First, the development of packaging materials
The primary stage of packaging materials can be traced back to the history of human records, when the packaging material was taken from nature. After the production of man-made packaging materials, such as paper, glass, and metal, they provided better raw materials for packaging, and the varieties of packaging gradually became more popular and widely accepted.
The real rise of packaging began with the invention of synthetic materials, plastics, in the 1950s. Plastics have the advantages of light weight, durability, barrier properties, easy molding, various shapes, and low resource and energy consumption. They have largely replaced packaging materials processed by natural resources and promoted the emergence of new packaging machinery. It can be said that modern packaging has developed with the development of the plastics industry. The 1960s was the turning point of China's plastic product industry from thermosetting plastic products to thermoplastic plastic products. Afterwards to 70 to
Composite packaging materials developed in the 1980s, such as aluminum-plastic composite materials, paper-plastic composite materials, and plastic-plastic composite materials, can replace metal, glass, paper and other packaging materials, improving the barrier properties, structural properties, and printing of packaging. Sex makes packaging more convenient and safer. Especially in recent years, the production of pet, bopp, nylon film and aluminized film has strongly promoted the development of plastic packaging materials. The development of new technologies has now promoted the emergence of a variety of emerging packaging.
Packaging materials gradually occupy an important position in the material industry. According to incomplete statistics, the world's annual sales of packaging materials are about 50 billion U.S. dollars, employing more than 5 million people and accounting for 1.5% to 2.3% of the GNP.
However, the packaging has a short life span and a large amount of usage (for example, in the United States, 150 million tons of municipal waste is generated each year, of which 1/3 is packaging waste. The solid waste in Japanese cities is about 50 million tons per year, of which packaging waste is 21 million tons) and it is difficult to concentrate, causing serious damage to the urban environment and the human body. The white film pollution caused by the low recovery rate of plastic films, the release of chemical substances that destroy the ozone layer during incineration, and environmental problems such as the destruction of ecological balance have caused widespread concern in the society.
Eco-packaging originated from the "Our Common Future" document of the United Nations Environment and Development Committee in 1987. It refers to packaging that is harmless to the ecological environment and human health, energy recycling, and material recycling, and can promote sustainable development. The eco-materials pursue not only excellent performance but also the coordination, co-existence and comfort of the eco-environment throughout the entire life cycle of the production, use, and disposal of the materials. Since the 90s of last century, ecological packaging materials have been greatly developed.
Second, the study of ecological packaging
1. Ecological plastic packaging
Plastic packaging has many advantages and occupies an important position in the packaging material. At the same time plastics account for a large proportion of packaging waste, about 40%. Its biggest drawback is that it is not easy to degrade and cause pollution. At present, researchers are developing new types of plastic packaging, mainly biodegradable plastics and chemically degradable plastics.
(1) Biodegradable plastics
The ideal bio-degradable plastic is a polymer material that has excellent performance and can be completely decomposed by environmental microorganisms after disposal. Paper is a biodegradable material, and commonly used synthetic plastics are non-degradable polymer materials. Biodegradable plastic is a new polymer material that combines the degradability of paper with the high performance of synthetic plastics. Biodegradable macromolecule (macromolecule) materials have been proven to have a degradative mechanism: high-molecular-weight macromolecules are mainly decomposed by bacteria or their hydrolytic enzymes into smaller molecular weight fragments, which are then further decomposed by bacteria into carbon dioxide and water. Can be divided into three categories:
Microbial produced polyester. It is a microbial fermentation-type macromolecule, which uses enzymes produced by microorganisms to depolymerize and hydrolyze polyesters that are easily biodegradable in nature, and then decomposes and absorbs synthetic polymer compounds. These compounds contain microbial polyesters and microbial polysaccharides. In order to reduce the cost of manufacturing microbial polyesters, research is being conducted on the use of plant synthetic biodegradable plastics. The United States and Japan have successively used genetic engineering technology to make some plants directly grow degradable polyester on their branches and leaves. For example, the research group of Michigan State University in the United States introduced genetic genes of biosynthetic microbial polyester systems into plants. Synthetic polyesters have been successfully developed.
Natural polymers (starch, cellulose, etc.) derived from plants. The development of this starch synthetic biodegradable plastic at home and abroad is very hot. Wana in the United States. Lambert Pharmaceuticals, by manipulating the genetics of plants, partially controls the degree of branching of starch macromolecule chains, thereby producing biodegradable plastics using cheap starch as raw material. The company has been promoting the application of medicinal starch capsules and has achieved success. On this basis, they also developed thermoplastic biodegradable plastics using a mixture of starch and biodegradable polymers, and commercialized them under the brand “novonâ€.
Chemically synthesized polymers. The use of chemically synthesized biodegradable plastics, such as poly(ε-caprolactone) (pcl), has been used since 1975, but it has been used very limitedly. It is said that it can be degraded by 95% after being buried in soil for 12 months. Blends of pcl and starch blends, pcl and phbv blends, pcl and nylon 6 blends have been developed. Other biodegradable polyesters based on proteins, urea and polysaccharides have also been produced. They are biodegradable plastics. .
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About Our Hospital Bed:
Our Hospital Beds are specially designed beds that are used in healthcare facilities to provide comfort and support to patients during their stay. These beds offer numerous advantages that contribute to the overall well-being and recovery of patients. In this article, we will explore some of the key advantages of hospital beds.
One of the primary advantages of our hospital beds is their adjustability. These beds can be easily adjusted to various positions, allowing patients to find the most comfortable position for sleeping, sitting, or even eating. The ability to adjust the bed's height also makes it easier for healthcare professionals to provide care and treatment to patients, as they can easily reach the patient without straining their own backs.
Our Hospital beds are equipped with side rails, which provide an added level of safety for patients. These rails help prevent patients from falling out of bed, especially those who are at a higher risk due to their medical condition or mobility issues. The side rails can be easily raised or lowered as needed, providing convenience for both patients and caregivers.
Another advantage of our hospital beds is the presence of specialized mattresses. These mattresses are designed to provide pressure relief and prevent the development of bedsores, which are a common concern for patients who are bedridden or have limited mobility. The mattresses distribute the patient's weight evenly, reducing pressure on specific areas of the body and promoting better blood circulation.
Our Hospital beds also come with features that enhance patient mobility. Many hospital beds have wheels attached to them, allowing easy transportation of patients within the healthcare facility. This mobility feature is particularly useful during medical procedures, transfers between rooms, or when patients need to be moved for cleaning purposes. Additionally, some hospital beds have a feature called Trendelenburg positioning, which allows the bed to be tilted at an angle to facilitate specific medical procedures or provide relief to patients with certain medical conditions.
Furthermore, our hospital beds are equipped with various accessories that further enhance patient comfort and convenience. These accessories can include adjustable overbed Tables, which allow patients to eat, read, or work while in bed. Some hospital beds also have built-in electronic controls that enable patients to adjust the bed's position or call for assistance with the push of a button. These features promote patient independence and reduce the need for constant caregiver support.
In addition to patient benefits, hospital beds also offer advantages for healthcare professionals. The adjustability and mobility features of hospital beds make it easier for healthcare professionals to provide care and treatment to patients. The ability to raise or lower the bed's height, adjust the backrest, or tilt the bed can significantly improve the ergonomics of caregiving, reducing the risk of strain or injury for healthcare professionals.
In conclusion, our hospital beds offer numerous advantages that contribute to the well-being and recovery of patients. The adjustability, safety features, specialized mattresses, and mobility options make hospital beds a crucial component in healthcare facilities. These beds not only provide comfort and support to patients but also enhance the efficiency and effectiveness of healthcare professionals.
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