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Bioplastic

Bioplastics, Biopolymers, Biodegradable Plastics
(Microalgal starch and Microalgal/Bacterial PHB based)

**** We feel honored that we don’t use nutritional starch (as corn starch) for bioplastic production.****

“While we fight for against sera gases, we have to keep nutrition.”

 

COMPOSTABLE BioPlastic
Ingredients: Microalgal starch, Microalgal oil, sorbitol, microalgal padding material

 

Properties and Data: MCPB-01

Testing Item

Unit

Result

Appearance

 

Light yellow

Density

g/cm3

1.1 – 1.3

Moisture Content

%

0.5 – 1

Melt Flow Rate

g/10 min

2 -5

Tensile strength

MPa

≥15

Breaking Elongation

%

≥320

Bio Substances Content

%

≥99

N-hexane Extracts

%

≤3.0

Softening Point

ºC

>75

Degradation rate in 100days

%

>99

 

BIODEGRADABLE Bioplastic
Ingredients: Microalgal starch, Microalgal oil, sorbitol, microalgal padding material

 

Properties and Data MBBP-01

Testing Item

Unit

Result

Appearance

Light Yellow

Density

g/ cm3

0.99 – 1.07

Moisture Content

%

0.3 – 1.4

Melt Flow Index

g/10 min

0 – 2

Tensile strength

MPa

≥14

Breaking Elongation

%

≥280

Bio Substances Content

%

≥97

N-hexane Extracts

%

≤4.0

Softening Point

ºC

> 70

Degradation rate in100days

%

> 87

 

BIODEGRADABLE Bioplastic
Ingredients: Microalgal starch, Microalgal oil, sorbitol, microalgal padding material

 

Properties and Data: MBBP-02

Testing Item

Unit

Result

Appearance

Light yellow

Density

g/ cm3

0.98 – 1.10

Moisture content

%

0.3 – 1.4

Melt Flow Rate

g/10 min

2 – 5

Tensile Strength

MPa

≥20

Breaking Elongation

%

≥50

Bio Substances Content

%

≥90

N-hexane Extracts

%

≤3.0

Rockwell Hardness

R Standard

50

Impact strength

Kj/m2

20

Thermal Shrinkage

%

<2

Softening Point

ºC

>85

Degradation rate in100days

%

> 90

 

BIODEGRADABLE Bioplastic
Ingredients: Microalgal starch, Microalgal oil, sorbitol, microalgal padding material

 

Properties and Data: MBBP-03

Property

Unit

Result

Appearance

Light yellow

Density

g/ cm3

1.10-1.35

Moisture Content

%

0.6 – 1.4

Melt Flow Index

g/10 min

4 to 9

Tear strength

Mpa

≥20

Elongation

%

≥80

Starch Content

%

≥50

Bio Material Content

%

≥90

N-hexane Extracts

%

≤4.0

Rockwell hardness

R Standard

80

Impact strength

Kj/m2

25

Thermal Shrinkage

%

<2

Softening Point

ºC

>90

Degradation rate in100days

%

> 90

 

BIODEGRADABLE Bioplastic
Ingredients: Microalgal starch, Microalgal oil, sorbitol, microalgal padding material

 

DataMBBP-04

Testing Item

Unit

Result

Appearance

 

Light Yellow

Density

g/ cm3

1 – 1.25

Moisture Content

%

0.5– 1.3

Melt Flow Index

g/10 min

0 – 2

Tear strength

MPa

≥15

Elongation

%

≥300

Bio Substances Content

%

≥94

N-hexane Extracts

%

≤4.0

Softening point

ºC

>65

 

Extrusion Blow Molding Grade
Ingredients: Microalgal starch, Microalgal oil, sorbitol, PHB (Poly-ß-Hydroxybutyrate)

 

Testing Item (EB-01)

Result

Density

1.25

Tensile Strength

55.4 Mpa

Tensile Elongation

5 %

Tensile Modulus

3,240 Mpa

Flexural Modulus

2,830 Mpa

Flexural Strength

92.4 Mpa

Notched Izod Impact Strength

0.0246 kJ/m

Temperature Deflection Under Load

48 ⁰C

Melt Flow Index 190⁰C

3 g/10min

We are producing Bioplastic from Spirulina dregs. When we extract some of useful materials from Spirulina microalgae, a large volume of Spirulina dregs are producing as a byproduct.
By our newly developed method, we are producing bioplastics (biodegradable plastics) with Spirulina dregs.

We are not supporting to produce bioplastics with foods. We have to produce bioplastics with other waste products and non-foods.

Bioplastics (also called organic plastics) are a form of plastics derived from renewable biomass sources, such as microalgae, vegetable oil, corn starch, pea starch or microbiota , rather than fossil fuel plastics which are derived from petroleum.

Because of their biological biodegradability, the use of bioplastics is especially popular for disposable items, such as packaging and catering items (crockery, cutlery, pots, bowls, straws). The use of bioplastics for shopping bags is already very common. After their initial use they can be reused as bags for organic waste and then be composted. Trays and containers for fruit, vegetables, eggs and meat, bottles for soft drinks and dairy products and blister foils for fruit and vegetables are also already widely manufactured from bioplastics.

Non-disposable applications include mobile phone casings and car interiors, fuel line and plastic pipe applications, and new electroactive bioplastics are being developed that can be used to carry electrical current. In these areas, the goal is not biodegradability, but to create items from sustainable resources.

Biodegradable plastics are plastics that will decompose in the natural environment. Biodegradation of plastics can be achieved by enabling microorganisms in the environment to metabolize the molecular structure of plastic films to produce an inert humus-like material that is less harmful to the environment. They may be composed of either bioplastics, which are plastics whose components are derived from renewable raw materials, or petroleum-based plastics. The use of bio-active compounds compounded with swelling agents ensures that, when combined with heat and moisture, they expand the plastic's molecular structure and allow the bio-active compounds to metabolize and neutralize the plastic.

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