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Carbon Black
CARBON BLACK N330
Minimum Order Quantity: 3000 Kg
Packaging Size | 10 Kg |
Color | Black |
Usage/Application | Paint |
Packaging Type | hdpe laminated double bags with liners |
Production Capacity | 7 tons per day |
Form | Powder |
CARBON BLACK N330
Technical specifications
Harmonized System (HS) Code: 28030010
Chemical Abstracts Service (CAS) Number: 1333-86-4
Particle Size: 300 Mesh
Fixed Carbon > 90%
Density: 450 Kg/cu.m
Moisture < 2%
Ash Content < 1%
Solvent Extractable: 5%
pH Value: 8 to 9
Color: Fine Uniformly Black
Loss of Ignition: 0.4%
Surface Area: 120 Sq.m/g
Cu: 10 PPM
Fe: 500 PPM
Mn: 12 PPM
Iodine Adsorption Value: 90 mg/g
Dibutyl Phthalate (DBP) Absorption: 105 Cu.cm/100g
Application: Glass, Radar Absorbent Material, Laser Printer Toner, Photocopier, Ink, Paints, Adhesives, Resin Coloring, Films, Hoses, Rubber, Leather, Belts, Coatings, Plastics, Elastomer Films, UV Absorption, Refractories, Cement, Electronics, Automobiles, Food & Beverages Packaging etc
Additional Information:
- Delivery Time: subject to required quantity
Black Mass Battery Recycling Powder
Packaging Size | 50 kg |
Packaging Type | HDPE Bag |
Purity | 99.7% |
Chemical Abstracts Service (CAS) Number: 179802-95-0
PLANT CAPACITY: 3 TONS/DAYENERGY CONSUMPTION: 40 KWCURRENT: 440 V
lead sulphate: 57%lead dioxide: 34%metallic lead: 3 to 8 %other material: 5 to 10 %
Battery Type | Lithium Ion |
Usage/Application | Battery recycling |
Grade Standard | Chemical Grade |
Physical State | Powder |
Color | Black |
Fineness at 250 mesh: 1% max
Flow: 45
Metallic Purity: 99.7%
pH: 11
Li2CO3: 0.05%
LiOH: 0.03%
Capacity: 155 mAh/g
Efficiency: 89%
Rate Capacity Retention: 95%
Cycle Capacity Retention @ 50 cycles: 98.5%
Electro: 3.4 V
The growing demand for lithium-ion batteries (LiBs) for the electronic and automobile industries combined with the limited availability of key metal components, in particular cobalt, drives the need for efficient methods for the recovery and recycling of these materials from battery waste. Herein, we introduce a novel and efficient approach for the extraction of cobalt, and other metal components, from spent LiBs using a nonionic deep eutectic solvent (ni-DES) comprised of N-methylurea and acetamide under relatively mild conditions. Cobalt could be recovered from lithium cobalt oxide-based LiBs with an extraction efficiency of >97% and used to fabricate new batteries. The N-methylurea was found to act as both a solvent component and a reagent, the mechanism of which was elucidated