A Detailed Description of how Plastics Manufacturing Processes

How Plastics Are Made?

Through a polymerization or polycondensation process, natural resources, including cellulose, coal, natural gas, salt, and crude oil, are transformed into plastics. Polymers are sourced from renewable resources like cellulose, coal, natural gas, salt, and crude oil. Because of its dozens of components, crude oil must be refined before it can be used. Plastics are made by first distilling crude oil in a refinery.

Know More about  Plastics Manufacturing Processes

Plastic manufacturing Processes involve two basic processes: polymerization and polycondensation. Long polymer chains are created when monomers like ethylene and propylene bond in a polymerization reactor. Depending on the basic monomers utilized, each polymer will have its unique properties, structure, and size.

The Wide Variety of Plastics Can Be Broken Down Into Two Broad Classes of Polymers:

• Materials that change shape when heated and subsequently cool.
• Thermosets retain their shape forever after being shaped.

Plastic can be either synthetic or biobased, with synthetic plastics derived from crude oil, natural gas, or coal. Biobased plastics come from renewable sources like carbohydrates, starch, vegetable fats, oils, bacteria, and other biological substances. Most plastic in use today is synthetic due to the ease of manufacturing methods involved in processing crude oil. However, the growing demand for limited oil reserves is driving a need for newer plastics from renewable resources like waste biomass or animal-waste products.

In Europe, only 4-6% of our oil and gas reserves go towards the production of plastics, with the rest used for transport, electricity, heating, and other applications. Most plastic in use today is derived through the extraction of raw materials, refining, polymerization, and compounding/processing.

The extraction process involves the extraction of crude oil and natural gas, which are complex mixtures of thousands of compounds that need to be processed. The refining process transforms crude oil into petroleum products, which are converted into useful chemicals, including “monomers” (the basic building blocks of polymers). Polymerization occurs when light olefin gases (gasoline) such as ethylene, propylene, and butylene are chemically bonded into chains, leading to higher molecular weight hydrocarbons (polymers).

Compounding/processing involves melting blends of materials to make plastic formulations. These formulations are then pelletized and processed into unique plastic objects with accurate properties according to predetermined conditions set in the processing machine.

How is Synthetic Plastic Created from Crude Oil?

Synthetic plastic is produced from petrochemicals, which are extracted from the Earth’s surface through drilling and extraction. Crude oil is a mixture of hundreds of hydrocarbons, including some solids and gaseous hydrocarbons from the alkane family. It is then heated into a furnace and fed to a fractional distillation tower as a vapor. The distillation column separates the mixture into different compartments called fractions, with the top being cooler than the base.

The obtained long-chain hydrocarbons are converted into hydrocarbons that can be used for various products, such as plastic and pharmaceuticals. Cracking of hydrocarbons is the main process that breaks down the mixture of complex hydrocarbons into simpler low relative molecular mass alkenes/alkanes (plus by-products) using high temperature and pressure. This can be performed in two ways: steam cracking and catalytic cracking.

The raw materials used by the petrochemical industry are mainly naphtha and natural gas from oil refining operations in the petrochemical feedstock. Steam cracking uses feedstocks from hydrocarbon mixtures from various fractions, such as reactant gases (ethane, propane, or butane) from natural gas or liquids (naphtha or gas oil). Raw materials molecules are converted into monomers such as ethylene, propylene, and butene, which comprise double bonds so that the carbon atoms can subsequently react to form polymers.

Polymerization is the chemical polymerization mechanism that generates thick, viscous substances as resins, which are employed to make a plastic product. When subjected to heat, pressure, and a certain catalyst, Polyethene (PE) is a plastic resin made from ethylene, a gaseous hydrocarbon. Producing PE-based plastic pellets involves pouring them into a reactor, melting them into a thick liquid, casting them into a mold, and cooling the liquid to harden them into a solid plastic and produce a finished product.

Synthetic plastic is made by a reaction known as polymerization, which can be performed in two different ways: addition polymerization, which involves adding together monomers in a long chain, and condensation polymerization, which consists in combining two monomers to form a dimer (two units) by releasing a byproduct. Byproducts, such as water, are necessary for the success of the reaction. Byproducts can also be valuable raw materials that are recycled back into the feed stream.

How is Plastic Created from Naphtha?

Naphtha, a term used to describe volatile mixtures of liquid hydrocarbons obtained from crude oil distillation, is a mixture of C5 to C10 hydrocarbons. It is decomposed thermally at high temperatures (~800°C) in a steam cracker, resulting in light hydrocarbons called olefins and aromatics. These small molecules are linked into long molecular chains called polymers.

Polymers are not plastic but granules, powders, or liquids. Before they can be used as everyday plastic, they undergo a series of transformations, including kneading, heating, melting, and cooling. For example, ethylene is polymerized into polyethylene (PE), which is then processed with chemicals like antioxidants and stabilizers. The PE is then converted into strings, grinders, and pellets, which are then melted into final products by factories.

What Is the Main Ingredient in Plastic?

A derivative of crude oil and natural gas is the main component of most plastic materials. Plastics come in various forms: clear, foggy, solid colors, flexible, hard, and soft.

To create plastic items, a polymer resin is frequently combined with a variety of additives. The additives are crucial since they each provide plastic-specific, ideal features like toughness, flexibility, elasticity, and color or make them more hygienic and safe to use for a certain application.

The number at the bottom of plastic containers can sometimes be used to determine what kind of plastic was used to make a product. Below is a list of some of the most common plastic kinds and their parent monomers.

Which Was the First Human-Made Plastic?

Natural latex and rubber were employed by Meso-American societies (Olmec, Maya, and Aztec, 1500 BCE) to construct water-resistant containers and clothing.

The first synthetic bioplastic, termed Parkesine, was created by Alexander Parkes in the UK in 1856. It was made of cellulose nitrate. Parkesine was a tough, bendable, and clear plastic. With Parkes’ idea, John Wesley Hyatt (US, 1860s) prospered financially. By including camphor, the Hyatt brothers made cellulose nitrate plastic more malleable and gave it the new name Celluloid. The intention was to create billiard balls formerly made of ivory. Many people view the creation as the first instance of man-made bioplastic.

Bakelite, which was created from phenol and formaldehyde resin, was the first truly synthetic material. The invention of Bakelite by Leo Baekeland in Belgium in 1906 earned it the title of “National Historic Chemical Landmark” because it completely altered every business currently operating in modern society. It possesses a high level of resistance to chemicals, heat, and electricity. It has non-conducting qualities, which are crucial for building the casings for electronic devices like radios and phones.

Video 01: How plastic is made animation