Uncategorized

PLA thermoforming technology: the future trend of sustainable packaging As global environmental regulations become stricter, traditional petroleum-based plastics (such as PS and PP) face challenges in the field of thermoforming packaging. Polylactic acid (PLA), as a biodegradable material, is becoming an ideal substitute for food packaging, disposable tableware and industrial containers. Kingfa Sci. & Tech., […]

What’s Kinpoly products’ material? We have two kinds of material which are:1. 100% biodegradable polylactide resin (PLA)2. 100%biodegradable modified PLA What are the application scopes of KINPOLY pla materials? 1）PBAT/Starch/PLA compound blow filming materials 2）PBAT/CaCO3/PLA compound blow filming material 3）PLA based straw materials 4）H8000-3 Series: Fully Biodegradable Thermoforming Material 5）Disposable injection molding grade materials 6）H8000-2A:

Introduction: Sustainable development challenges in the catering industry As global environmental awareness increases, the catering industry is facing the urgent challenge of plastic pollution control. Traditional plastic tableware has become the main source of white pollution due to its difficulty in degradation. In this context, KINPOLY polylactic acid (PLA) modified tableware solutions provide catering companies with

Introduction: Why choose modified PLA materials? Against the backdrop of the escalating global “plastic ban”, the demand for degradable tableware has surged. As a high-performance bio-based plastic, Jinpure’s modified PLA material (Polylactic Acid) is becoming a key material to replace traditional plastics in the catering industry. Compared with ordinary PLA, modified PLA enhances heat resistance,

In the toy manufacturing industry, a green revolution driven by PLA materials and 3D printing technology is emerging. This bio-based material is changing the traditional model of toy manufacturing and bringing unprecedented innovation opportunities to the industry. PLA (polylactic acid) is a biodegradable material derived from renewable resources such as corn starch and sugarcane. Compared

In the pursuit of sustainable development today, bio-based materials are gradually replacing traditional plastics and becoming the new favorite of all industries. Among them, KINPOLY modified PLA (polylactic acid) stands out and becomes a star brand in the field of environmental protection materials with its excellent performance and various application prospects. What is Modified PLA? PLA is

Anhui Kinpoly New Materials Co., LTD., mainly engaged in the research and development, production and sales of PLA and other degradable materials, is committed to providing customers with high performance, customized, functional biodegradable materials overall solution. Based on PLA/PBAT/PBS/PHA and other biodegradable materials, the company has developed a series of biodegradable products, which are suitable

KINPOLYM biodegradable film materials refer to biodegradable resins (PBAT, PLA,etc.) and biomass materials (Starch,Calcium,etc.) as raw materials, through unique biomass material surface treatment technology and At present, KINPOLYM biodegradable film materials are mainly evaluated in the fields of supermarket shopping bags, logistics express packaging, food packaging and mulching film. Product features, classification and applications Features

Environmental protection PLA is a biodegradable material that can be completely decomposed into water and carbon dioxide by microorganisms in the natural environment or composting conditions without causing environmental pollution. In contrast, traditional plastics degrade extremely slow in the natural environment and may take hundreds to thousands of years and cause “permanent” pollution. Source of

Biodegradable Eco-Friendly Plastic Bags Cornstarch plastic bags are a type of biodegradable, eco-friendly plastic bag. They are produced from cornstarch, which is processed using modern biotechnology to extract lactic acid, a colorless and transparent liquid. This lactic acid undergoes a special polymerization process to form polylactic acid (PLA) granules. Bags made from this biopolymer can