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Introduction and application of PLA materials

📅 2021/5/10 👁 1087 views 🏷 New Products & Factory Updates
Introduction and application of PLA materials

What is PLA ?

Polylactic acid (PLA) is a new type of bio-based and renewable biodegradable material,

made from the starch raw materials proposed by renewable plant resources (such as

corn, cassava, etc.). Starch raw materials are saccharified to obtain glucose, which is

then fermented by glucose and certain strains to produce high-purity lactic acid and

then a certain molecular weight polylactic acid is synthesized by chemical synthesis. It

has good biodegradability. It can be completely degraded by microorganisms in nature

under specific conditions after use and finally generate carbon dioxide and water

without polluting the environment. This is very good for protecting the environment.It

is recognized as an environmentally friendly material. Polylactic acid is also Known as

polylactide (polylactide), belongs to the polyester family


Where does the PLA comes from?

Polylactic acid is a polymer obtained by polymerization of lactic acid as the main raw

material. The raw material source is sufficient and renewable. It mainly uses corn,

cassava, etc. as raw materials. Starch raw materials are saccharified to obtain glucose,

which is then fermented by glucose and certain strains to produce high-purity lactic

acid, and then a certain molecular weight polylactic acid is synthesized by chemical

synthesis. The production process of polylactic acid is pollution-free, and the product

can be biodegraded to realize the circulation in nature, so it is an ideal green polymer

material. 



The Features of PAL

Polylactic acid has good thermal stability, the processing temperature is 170~230

and it has good solvent resistance. It can be processed in a variety of ways, such as

extrusion, spinning, biaxial stretching, and injection blow molding. In addition to being

biodegradable, products made of polylactic acid have good biocompatibility, gloss,

transparency, hand feel and heat resistance, and also have a certain degree of bacteria

resistance, flame retardancy and UV resistance.


1. Sufficient source of raw materials The raw material for the production of polylactic

acid is corn and other renewable resources, without the use of precious natural

resources such as oil and wood. Therefore, it will play a very protective role for the

depleted oil resources, and it will be increasingly tight for oil. China also has unique

strategic significance.


2. Low energy consumption In the production process of polylactic acid, the energy

consumption used by it is significantly lower than that of PET, PA, PAN and other

petroleum-based resins, which is only 20-50% of the latter.


3. Biodegradability The biggest feature of polylactic acid is its superior biodegradability.

After being discarded, it can be decomposed into lactic acid in nature, and finally

hydrolyzed into carbon dioxide and water. Through the photosynthesis of plants, carbon

dioxide and water can be turned into starch, which circulates in nature and forms an

ecological balance. Replacing ordinary plastics with polylactic acid can solve the white

pollution problem that plagues the world today.


4. Superior physical properties Polylactic acid has superior physical properties. It has the highest

melting point among all biodegradable polymers, and has large crystallinity and transparency. It is

suitable for various processing methods such as blow molding, thermoplastics, and wire drawing.

It can be processed Form polylactic acid film, polylactic acid fiber, etc. The physical properties of

polylactic acid fiber are between polyester (PET fiber) and nylon, but it has a low melting point,

has a good hand feel, and its dyeability, moisture absorption, and wrinkle resistance are better

than polyester. Therefore, it is also a rational raw material for making clothing.


5. Biocompatibility Polylactic acid also has excellent biocompatibility. Its degradation product, L-

lactic acid, can participate in human metabolism. It has been approved by the U.S. Food and Drug

Administration (FDA) and can be used for medical surgical sutures and injections. Capsules,

microspheres and implants, etc.


6 .Compared with traditional petroleum-based plastics, PLA is safer, low-carbon and green.

The monomers of traditional plastics are either toxic substances or carcinogens, while the

monomeric lactic acid of PLA is a widely used food additive, which finally turns into glucose

after glycolysis in the body. During the production and use of PLA products, no toxic and

harmful substances will be added or produced.

Although the PLA material is very powerful, it also has its weaknesses: poor heat resistance

and hydrolysis resistance, which imposes many restrictions on the use of PLA products.

Therefore, in actual production, material modification and special in-mold crystallization

process are required to meet the requirements.

Polylactic acid contains a large number of ester bonds, and has poor blending properties

with most other plastics

The price is higher than traditional plastic.


How PLA is degraded?

Discarded PLA products can be "buried" and degraded into water and carbon dioxide

by natural microorganisms. This process takes only 6 to 12 months and is a truly

environmentally friendly material.



Application of PLA

1. Application in clinical orthopedics Because biodegradable polyester can be

degraded in the body without secondary surgery, it is widely used as an internal

fixation material in clinical orthopedics.

Surgical sutures are made of biodegradable polyester sutures, no secondary sutures

are required after surgery, and they have good compatibility with the body and are

degradable.

The strength and toughness of stainless steel as a fracture fixation material are greater

than that of human bone, and its mechanical properties cannot change dynamically

with the bone healing process. Stress shielding appears in medicine, which leads to

fracture osteoporosis and bone degeneration.


2. In industry and agriculture, polylactic acid (PLA) materials with good toughness

characteristics are used to make buildings and ropes, paper, plastic films, etc.; fishing

gear, fishing gear, seaweed breeding nets, fishing lines, etc.; polylactic acid can also be

used as soil moisture and desert greening Materials, fertilizers, slow-release materials,

etc.


3. Polylactic acid can also be used as a substitute for paper, paper, plastic film,

packaging film, food containers, household garbage bags, cosmetic ingredients, etc.

Use ordinary plastic injection mold equipment to process various tableware such as

cups and saucers, bowls, chopsticks, basins and other daily necessities. This is the

application of our industry as long as the processing technology is proper and the

material modification technology meets the requirements. The physical properties of

its products and other plastics in the short term are not much different

 

 

 

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