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GB/T 30835-2014 English PDF (GBT30835-2014)
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GB/T 30835-2014: Lithium iron phosphate-carbon composite cathode materials for lithium ion battery
GB/T 30835-2014
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 29.050
Q 53
Lithium iron phosphate-carbon composite cathode materials
for lithium ion battery
ISSUED ON: JUNE 24, 2014
IMPLEMENTED ON: APRIL 01, 2015
Issued by: General Administration of Quality Supervision, Inspection and
Quarantine of the People's Republic of China;
Standardization Administration of the People's Republic of China.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative references ... 4
3 Terms and definitions ... 5
4 Classification and codes ... 5
5 Technical requirements ... 6
6 Test methods ... 7
7 Inspection rules ... 9
8 Packaging, marks ... 11
9 Storage and transportation ... 11
Annex A (normative) Method for determination of lithium content (excluding carbon
content) ... 13
Annex B (normative) Method for determination of iron content (excluding carbon
content) ... 17
Annex C (normative) Method for determination of phosphorus content (excluding
carbon content) ... 21
Annex D (informative) Method for determination of crystal structure ... 26
Annex E (normative) Method for determination of iron ion dissolution rate ... 29
Annex F (normative) Method for determination of first coulombic efficiency, first
reversible specific capacity, rate performance ... 33
Annex G (normative) Method for determination of conductivity ... 38
Lithium iron phosphate-carbon composite cathode materials
for lithium ion battery
1 Scope
This Standard specifies the terms and definitions, classification and codes, technical
requirements, test methods, inspection rules and packaging, marking, storage and
transportation for lithium iron phosphate-carbon composite cathode materials for
lithium ion battery.
This Standard applies to lithium iron phosphate-carbon composite cathode materials for
lithium ion battery.
2 Normative references
The following referenced documents are indispensable for the application of this
document. For dated references, only the edition cited applies. For undated references,
the latest edition of the referenced document (including any amendments) applies.
GB/T 191, Packaging and storage marks
GB/T 5162, Metallic powders -- Determination of tap density
GB/T 6283, Chemical products -- Determination of water Karl-Fischer method
(general method)
GB/T 6388, Transport package shipping mark
GB/T 6682, Water for analytical laboratory use -- Specification and test methods
GB/T 9724, Chemical reagent -- General rule for the determination of pH
GB/T 12805, Laboratory glassware -- Burettes
GB/T 13732, General rules for sampling inspection of bulk materials with uniform
size
GB/T 19077.1, Particle size analysis -- Laser diffraction methods -- Part 1: General
principles
GB/T 19587, Determination of the specific surface area of solids by gas adsorption
using the BET method
GB/T 20123, Steel and iron -- Determination of total carbon and sulfur content
Infrared absorption method after combustion in an induction furnace (routine
method)
GB/T 24533-2009, Graphite negative electrode materials for lithium ion battery
JCPDS (01-077-0179), Lithium iron phosphate X-ray powder diffraction standard
pattern
IEC 62321, Electrotechnical products - Determination of levels of six regulated
substances (lead, mercury, cadmium, hexavalent chromium, polybrominated
biphenyls, polybrominated diphenyl ethers)
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1 lithium iron phosphate-carbon composite cathode materials
Lithium-ion battery cathode material composed of lithium iron phosphate and carbon
with an olivine structure. Lithium iron phosphate belongs to the orthorhombic crystal
system. It has a one-dimensional lithium embedded channel. Lithium ions can be
reversibly deintercalated within the crystal lattice. The theoretical specific capacity of
the material is 170 mA·h/g.
NOTE: LFP@C mentioned in this Standard all represents lithium iron phosphate-carbon composite
cathode materials.
4 Classification and codes
4.1 Product classification
Lithium iron phosphate-carbon composite cathode materials are divided into energy
type and power type according to charge and discharge characteristics and usage
requirements, represented by LFP@C-E and LFP@C-P respectively. LFP represents
lithium iron phosphate, @ represents the composite of two materials, C represents
carbon, E represents energy type, and P represents power type:
- Energy type lithium iron phosphate-carbon composite cathode materials (LFP@C-
E) are divided into three categories, represented by LFP@C-E-Ⅰ, LFP@CE-Ⅱ,
and LFP@C-E-Ⅲ. The specific performance requirements are detailed in Table
2;
- Power type lithium iron phosphate-carbon composite cathode materials (LFP@C-
P) are divided into three categories, represented by LFP@C-P-Ⅰ, LFP@CP-Ⅱ, and
LFP@C-P-Ⅲ. The specific performance requirements are detailed in Table 2.
6.17 Conductivity
Measure according to the measurement method specified in Annex G.
6.18 Restricted substance content
The measurement is carried out according to the measurement method specified in IEC
62321.
7 Inspection rules
7.1 Sampling method
7.1.1 Sampling
7.1.1.1 Lithium iron phosphate-carbon composite cathode materials for bagged lithium-
ion batteries shall be sampled in accordance with GB/T 13732. Open the bag of lithium
iron phosphate-carbon composite cathode material to be collected in a dry environment.
Use a clean stainless steel sampling drill to insert into the bag along the axis. The
insertion depth shall not be less than 4/5 of the depth of the sampling bag. Samples are
taken within 20 mm around the central axis of the material in the bag.
7.1.1.2 In order to make the collected samples represent the quality of this batch of
products, all collected samples are combined. Place on a square film of sufficient
strength and appropriate size or firm, soft drying paper. Mix evenly by rolling
repeatedly (turn more than 15 times). The mixed sample shall not be less than 500 g.
Cut off two 250 g specimens, one for testing and one for backup.
7.1.2 Sample label
After the sample is placed in the PVC sample jar, a label is immediately attached to the
outer wall. The label includes the following:
a) Sample type and number;
b) Overall material batch number and quantity;
c) Sample size;
d) Sampling date;
e) Name of sampler.
7.1.3 Storage of samples
7.1.3.1 Samples shall be sealed and stored in anti-breakage bags, rain-proof, moisture-
proof and other environments.
7.1.3.2 The effective storage period of spare samples is 12 months.
7.2 Inspection
7.2.1 Exit-factory inspection
Inspect the particle size, carbon content, moisture content, BET specific surface area,
tap density, electrochemical performance, iron ion dissolution amount, conductivity and
other indicators of each batch of samples. They can be shipped only after passing the
inspection.
7.2.2 Type inspection
All technical requirements specified in this Standard shall be inspected. Type inspection
is carried out when one of the following situations occurs:
a) When there are changes in raw material models, supplier manufacturers, etc.;
b) When there are changes in the production process;
c) When the production equipment has been shut down for more than half a year and
then starts production for the first time;
d) When customers have sp...
Get QUOTATION in 1-minute: Click GB/T 30835-2014
Historical versions: GB/T 30835-2014
Preview True-PDF (Reload/Scroll if blank)
GB/T 30835-2014: Lithium iron phosphate-carbon composite cathode materials for lithium ion battery
GB/T 30835-2014
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 29.050
Q 53
Lithium iron phosphate-carbon composite cathode materials
for lithium ion battery
ISSUED ON: JUNE 24, 2014
IMPLEMENTED ON: APRIL 01, 2015
Issued by: General Administration of Quality Supervision, Inspection and
Quarantine of the People's Republic of China;
Standardization Administration of the People's Republic of China.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative references ... 4
3 Terms and definitions ... 5
4 Classification and codes ... 5
5 Technical requirements ... 6
6 Test methods ... 7
7 Inspection rules ... 9
8 Packaging, marks ... 11
9 Storage and transportation ... 11
Annex A (normative) Method for determination of lithium content (excluding carbon
content) ... 13
Annex B (normative) Method for determination of iron content (excluding carbon
content) ... 17
Annex C (normative) Method for determination of phosphorus content (excluding
carbon content) ... 21
Annex D (informative) Method for determination of crystal structure ... 26
Annex E (normative) Method for determination of iron ion dissolution rate ... 29
Annex F (normative) Method for determination of first coulombic efficiency, first
reversible specific capacity, rate performance ... 33
Annex G (normative) Method for determination of conductivity ... 38
Lithium iron phosphate-carbon composite cathode materials
for lithium ion battery
1 Scope
This Standard specifies the terms and definitions, classification and codes, technical
requirements, test methods, inspection rules and packaging, marking, storage and
transportation for lithium iron phosphate-carbon composite cathode materials for
lithium ion battery.
This Standard applies to lithium iron phosphate-carbon composite cathode materials for
lithium ion battery.
2 Normative references
The following referenced documents are indispensable for the application of this
document. For dated references, only the edition cited applies. For undated references,
the latest edition of the referenced document (including any amendments) applies.
GB/T 191, Packaging and storage marks
GB/T 5162, Metallic powders -- Determination of tap density
GB/T 6283, Chemical products -- Determination of water Karl-Fischer method
(general method)
GB/T 6388, Transport package shipping mark
GB/T 6682, Water for analytical laboratory use -- Specification and test methods
GB/T 9724, Chemical reagent -- General rule for the determination of pH
GB/T 12805, Laboratory glassware -- Burettes
GB/T 13732, General rules for sampling inspection of bulk materials with uniform
size
GB/T 19077.1, Particle size analysis -- Laser diffraction methods -- Part 1: General
principles
GB/T 19587, Determination of the specific surface area of solids by gas adsorption
using the BET method
GB/T 20123, Steel and iron -- Determination of total carbon and sulfur content
Infrared absorption method after combustion in an induction furnace (routine
method)
GB/T 24533-2009, Graphite negative electrode materials for lithium ion battery
JCPDS (01-077-0179), Lithium iron phosphate X-ray powder diffraction standard
pattern
IEC 62321, Electrotechnical products - Determination of levels of six regulated
substances (lead, mercury, cadmium, hexavalent chromium, polybrominated
biphenyls, polybrominated diphenyl ethers)
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1 lithium iron phosphate-carbon composite cathode materials
Lithium-ion battery cathode material composed of lithium iron phosphate and carbon
with an olivine structure. Lithium iron phosphate belongs to the orthorhombic crystal
system. It has a one-dimensional lithium embedded channel. Lithium ions can be
reversibly deintercalated within the crystal lattice. The theoretical specific capacity of
the material is 170 mA·h/g.
NOTE: LFP@C mentioned in this Standard all represents lithium iron phosphate-carbon composite
cathode materials.
4 Classification and codes
4.1 Product classification
Lithium iron phosphate-carbon composite cathode materials are divided into energy
type and power type according to charge and discharge characteristics and usage
requirements, represented by LFP@C-E and LFP@C-P respectively. LFP represents
lithium iron phosphate, @ represents the composite of two materials, C represents
carbon, E represents energy type, and P represents power type:
- Energy type lithium iron phosphate-carbon composite cathode materials (LFP@C-
E) are divided into three categories, represented by LFP@C-E-Ⅰ, LFP@CE-Ⅱ,
and LFP@C-E-Ⅲ. The specific performance requirements are detailed in Table
2;
- Power type lithium iron phosphate-carbon composite cathode materials (LFP@C-
P) are divided into three categories, represented by LFP@C-P-Ⅰ, LFP@CP-Ⅱ, and
LFP@C-P-Ⅲ. The specific performance requirements are detailed in Table 2.
6.17 Conductivity
Measure according to the measurement method specified in Annex G.
6.18 Restricted substance content
The measurement is carried out according to the measurement method specified in IEC
62321.
7 Inspection rules
7.1 Sampling method
7.1.1 Sampling
7.1.1.1 Lithium iron phosphate-carbon composite cathode materials for bagged lithium-
ion batteries shall be sampled in accordance with GB/T 13732. Open the bag of lithium
iron phosphate-carbon composite cathode material to be collected in a dry environment.
Use a clean stainless steel sampling drill to insert into the bag along the axis. The
insertion depth shall not be less than 4/5 of the depth of the sampling bag. Samples are
taken within 20 mm around the central axis of the material in the bag.
7.1.1.2 In order to make the collected samples represent the quality of this batch of
products, all collected samples are combined. Place on a square film of sufficient
strength and appropriate size or firm, soft drying paper. Mix evenly by rolling
repeatedly (turn more than 15 times). The mixed sample shall not be less than 500 g.
Cut off two 250 g specimens, one for testing and one for backup.
7.1.2 Sample label
After the sample is placed in the PVC sample jar, a label is immediately attached to the
outer wall. The label includes the following:
a) Sample type and number;
b) Overall material batch number and quantity;
c) Sample size;
d) Sampling date;
e) Name of sampler.
7.1.3 Storage of samples
7.1.3.1 Samples shall be sealed and stored in anti-breakage bags, rain-proof, moisture-
proof and other environments.
7.1.3.2 The effective storage period of spare samples is 12 months.
7.2 Inspection
7.2.1 Exit-factory inspection
Inspect the particle size, carbon content, moisture content, BET specific surface area,
tap density, electrochemical performance, iron ion dissolution amount, conductivity and
other indicators of each batch of samples. They can be shipped only after passing the
inspection.
7.2.2 Type inspection
All technical requirements specified in this Standard shall be inspected. Type inspection
is carried out when one of the following situations occurs:
a) When there are changes in raw material models, supplier manufacturers, etc.;
b) When there are changes in the production process;
c) When the production equipment has been shut down for more than half a year and
then starts production for the first time;
d) When customers have sp...
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