Biomaterial Fiber

Your Professional Biomaterial Fiber Supplier

Our goal is to become your true partner in the field of biomaterial fiber China. Suzhou Huanhua Fiber Sci-Tech Co.,Ltd. is a modern materials production enterprise that integrates research and development, manufacturing, sales, and service. Through continuous technological innovation and product development, the company aims to provide comprehensive services to its clients.

Why Choose Us

Product Application
The company's products include other PGA products and various biodegradable materials such as PCL, PTMC, PPDO, PLA and PLGA. We also sell monomers such as GA and LA. These products are widely used in the biomedical field.

Our Equipment
Our factory is equipped with advanced machines such as looms, spinning machines and winding machines. We use the latest technology in production and adopt new processes, which results in higher quality products.

Our Certificates
We have certificates such as CN202310817519.8, CN202311480030.2, CN202410356589.2.

Our Services
We have professional customer service staff who fully understand the needs of customers, provide accurate and professional information and promptly answer any questions that customers may have. We provide corresponding products according to customer needs and provide solutions for any problems encountered during purchase and transportation. If any problems arise during the use of the product, we will assign someone to communicate and solve the problem.

Types of Biomaterial Fiber

The other biomaterial product produced by our company mainly include the following types:

PLGA Fiber

PLGA copolymers degrade through the cleavage of ester bonds in their main chain. The degradation products are harmless and can be excreted from the body. The degradation rate of the materials varies with changes in their composition, so as to meet a variety of application scenarios.

PGA Fiber

PGA fibers are formed by melt spinning. They are possess good strength, and have excellent mechanical properties. Their degradation products are harmless to the human body and can be excreted. So it can be used as absorbable surgical sutures. They can completely degrade within three months in the human body.

Advantages of Biomaterial Fiber

PLGA Fiber

PLGA fiber have many advantages, including: PLGA fibers possess excellent properties such as biocompatibility, biodegradability, mild undesirable host reactions. Their diameters range from nano to millimeter scale.

PGA Fiber

PGA fiber have many advantages, including: PGA fiber also known as polyglycolide, is a synthetic polymer material with good biodegradability and biocompatibility. It is a simple linear aliphatic polyester and forms a crystalline polymer.

Application of Biomaterial Fiber

PLGA Fiber

PLGA fiber can be used for a variety of purposes, including: PLGA fibers are widely studied and applied in biomedical fields. They can be made into various forms and used for implants and other surgical applications, such as sutures, tissue engineering, and drug delivery.

PGA Fiber

PGA fiber can be used for a variety of purposes, including: PGA mainly finds application in the medical field as it is absorbable. Meshs made out of PGA can be used as scaffold, artificial dura or as reinforcement for adhesion barrier whilst PGA yarn (mainly in the form of braids) is for sutures and stents.

Properties and Specification of PLGA Fiber

Appearance	Violet, undyed
Tow	18F/24F/32F/36F/48F/64F
Diameters (dtex)	40～160
Strength (cN/dtex)	4.5～6.0
Water content (ppm)	≤50

Properties and Specification of PGA Fiber

Appearance	Violet, undyed
Tow	18F/24F/32F/36F/48F/64F
Diameters (dtex)	40～160
Strength (cN/dtex)	4.5～6.0
Water content (ppm)	≤50

Synthesis of PLGA Fiber

PLGA monofilament tensile strength without any processing is 172.5MPa, is 3 times of left and right of PLLA tensile strength.Meanwhile, PLGA has been proved has good biocompatibility, and complete biodegradable.Its degradation rate is obviously faster than PLLA-TMC multipolymer.And PLGA fiber is insoluble to methylene dichloride, trichloromethane and tetrahydrofuran (THF) etc. and common are machine solvent.Thereby we strengthen PLLA-TMC multipolymer with PLGA fiber, not only can effectively improve in theory the intensity of multipolymer, also can regulate and control flexibly degradation rate simultaneously.

The mechanical strength that improves material just needs further to improve the interface binding power between two-phase.Such as, acid soak is carried out surface treatment, and Cryogenic air plasma treatment patent can obtain good effect.We adopt sample damage minimum in order to reach good interface combination, and the obvious Surface Treatment with Plasma of effect is carried out modification to PLGA. Wherein atmosphere adopts for the conventional surface treatment atmospheric oxygen of polymkeric substance, carries out plasma immersion, and reach and make fiber show the object that roughness increases and active function groups increases, thus the avidity of fortifying fibre and matrix.

A kind of PLGA(poly(lactic acid)-glycollide has been proposed) fiber reinforcement PLLA-TMC matrix material, and PLGA fiber is carried out to Surface Treatment with Plasma make the two can reach good composite effect, and then the tensile strength that can make mixture gets a promotion, degradation rate can regulate

Packaging and Shipping of Biomaterial Fiber

Transport Package	Foil Bag and Carton
Shipping	Air, land, sea

FAQ

Q: Is PLGA safe?

A: Although PLGA is generally considered safe, a detailed understanding of how PLGA and the other components used to help formulate this copolymer into a nanoparticle delivery vehicle is useful for assessing potential harmful effects.

Q: How does PLGA degrade in the body?

A: PLGA polymers degrade by bulk hydrolysis of ester bonds, and breakdown to their constituent monomers, lactic and glycolic acids, which are eliminated from the body through Kreb's cycle.

Q: What is the storage condition for PLGA?

A: PLGA poly(lactic-co-glycolic) acid; synthetic; (75% lactic and 25% glycolic acid, ~ 65-105 Kda) Cat.No. Shipped at room temperature and it should be stored at 2-8 C. Long term storage at -20 C for up to 6 months.

Q: Is PLGA approved by the FDA?

A: PLGA are a family of FDA-approved biodegradable polymers that are physically strong and highly biocompatible and have been extensively studied as delivery vehicles of drugs, proteins, and macromolecules such as DNA and RNA.

Q: Is PLGA biocompatible?

A: PLGA is biocompatible and biodegradable, exhibits a wide range of erosion times, has tunable mechanical properties and most importantly, is a FDA approved polymer.

Q: What is PGA and PLA?

A: PGA, PLA and their co-polymers are the most widely used synthetic degradable polymers in medicine.

Q: How long does a PGA suture last?

A: Polyglycolic Acid suture absorbs by simple hydrolytic mechanism and absorption is predictable. PGA Suture retains approximately 75% of the initial tensile strength after 2 weeks, 50% after 3 weeks and 25% after 4weeks and is absorbed completely in 60 to 90days.

Q: What is PGA solvent?

A: Polyglycolides or polyglycolic acids (PGA) are crystalline biodegradable polymers. Their high melting temperature and limited solubility creates difficulty in processing.

We're well-known as one of the leading biomaterial fiber manufacturers and suppliers in China. Please rest assured to buy bulk customized biomaterial fiber from our factory. Contact us for more cheap products.

PGA Fiber, biomaterial fiber, green fiber processing