Product Description
PVC (Polyvinyl Chloride) is one of the most widely used thermoplastics globally, celebrated for its exceptional versatility, chemical resistance, and cost-efficiency. With unmatched adaptability across industries, PVC offers solutions for construction, healthcare, automotive, and consumer goods, combining durability with sustainability through recyclable and eco-friendly formulations. Whether rigid or flexible, PVC delivers performance and value for modern manufacturing challenges.
PVC is an amorphous white powder with a low degree of branching, a glass transition temperature of 77~90ºC, and begins to decompose at around 170ºC. It has poor stability to light and heat. It will decompose to produce hydrogen chloride at temperatures above 100ºC or after long-term exposure to sunlight, and further autocatalytic decomposition will cause discoloration. The physical and mechanical properties will also decline rapidly. In practical applications, stabilizers must be added to improve the stability to heat and light.
The molecular weight of industrially produced PVC is generally in the range of 50,000 to 110,000, with a large polydispersity. The molecular weight increases with the decrease of polymerization temperature. It has no fixed melting point, begins to soften at 80~85ºC, becomes viscoelastic at 130ºC, and begins to change to viscous flow at 160~180ºC. It has good mechanical properties, tensile strength of about 60MPa, impact strength of 5~10kJ/m2; and has excellent dielectric properties. PVC is insoluble in common solvents, but it will swell in monomers and certain chlorinated hydrocarbon solvents.
| Performance Item |
Test Conditions |
Test Data |
Data Unit |
| Hardness |
--- |
≤75 |
Shore A |
| Tensile strength |
--- |
≤13 |
MPa |
| Elongation at break |
--- |
≥250 |
% |
| 180ºC thermal stability time |
--- |
≥40 |
min |
| Zinc content |
--- |
≤0.4 |
ug/mL |
| Oxidizable substances |
--- |
≤0.3 |
ML/20ML |
| pH |
--- |
≤1 |
--- |
| Heavy metals |
--- |
≤0.3 |
ug/mL |
| UV absorption |
230-360nm |
0.3 |
--- |
| Ash |
--- |
≤1 |
mg/g |
| VCM monomer |
--- |
≤1 |
ug/g |
| Pyrogen, hemolysis, acute, systemic toxicity |
--- |
qualified |
--- |
Application
Applications of PVC:
Construction: Pipes, window profiles, roofing membranes, and flooring.
Electrical: Cable insulation, junction boxes, and conduit systems.
Healthcare: Medical tubing, blood bags, and IV containers (phthalate-free grades).
Automotive: Interior trim, underbody coatings, and wire harnesses.
Consumer Goods: Packaging films, credit cards, toys, and synthetic leather.
Industrial: Chemical storage tanks, gaskets, and conveyor belts.
Company Profile
Julier has been one of the leading forces within the plastic materials industry since it was founded in 2003. Julier engaged in compound plastics and engineering plastics, such as PA6, PA66, PA12, PPS, PC, PBT, ABS, TPU, PEI, PSU, POM, PC+ABS, etc. which can be reinforced with glass fiber reinforced, flame retardant, carbon fiber, Mos2, toughness, etc. The most important thing is we have an R&D department, so we can customize products and provide technical support according to customers' needs. To be your best plastic profile manufacturer, we're striving to provide you with good quality products and services and offer moderate prices as we realize that the profitability is the number one goal of our valued customers.
Certifications
Packaging & Shipping
Customer Show
FAQ
1. What products does Julier Plastic specialize in?
We specialize in manufacturing and exporting high-quality plastic products, including but not limited to:
General plastics: PP, LDPE, HDPE, PVC (polyvinyl chloride), PS (polystyrene), HIPS which can be reinforced with glass fiber reinforced, flame retardant, carbon fiber, Mos2, toughness, etc.
Features: low cost, easy processing, used in daily necessities, packaging and building materials.
Engineering plastics: PA6, PA66, POM (polyoxymethylene), PC, ABS, PBT, which can be reinforced with glass fiber reinforced, flame retardant, carbon fiber, Mos2, toughness, etc.
Features: high strength, heat resistance, used in machinery, automobiles and electronics.
High-performance engineering plastics: PEEK (polyetheretherketone), PEI (polyetherimide), PPS (polyphenylene sulfide), PSU (polysulfone), PPSU (polyphenylene sulfone), PPA
Features: high temperature resistance, corrosion resistance, used in aerospace, medical equipment
Thermoplastic elastomer (TPE) TPU, TPV, TPR, TPE
Features: flexible and recyclable, used in shoes, seals and flexible pipes
2. Do you offer custom plastic material services?
Yes! We provide end-to-end customization, including material selection according to the parameters, Granulate production, Board production to test strength, product performance testing, and sending a sample. Share your specifications (TDS), and we'll deliver tailored solutions.
3. What is your minimum order quantity (MOQ)?
Our MOQ is flexible to accommodate both small and bulk orders. Contact us with your requirements, and we'll propose the best option for your budget and timeline.
4. How do you ensure product quality?
Quality is our priority. We implement strict QC protocols: ISO 9001-certified processes In-house lab testing (durability, dimensional accuracy, etc.) Pre-shipment inspections
5. What are your lead times?
Standard lead times range from 3-15 days after order confirmation. Urgent orders may be prioritized-let us know your deadline upfront.
6. What payment terms do you accept?
We accept T/T (Telegraphic Transfer), L/C (Letter of Credit), and secure payment platforms. Terms are negotiable based on order size and partnership history.
7. Do you handle shipping and logistics?
Yes. We offer FOB, EXW, CIF, or CNF shipping terms and partner with reliable freight forwarders for seamless global delivery.
8. Can you provide samples?
Yes. Samples are available for quality verification. Sample costs and lead times depend on product complexity.
9. What if I encounter issues with my order?
Our team provides 24/7 post-sales support. Any defects or discrepancies will be resolved promptly.
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