Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014 Safety Data Sheet | Solid

Chemical Product Identification & Regulatory Data

Official chemical identifiers, CAS numbers, and regulatory compliance information

Basic Product Information

Product Name

Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014

Product Code

BL1013/BL1014

Regulatory Identifiers

CAS Number

N/A

Chemical Abstracts Service registry number - unique identifier for chemical substances

Uses Information

Overview

Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014 is a solid substance .

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GHS Hazard Classification & Safety Warnings

Globally Harmonized System (GHS) hazard pictograms, signal words, and safety classifications

Classification Status

Classified

Signal Word

N/A

GHS Hazard Pictograms & Safety Symbols

GHS (Globally Harmonized System) pictograms indicate specific chemical hazard categories and safety precautions

Hazard Statements

Precautionary Statements

Chemical Manufacturers & Supply Chain

Authorized suppliers, manufacturers, and distribution network information

Makita U.S.A., Inc.

manufacturer

📍

14930-C Northam Street, La Mirada, CA 90638

🌍

📞

1-510-657-9881

24/7 Emergency Response & Poison Control

Critical emergency contact numbers for chemical spills, exposure incidents, and medical emergencies

CHEMTREC

📞

1-800-424-9300

🌍

💡

For Chemical Emergency Spills, Leak, Fire, Exposure, or Accident

Chemical Composition & Hazardous Ingredients

Detailed component analysis, concentration ranges, and hazardous substance identification

Product Type

mixture

General Composition

Because of the cell structure the dangerous ingredients will not be available if used properly. During charge process a lithium graphite intercalation phase is formed.

Chemical Components & Hazardous Substances

Chemical Name	CAS Number	Concentration	Hazardous
Aluminum EC: 231-072-3	7429-90-5	5-15%	⚠️ Hazardous
dimethyl carbonate EC: 210-478-4	616-38-6	1-5%	⚠️ Hazardous
cobalt lithium dioxide EC: 235-362-0	12190-79-3	1-5%	✓ Non-hazardous
Polyethylene	9002-88-4	1-3%	✓ Non-hazardous
Nickel EC: 231-111-4	7440-02-0	1-3%	⚠️ Hazardous
1,3-Dioxolan-2-one EC: 202-510-0	96-49-1	1-3%	✓ Non-hazardous
lithium hexafluorophosphate (1-) EC: 244-334-7	21324-40-3	1-3%	✓ Non-hazardous
Ethyl methyl carbonate	623-53-0	1-3%	✓ Non-hazardous
Carbon black EC: 215-609-9	1333-86-4	0.1-1%	✓ Non-hazardous
Copper EC: 231-159-6	7440-50-8	15-25%	✓ Non-hazardous
Iron EC: 231-096-4	7439-89-6	15-25%	✓ Non-hazardous
Lithium manganese oxide	12057-17-9	5-15%	✓ Non-hazardous
Graphite EC: 231-955-3	7782-42-5	5-15%	✓ Non-hazardous
Lithium nickelate	12031-65-1	5-15%	⚠️ Hazardous

Additional Information

Nominal Voltage: 10.8 V Rated Capacity: 1.3 Ah Wh rating: 14 Wh

Emergency First Aid Measures

Critical first aid procedures for chemical exposure incidents and medical emergencies

🫁 Inhalation Exposure

In case of inhalation of organic electrolyte mist, move from exposure to fresh air. If necessary, give oxygen. Get medical attention.

🖐️ Skin Contact

Remove contaminated clothing and wash before reuse. Immediately rinse contact area with plenty of clean water. Provide first aid to contacted area to prevent infection. Get medical attention.

👁️ Eye Contact

Rinse eyes with plenty of water for at least 15 minutes and seek medical attention.

🍽️ Ingestion/Swallowing

In case of ingestion of electrolyte don't induce vomiting. If patient is conscious and alert give 2~4 cups of milk or water. Never give anything by mouth to an unconscious person. Get medical attention immediately.

🚨 Immediate Medical Attention Required

Ensure that medical personnel are aware of the material(s) involved and take precautions to protect themselves.

Fire Fighting Measures & Emergency Response

Fire suppression methods, extinguishing media, and firefighting safety procedures

✅ Suitable Extinguishing Media

Use HFC (hydrofluorocarbon) clean-agent fire extinguisher or alcohol resistant foam fire extinguishers for small fires. For large fires, use a large amount of water.

⚠️ Specific Fire Hazards

Flammable gas leaks before ignition and then the product ignites.

🔥 Fire Fighting Instructions

Sprinkle a large amount of water until the battery temperature drops to normal temperature. If the battery is ignited in multi-stacked condition, disassemble the multi-stack and then extinguish to prevent heat transfer.

🛡️ Firefighter Protection Equipment

Wear heat-resistant protective equipment when handling an overheated battery.

Accidental Release Measures & Spill Response

Emergency spill cleanup procedures, containment methods, and environmental protection

🚨 Emergency Procedures

In case of cell damage, possible release of dangerous substances and a flammable gas mixture. Eliminate all ignition sources. Please note that materials and conditions to avoid. Move battery to well ventilated area to prevent gas accumulation.

🌍 Environmental Precautions

Avoid release to the environment. Prevent entry into waterways, sewers, basements, or confined areas.

🧹 Cleanup Methods

Cover with non-combustible material and put on the plastic sheet to minimize spreading or contact with rain.

Cleanup Materials:

Dry earth, DRY sand or other non-combustible material

Related Chemical Substances & Alternative Products

Similar chemicals with comparable safety profiles and industrial applications

Lithium - Ion Rechargeable Battery Pack BL 1 014

No identifier available

Lithium-Ion Rechargeable Battery Pack BL1014

No identifier available

Lithium-Ion Rechargeable Battery Pack BL1021B

No identifier available

Lithium-Ion Rechargeable Battery Pack BL1021B

No identifier available

Lithium-Ion Rechargeable Battery Pack BL1041B

No identifier available

Lithium - Ion Rechargeable Battery Pack BL1 415NA

No identifier available

Lithium - Ion Rechargeable Battery Pack BL 1430/BL1430B

No identifier available

Lithium - Ion Rechargeable Battery Pack BL 4025

No identifier available

Technical Specifications & Material Properties

Physical state, chemical properties, melting point, boiling point, and material characteristics

🧪 Physical State

Solid

Critical Property

📊 Physical State Data

solid

📊 State Under Standard Conditions

Not available

👁️ Appearance

Solid

🎨 Colour

Not available

📊 Colour Intensity

Not available

📊 Form

Not available

👃 Odor

Odorless

📊 Odor Threshold

Not available

🧪 Ph

Not available

🧊 Melting Point

Not available

Critical Property

💨 Boiling Point

Not available

Critical Property

🔥 Flash Point

Not available

Critical Property

📊 Freezing Point

Not available

📊 Softening Point

Not available

📊 Solidification Point

Not available

📊 Cloud Point

Not available

📊 Crystallisation Point

Not available

📊 Relative Evaporation Rate

Not available

💨 Evaporation Rate

Not available

💨 Vapor Pressure

Not available

📊 Vapor Density

Not available

📊 Relative Density

Not available

📊 Bulk Density

Not available

⚖️ Density

Not available

🔥 Flammability

Not available

📊 Upper Explosive Limit

Not available

📊 Lower Explosive Limit

Not available

📊 Explosive Limits

Not available

📊 Auto Ignition Temperature

Not available

📊 Decomposition Temperature

Not available

💧 Solubility

Insoluble

📊 Partition Coefficient

Not available

📊 Solubility In Water

Not available

📊 Solubility In Fat

Not available

📊 Molecular Weight

Not available

📊 Voc Content

Not available

📊 Metal Corrosion

Not available

📊 Dynamic Viscosity

Not available

📊 Kinematic Viscosity

Not available

📊 Properties Status

Not available

Safe Handling & Storage Procedures

Industrial handling precautions, storage conditions, and workplace safety requirements

⚠️ Handling Precautions

• In case of cell damage, possible release of dangerous substances and a flammable gas mixture.

• The battery stores electrical energy and is capable of rapid energy discharge.

• Battery cell contents are under pressure.

• Handle battery carefully to avoid puncturing case or electrically shorting terminals.

🏪 Storage Conditions

• Storage at room temperature (approx.

• 20℃) at approx.

• 40% of the nominal capacity.

• Keep in closed original container.

Exposure Controls & Personal Protective Equipment (PPE)

Occupational exposure limits, engineering controls, and required safety equipment

🏭 Engineering Controls

Avoid charging batteries in areas where hydrogen gas accumulates. Use local exhaust ventilation to maintain concentrations of hydrogen below the Lower Explosive limit and to collect and transport flammable gases in ventilation systems. Ensure proper ventilation is present and electrolyte mist and vapours.

🧤 Hand Protection

Wear nitrile butyl rubber, neoprene, or PVC glove during battery component disassembly. Discard contaminated work clothing after one workday.

👁️ Eye Protection

Wear ANSI approved safety glasses with side shield during normal use. Wear NIOSH approved face shield with safety glasses and H.V protection during intentional disassembly.

😷 Respiratory Protection

None required during normal use. Wear NIOSH or European Standard EN 149 approved full or half face piece (with goggles) respiratory protective equipment when necessary. In lack of oxygen (< 19.5%), wear the supplied-air respirator or self-contained oxygen breathing apparatus. In case exposed to particulate material, the respiratory protective equipment as follow is recommended; facepiece filtering respirator or air-purifying respirator, high-efficiency particulate air (HEPA) filter media or respirator equipped with powered fan, filter media of use (dust, mist, fume).

🦺 Skin/Body Protection

Wear protective clothing during battery component disassembly. Discard contaminated work clothing after one workday.

🌍 Environmental Exposure Controls

Not available

Chemical Stability & Reactivity Data

Chemical stability, hazardous reactions, and incompatible materials information

✅ Chemical Stability

There is no hazard when the measures for handling and storage are followed. Stable under normal temperatures and pressures.

⚗️ Reactivity

Stable at ambient temperature.

⚠️ Hazardous Reactions

Will not occur under normal conditions. In case of cell damage, possible release of dangerous substances and a flammable gas mixture. Containers may explode when heated. Fire may produce irritating and/or toxic gases. Some liquids produce vapors that may cause dizziness or suffocation. Inhalation of material may be harmful.

🚫 Conditions to Avoid

Keep away from heat/sparks/open flames/hot surfaces. No smoking. Friction, heat, sparks, or flames. Dusts or shavings from borings, turnings, cuttings, etc. Do not exceed manufacturer's recommendation for charging or use battery for an application for which it was not specifically designed. Do not electrically short.

🧪 Incompatible Materials

Avoid contact with acids and oxidizers. Keep away from any possible contact with water, because of violent reaction and possible flash fire. Handle under inert gas. Protect from moisture. Combustibles, reducing agents.

💨 Hazardous Decomposition Products

None under normal conditions. Corrosive and/or toxic fume. Material may produce irritating and highly toxic gases from decomposition by heat and combustion during burning. Irritating and/or toxic gases.

Ecological Information & Environmental Impact

Environmental toxicity, biodegradation, bioaccumulation, and ecological effects data

🌱 Ecological toxicity

- Acute toxicity: ATEmix = 0.13mg/l Fish - Fe: 96hr-LC50 (Brachy danio rerio) > 10000 mg/L (OECD TG 203, GLP) - Graphite: 96hr-LC50 > 100 mg/L - Aluminum: 96hr-LC50 > 218.64 mg/L (GLP) (Read across; aluminum chloride hexahydrate), 28d-NOEC (Pimephales promelas) = 4.7 mg/L (Read across; aluminum sulphate) - Cobalt lithium dioxide: 96hr-LC50 = 54.1 mg/L (Read across; cobalt (II) chloride hexahydrate), 34d-NOEC (Pimephales promelas) = 0.21 mg/L - 1,3-Dioxolan-2-one: 96hr-LC50 > 100 mg/L (OECD Guideline 203, GLP) - Lithium hexafluorophosphate (1-): 96hr-LC50 = 51 ~ 193 mg/L Information on major hydrolysis product of the registered substance (released rapidly on contact with water/moisture); 21d-NOEC=4 mg F-/L - Ethyl methyl carbonate: 96hr-LC50 > 100 mg/L (OECD Guideline 203, GLP) - Carbon black: 96hr-LC0 = 1000 mg/L (OECD TG 203, GLP) ### Crustacean - Fe: 48hr-EC50 (Daphnia magna) > 100 mg/L (OECD TG 202, GLP) - Graphite: 48hr-EC50 > 100 mg/L - Aluminum: 48hr-LC50 = 0.071 mg/L (Read across; CAS 13473-90-0), 8d-NOEC (Ceriodaphnia dubia) = 4.9 mg/L (Read across; CAS 7784-13-6): 48hr-EC50 = 2.618 mg/L (GLP) (Read across; cobalt (II) chloride hexahydrate), 42d-NOEC (Neanthes arenaceodentata) = 0.713 mg/L (ASTM Method E1562, GLP) - 1,3-Dioxolan-2-one: 48hr-EC50 > 100 mg/L (OECD Guideline 202, GLP) - Lithium hexafluorophosphate (1-): 48hr-LC50 > 100 mg/L (OECD Guideline 202, GLP); 21d-NOEC (Daphnia magna) = 10 mg/L (Information on major hydrolysis product of the registered substance (released rapidly on contact with water/moisture)) (OECD guideline 202, GLP) - Ethyl methyl carbonate: 48hr-EC50 > 100 mg/L (OECD Guideline 202, GLP) - Carbon black: 24hr-EC50 > 5600 mg/L (OECD TG 202, GLP) ## Algae - Graphite: 72hr-EC50 (Selenastrum capricornutum) > 100 mg/L - Aluminum: 72hr-EC50 = 0.0169 mg/L (OECD TG 201), (Read across; CAS 13473-90-0) - Cobalt lithium dioxide: 96hr-EC50 = 71.314 mg/L (Read across; cobalt (II) chloride hexahydrate), 96hr-NOEC (Dunaliella tertiolecta) = 4.672 mg/L - 1,3-Dioxolan-2-one: 72hr-EC50 > 100 mg/L (OECD Guideline 201, GLP), 72hr-NOEC (Selenastrum capricornutum) = 100mg/L (OECD Guideline 201, GLP) - Lithium hexafluorophosphate (1-): 96hr-EC50 > 100 mg/L; 96h-NOEC = 22 mg/L (OECD Guideline 201, GLP) - Ethyl methyl carbonate: 72hr-EC50 > 62 mg/L (OECD Guideline 201, GLP), 72hr-NOEC (Scenedesmus subspicatus) = 50 mg/L (OECD Guideline 201, GLP) - Carbon black: 72hr-EC50 > 10000 mg/L, 72hr-NOEC> 10,000mg/l (OECD TG 201, GLP)

🌱 Persistence

- Graphite: Low persistency (log Kow is less than 4 estimated.) (Log Kow = 0.78) - Aluminum: Low persistency (log Kow is less than 4 estimated.) (Log Kow = 0.33) (estimated) - 1,3-Dioxolan-2-one: Low persistency (log Kow is less than 4 estimated.) (Log Kow = 0.11) (20 ℃, pH> 5.33 - < 5.79) (EU Method A.8, GLP) - Lithium hexafluorophosphate (1-): Low persistency (log Kow is less than 4 estimated.) (Log Kow = 0.354) (20 ℃, pH > 6.5 -< 7.5) (OECD Guideline 107, GLP) - Ethyl methyl carbonate: Low persistency (log Kow is less than 4 estimated.) (Log Kow = 0.972) (40 °℃, pH 6.8) Degradability: Not available

🌱 Bioaccumulation

- Copper: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 0.02 ~20) - Graphite: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 2.433) - Aluminum: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 3.162) (estimated) - Dimethyl carbonate: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 3.2) - Cobalt lithium dioxide: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 23) (Read across; 57CoCl) - Nickel; Raney nickel: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 70) - 1,3-Dioxolan-2-one: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 3.162) (estimated) - Lithium hexafluorophosphate (1-): Bioaccumulation is expected to be low according to the BCF < 500 (BCF < 31) - Ethyl methyl carbonate: Bioaccumulation is expected to be low according to the BCF < 500 (BCF = 3.162) (estimated) ### Biodegradation - Dimethyl carbonate: As well-biodegraded, it is expected to have low accumulation potential in living organisms (= 86% biodegradation was observed after 28 days) (OECD Guideline 301 C, GLP) - Polyethylene: As not well-biodegraded, it is expected to have high accumulation potential in living organisms (= 0% biodegradation was observed after 28 days) - 1,3-Dioxolan-2-one: As well-biodegraded, it is expected to have low accumulation potential in living organisms (70% ~ 80% biodegradation was observed after 10 days) (OECD Guideline 301 A, GLP) - Lithium hexafluorophosphate (1-): As well-biodegraded, it is expected to have low accumulation potential in living organisms (= 86% biodegradation was observed after 28 days) (OECD Guideline 301 C, GLP) - Ethyl methyl carbonate: As well-biodegraded, it is expected to have low accumulation potential in living organisms (=98% biodegradation was observed after 28 days) - Carbon black: carbon black is an inorganic substance and will not biodegraded by microorganisms.

🌱 Mobility in soil

- Nickel; Raney nickel: Low potency of mobility to soil. (Koc = 2.86) - 1,3-Dioxolan-2-one: Low potency of mobility to soil. (Koc = 3.219) (estimated) - Ethyl methyl carbonate: Low potency of mobility to soil. (Koc = 1.58) (40 ℃) (OECD Guideline 121, GLP)

🌱 Results of PBT and vPvB assessment

Not available

🌱 Other adverse effects

Not available

Waste Disposal & Treatment Methods

Waste disposal procedures, treatment methods, and regulatory compliance requirements

♻️ Waste Treatment Methods

Consider the required attentions in accordance with waste treatment management regulation.

🗂️ Product Disposal Recommendations

Waste must be disposed of in accordance with federal, state, and local environmental control regulations.

🏷️ Waste Classification Codes

16-06-05 LoW

Transportation & Shipping Information

UN numbers, shipping names, transport classes, and regulatory transport requirements

🏷️ UN Number

3480

📦 Proper Shipping Name

LITHIUM-ION BATTERIES

⚠️ Transport Hazard Class

📋 Packing Group

Regulatory Information & Compliance

Chemical regulations, safety assessments, and regulatory compliance status

📋 Regulatory Summary

EU regulations

❌ Chemical Safety Assessment

No chemical safety assessment has been performed for this substance.

ℹ️ Additional Regulatory Information

No chemical safety assessment has been carried out for this product by the supplier.

Chemical Safety FAQ & Common Questions

Most frequently asked questions about safety, handling, storage, and regulatory compliance

What is the physical form of Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014?

Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014 is a solid appearing as solid with not available color. It has odorless odor.

What is the solubility of Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014?

Insoluble

What is the melting point of Lithium - Ion Rechargeable Battery Pack BL1 013/ BL1014?

The melting point is Not available and the boiling point is Not available.