longevity and performance.
3. Other Types of Storage Batteries:
- Lead-Acid Batteries: Used in vehicles and backup power systems, your mixers ensure the consistent blending of lead oxide and other materials required for the production of battery plates and paste.
- Sodium-Ion Batteries: These batteries, which offer an alternative to lithium-ion technology, require careful mixing of sodium-based materials. Your equipment can handle these materials, ensuring high-performance battery output.
- Zinc-Manganese Dioxide Batteries: Used in small electronics and certain medical devices, your mixers can handle the precise combination of zinc and manganese dioxide for high energy density.
Key Benefits for Battery Production:
- Uniformity in Material Mixing: The most critical aspect of battery manufacturing is ensuring uniform dispersion of materials, as even minor inconsistencies can lead to poor performance, shorter battery life, or safety issues. Your equipment ensures precise mixing, contributing to better electrochemical properties and consistent performance.
- Energy Efficiency: Properly mixed materials lead to batteries with improved energy density, better charging capabilities, and longer life cycles. This is especially important in high-performance applications like mobile phones, electric vehicles, and renewable energy storage.
- Safety: Consistent and thorough mixing of materials reduces the risk of internal battery issues such as short-circuiting, overheating, or degradation. Your equipment’s reliable mixing process helps ensure safe, high-performance battery production.
- Scalability: Your equipment is suitable for large-scale industrial production, ensuring that batches of raw materials are mixed efficiently to meet the increasing demand for batteries, especially in applications like electric vehicles and grid storage.
- Adaptability: Whether it’s the delicate mixing of advanced materials like lithium vanadium oxide or traditional anode materials like graphite and carbon, your equipment can handle a wide variety of materials with ease and precision.
Applications in the Industry:
- Mobile Phones: Batteries mixed with your equipment are widely used in mobile devices, where high energy density, quick charging, and safety are paramount.
- Electric Vehicles (EVs): The materials mixed by your equipment are integral to high-capacity EV batteries, ensuring long driving ranges and fast charging times.
- Cameras and Consumer Electronics: In addition to mobile phones, your equipment is used in producing batteries for other consumer electronics like cameras, offering reliable, long-lasting power sources.
- Cell-Driven Vehicles: As electric vehicles become more popular, the batteries produced with your equipment play a key role in providing the necessary energy storage for these sustainable transportation solutions.
Conclusion:
Your equipment plays an essential role in the production of high-quality battery materials across various types of batteries, from lithium-ion to lead-acid and emerging technologies like sodium-ion. By ensuring uniform and precise mixing of critical materials—such as lithium cobalt oxide, graphite, and carbon fiber—your mixers help to create batteries with enhanced performance, longer lifespan, and improved safety. These batteries are essential for a wide range of applications, including mobile phones, electric vehicles, consumer electronics, and renewable energy storage, ensuring that your equipment contributes to the development of advanced and sustainable energy storage solutions.