They can changed in various different ways such as cross linking with polymers with weaker or stronger molecular structures. Their chain length can also be increased to strengthen them. They can be plastercized, which will make them softer or their crystallinity can be increased, making their branches more organized and close together, making them harder to separate.
Oil polymerization is a process where small molecules in oil combine to form larger molecules, resulting in the formation of polymers. This process can change the properties of polymers by increasing their strength, durability, and heat resistance. Additionally, oil polymerization can also improve the flexibility and chemical resistance of polymers, making them more suitable for various applications.
No, not all polymers are man-made. Some polymers can be found in nature, such as proteins, cellulose, and DNA. These natural polymers have unique properties and functions in living organisms.
Inert polymers are polymers that do not react chemically with other substances or change their properties when exposed to different environmental conditions. They are often used in various industries for their stability and resistance to degradation. Examples of inert polymers include polyethylene and polypropylene.
photoconductive polymers are materials that change their electrical conductivity when subject to light (infra red- visible - ultraviolet - gamma). They are mainly used in photocopiers and holography.
Polymers are large molecules made up of repeating units, while plastics are a type of polymer that can be molded into various shapes. Not all polymers are plastics, but all plastics are polymers. Plastics are a subset of polymers that have additional properties, such as being lightweight, durable, and easily molded.
1. Chain length 2. Plasticizers 3. Cross linking 4. Crystallinity
modified natural polymers are natural polymers which are altered in order to suit a particular purposeModified natural polymers are natural polymers which are altered in order to suit a particular purpose. Modified natural polymers are natural polymers which are altered in order to suit a particular purpose.
Oil polymerization is a process where small molecules in oil combine to form larger molecules, resulting in the formation of polymers. This process can change the properties of polymers by increasing their strength, durability, and heat resistance. Additionally, oil polymerization can also improve the flexibility and chemical resistance of polymers, making them more suitable for various applications.
Anthony Blythe has written: 'Electrical properties of polymers' -- subject(s): Polymers, Electric properties
T. Hatakeyama has written: 'Thermal properties of green polymers and biocomposites' -- subject(s): Polymers, Biodegradation, Thermal properties
No, not all polymers are man-made. Some polymers can be found in nature, such as proteins, cellulose, and DNA. These natural polymers have unique properties and functions in living organisms.
Inert polymers are polymers that do not react chemically with other substances or change their properties when exposed to different environmental conditions. They are often used in various industries for their stability and resistance to degradation. Examples of inert polymers include polyethylene and polypropylene.
Nature polymers and synthetic polymers are both large molecules made up of repeating units called monomers. They both have high molecular weights and exhibit similar properties like flexibility, strength, and durability. Additionally, both nature and synthetic polymers can be engineered to have specific properties for various applications.
Evaristo Riande has written: 'Dipole moments and birefringence of polymers' -- subject(s): Dipole moments, Double Refraction, Electric properties, Optical properties, Polymers
P. Chevassus has written: 'Aging properties of cable polymers (II)' -- subject(s): Polymers
Corn starch polymers are biodegradable materials derived from corn starch, a natural carbohydrate. They are used as eco-friendly alternatives to traditional plastics, as they can decompose more readily in the environment. Corn starch polymers are commonly utilized in packaging, disposable utensils, and various other applications where sustainability is a priority. Their properties can be modified to enhance strength and flexibility, making them versatile in various industrial uses.
Yes, polymers can be broadly categorized into natural and synthetic polymers. Synthetic polymers can further be classified based on their chemical structure and properties, such as thermoplastics, thermosets, elastomers, and fibers. These classifications help in understanding the different characteristics and applications of polymers.